BLASTP 2.2.26 [Sep-21-2011]
Reference: Altschul, Stephen F., Thomas L. Madden, Alejandro A. Schaffer,
Jinghui Zhang, Zheng Zhang, Webb Miller, and David J. Lipman (1997),
"Gapped BLAST and PSI-BLAST: a new generation of protein database search
programs", Nucleic Acids Res. 25:3389-3402.
Reference for compositional score matrix adjustment: Altschul, Stephen F.,
John C. Wootton, E. Michael Gertz, Richa Agarwala, Aleksandr Morgulis,
Alejandro A. Schaffer, and Yi-Kuo Yu (2005) "Protein database searches
using compositionally adjusted substitution matrices", FEBS J. 272:5101-5109.
Query= 027418
(223 letters)
Database: pdbaa
62,578 sequences; 14,973,337 total letters
Searching..................................................done
>pdb|1IRU|M Chain M, Crystal Structure Of The Mammalian 20s Proteasome At 2.75
A Resolution
pdb|1IRU|1 Chain 1, Crystal Structure Of The Mammalian 20s Proteasome At 2.75
A Resolution
Length = 213
Score = 211 bits (537), Expect = 2e-55, Method: Compositional matrix adjust.
Identities = 104/216 (48%), Positives = 141/216 (65%), Gaps = 4/216 (1%)
Query: 8 WSPYDNNGGTCVAIAGADYCVTAADTRMSTGYSILSRDYSKIIKLADKCVMASSGFQADV 67
+SPY NGGT +AIAG D+ + A+DTR+S G+SI +RD K KL DK V+ SGF D
Sbjct: 2 FSPYVFNGGTILAIAGEDFAIVASDTRLSEGFSIHTRDSPKCYKLTDKTVIGCSGFHGDC 61
Query: 68 KALQKLLAARHLIYQHQHNKQMSCPAMGQLLSNTLYYKRFFPYYSFNVLGGLDNEGKGCV 127
L K++ AR +Y+H +NK M+ A+ +LS LY +RFFPYY +N++GGLD EGKG V
Sbjct: 62 LTLTKIIEARLKMYKHSNNKAMTTGAIAAMLSTILYSRRFFPYYVYNIIGGLDEEGKGAV 121
Query: 128 YTYDAVGSYERVGYSSQGSGSTLIMPFLDNQLKSPSPLLLPAQDAVTPLSEAEAVDLVKT 187
Y++D VGSY+R + + GS S ++ P LDNQ+ + + PLS A+ LVK
Sbjct: 122 YSFDPVGSYQRDSFKAGGSASAMLQPLLDNQVGFKNMQNVEH----VPLSLDRAMRLVKD 177
Query: 188 CFASATERDIYTGDKLEIVVLNKDGIHREYMELRKD 223
F SA ERD+YTGD L I ++ K+GI E + LRKD
Sbjct: 178 VFISAAERDVYTGDALRICIVTKEGIREETVSLRKD 213
>pdb|3UNB|L Chain L, Mouse Constitutive 20s Proteasome In Complex With Pr-957
pdb|3UNB|Z Chain Z, Mouse Constitutive 20s Proteasome In Complex With Pr-957
pdb|3UNB|NN Chain n, Mouse Constitutive 20s Proteasome In Complex With Pr-957
pdb|3UNB|2 Chain 2, Mouse Constitutive 20s Proteasome In Complex With Pr-957
pdb|3UNE|L Chain L, Mouse Constitutive 20s Proteasome
pdb|3UNE|Z Chain Z, Mouse Constitutive 20s Proteasome
pdb|3UNE|NN Chain n, Mouse Constitutive 20s Proteasome
pdb|3UNE|2 Chain 2, Mouse Constitutive 20s Proteasome
pdb|3UNF|L Chain L, Mouse 20s Immunoproteasome In Complex With Pr-957
pdb|3UNF|Z Chain Z, Mouse 20s Immunoproteasome In Complex With Pr-957
pdb|3UNH|L Chain L, Mouse 20s Immunoproteasome
pdb|3UNH|Z Chain Z, Mouse 20s Immunoproteasome
Length = 213
Score = 210 bits (535), Expect = 4e-55, Method: Compositional matrix adjust.
Identities = 104/216 (48%), Positives = 143/216 (66%), Gaps = 4/216 (1%)
Query: 8 WSPYDNNGGTCVAIAGADYCVTAADTRMSTGYSILSRDYSKIIKLADKCVMASSGFQADV 67
+SPY NGGT +AIAG D+ + A+DTR+S G+SI +RD K KL DK V+ SGF D
Sbjct: 2 FSPYAFNGGTVLAIAGEDFSIVASDTRLSEGFSIHTRDSPKCYKLTDKTVIGCSGFHGDC 61
Query: 68 KALQKLLAARHLIYQHQHNKQMSCPAMGQLLSNTLYYKRFFPYYSFNVLGGLDNEGKGCV 127
L K++ AR +Y+H +NK M+ A+ +LS LY +RFFPYY +N++GGLD EGKG V
Sbjct: 62 LTLTKIIEARLKMYKHSNNKAMTTGAIAAMLSTILYSRRFFPYYVYNIIGGLDEEGKGAV 121
Query: 128 YTYDAVGSYERVGYSSQGSGSTLIMPFLDNQLKSPSPLLLPAQDAVTPLSEAEAVDLVKT 187
Y++D VGSY+R + + GS S ++ P LDNQ+ + + + V PL+ A+ LVK
Sbjct: 122 YSFDPVGSYQRDSFKAGGSASAMLQPLLDNQVGFKN---MQNVEHV-PLTLDRAMRLVKD 177
Query: 188 CFASATERDIYTGDKLEIVVLNKDGIHREYMELRKD 223
F SA ERD+YTGD L I ++ K+GI E + LRKD
Sbjct: 178 VFISAAERDVYTGDALRICIVTKEGIREETVPLRKD 213
>pdb|1G0U|L Chain L, A Gated Channel Into The Proteasome Core Particle
pdb|1G0U|Z Chain Z, A Gated Channel Into The Proteasome Core Particle
pdb|2ZCY|L Chain L, Yeast 20s Proteasome:syringolin A-Complex
pdb|2ZCY|Z Chain Z, Yeast 20s Proteasome:syringolin A-Complex
pdb|3BDM|L Chain L, Yeast 20s Proteasome:glidobactin A-Complex
pdb|3BDM|Z Chain Z, Yeast 20s Proteasome:glidobactin A-Complex
pdb|3NZJ|L Chain L, Crystal Structure Of Yeast 20s Proteasome In Complex With
Ligand 2a
pdb|3NZJ|Z Chain Z, Crystal Structure Of Yeast 20s Proteasome In Complex With
Ligand 2a
pdb|3NZW|L Chain L, Crystal Structure Of The Yeast 20s Proteasome In Complex
With 2b
pdb|3NZW|Z Chain Z, Crystal Structure Of The Yeast 20s Proteasome In Complex
With 2b
pdb|3NZX|L Chain L, Crystal Structure Of The Yeast 20s Proteasome In Complex
With Ligand 2c
pdb|3NZX|Z Chain Z, Crystal Structure Of The Yeast 20s Proteasome In Complex
With Ligand 2c
pdb|3MG6|L Chain L, Structure Of Yeast 20s Open-Gate Proteasome With Compound
6
pdb|3MG6|Z Chain Z, Structure Of Yeast 20s Open-Gate Proteasome With Compound
6
pdb|3MG7|L Chain L, Structure Of Yeast 20s Open-Gate Proteasome With Compound
8
pdb|3MG7|Z Chain Z, Structure Of Yeast 20s Open-Gate Proteasome With Compound
8
pdb|3MG8|L Chain L, Structure Of Yeast 20s Open-Gate Proteasome With Compound
16
pdb|3MG8|Z Chain Z, Structure Of Yeast 20s Open-Gate Proteasome With Compound
16
pdb|4B4T|6 Chain 6, Near-Atomic Resolution Structural Model Of The Yeast 26s
Proteasome
Length = 241
Score = 181 bits (458), Expect = 4e-46, Method: Compositional matrix adjust.
Identities = 96/221 (43%), Positives = 132/221 (59%), Gaps = 5/221 (2%)
Query: 8 WSPYDNNGGTCVAIAGADYCVTAADTRMSTGYSILSRDYSKIIKLADKCVMASSGFQADV 67
++PY +NGGT + IAG D+ V A DTR T YSI SR K+ D VM+++GF AD
Sbjct: 21 FNPYGDNGGTILGIAGEDFAVLAGDTRNITDYSINSRYEPKVFDCGDNIVMSANGFAADG 80
Query: 68 KALQKLLAARHLIYQHQHN-KQMSCPAMGQLLSNTLYYKRFFPYYSFNVLGGLDNEGKGC 126
AL K Y HN K++S + + + + LY KRFFPYY ++ GLD +GKG
Sbjct: 81 DALVKRFKNSVKWYHFDHNDKKLSINSAARNIQHLLYGKRFFPYYVHTIIAGLDEDGKGA 140
Query: 127 VYTYDAVGSYERVGYSSQGSGSTLIMPFLDNQLKSPSPLLLPAQDAVTP----LSEAEAV 182
VY++D VGSYER + G+ ++LIMPFLDNQ+ + V LS E +
Sbjct: 141 VYSFDPVGSYEREQCRAGGAAASLIMPFLDNQVNFKNQYEPGTNGKVKKPLKYLSVEEVI 200
Query: 183 DLVKTCFASATERDIYTGDKLEIVVLNKDGIHREYMELRKD 223
LV+ F SATER I GD LEI+++ KDG+ +E+ EL++D
Sbjct: 201 KLVRDSFTSATERHIQVGDGLEILIVTKDGVRKEFYELKRD 241
>pdb|1RYP|M Chain M, Crystal Structure Of The 20s Proteasome From Yeast At 2.4
Angstroms Resolution
pdb|1RYP|1 Chain 1, Crystal Structure Of The 20s Proteasome From Yeast At 2.4
Angstroms Resolution
pdb|1G65|L Chain L, Crystal Structure Of Epoxomicin:20s Proteasome Reveals A
Molecular Basis For Selectivity Of
Alpha,Beta-Epoxyketone Proteasome Inhibitors
pdb|1G65|Z Chain Z, Crystal Structure Of Epoxomicin:20s Proteasome Reveals A
Molecular Basis For Selectivity Of
Alpha,Beta-Epoxyketone Proteasome Inhibitors
pdb|1FNT|M Chain M, Crystal Structure Of The 20s Proteasome From Yeast In
Complex With The Proteasome Activator Pa26 From
Trypanosome Brucei At 3.2 Angstroms Resolution
pdb|1FNT|AA Chain a, Crystal Structure Of The 20s Proteasome From Yeast In
Complex With The Proteasome Activator Pa26 From
Trypanosome Brucei At 3.2 Angstroms Resolution
pdb|1JD2|L Chain L, Crystal Structure Of The Yeast 20s Proteasome:tmc-95a
Complex: A Non- Covalent Proteasome Inhibitor
pdb|1JD2|S Chain S, Crystal Structure Of The Yeast 20s Proteasome:tmc-95a
Complex: A Non- Covalent Proteasome Inhibitor
pdb|1Z7Q|M Chain M, Crystal Structure Of The 20s Proteasome From Yeast In
Complex With The Proteasome Activator Pa26 From
Trypanosome Brucei At 3.2 Angstroms Resolution
pdb|1Z7Q|AA Chain a, Crystal Structure Of The 20s Proteasome From Yeast In
Complex With The Proteasome Activator Pa26 From
Trypanosome Brucei At 3.2 Angstroms Resolution
pdb|2F16|L Chain L, Crystal Structure Of The Yeast 20s Proteasome In Complex
With Bortezomib
pdb|2F16|Z Chain Z, Crystal Structure Of The Yeast 20s Proteasome In Complex
With Bortezomib
pdb|2FAK|L Chain L, Crystal Structure Of Salinosporamide A In Complex With The
Yeast 20s Proteasome
pdb|2FAK|Z Chain Z, Crystal Structure Of Salinosporamide A In Complex With The
Yeast 20s Proteasome
pdb|2GPL|L Chain L, Tmc-95 Based Biphenyl-Ether Macrocycles: Specific
Proteasome Inhibitors
pdb|2GPL|Z Chain Z, Tmc-95 Based Biphenyl-Ether Macrocycles: Specific
Proteasome Inhibitors
pdb|3D29|L Chain L, Proteasome Inhibition By Fellutamide B
pdb|3D29|Z Chain Z, Proteasome Inhibition By Fellutamide B
pdb|3E47|L Chain L, Crystal Structure Of The Yeast 20s Proteasome In Complex
With Homobelactosin C
pdb|3E47|Z Chain Z, Crystal Structure Of The Yeast 20s Proteasome In Complex
With Homobelactosin C
pdb|3DY3|L Chain L, Crystal Structure Of Yeast 20s Proteasome In Complex With
The Epimer Form Of Spirolactacystin
pdb|3DY3|Z Chain Z, Crystal Structure Of Yeast 20s Proteasome In Complex With
The Epimer Form Of Spirolactacystin
pdb|3DY4|L Chain L, Crystal Structure Of Yeast 20s Proteasome In Complex With
Spirolactacystin
pdb|3DY4|Z Chain Z, Crystal Structure Of Yeast 20s Proteasome In Complex With
Spirolactacystin
pdb|3GPJ|L Chain L, Crystal Structure Of The Yeast 20s Proteasome In Complex
With Syringolin B
pdb|3GPJ|Z Chain Z, Crystal Structure Of The Yeast 20s Proteasome In Complex
With Syringolin B
pdb|3GPT|L Chain L, Crystal Structure Of The Yeast 20s Proteasome In Complex
With Salinosporamide Derivatives: Slow Substrate Ligand
pdb|3GPT|Z Chain Z, Crystal Structure Of The Yeast 20s Proteasome In Complex
With Salinosporamide Derivatives: Slow Substrate Ligand
pdb|3GPW|L Chain L, Crystal Structure Of The Yeast 20s Proteasome In Complex
With Salinosporamide Derivatives: Irreversible Inhibitor
Ligand
pdb|3GPW|Z Chain Z, Crystal Structure Of The Yeast 20s Proteasome In Complex
With Salinosporamide Derivatives: Irreversible Inhibitor
Ligand
pdb|3HYE|L Chain L, Crystal Structure Of 20s Proteasome In Complex With
Hydroxylated Salinosporamide
pdb|3HYE|Z Chain Z, Crystal Structure Of 20s Proteasome In Complex With
Hydroxylated Salinosporamide
pdb|1VSY|M Chain M, Proteasome Activator Complex
pdb|1VSY|1 Chain 1, Proteasome Activator Complex
pdb|3L5Q|Q Chain Q, Proteasome Activator Complex
pdb|3L5Q|3 Chain 3, Proteasome Activator Complex
pdb|3MG4|L Chain L, Structure Of Yeast 20s Proteasome With Compound 1
pdb|3MG4|Z Chain Z, Structure Of Yeast 20s Proteasome With Compound 1
pdb|3MG0|L Chain L, Structure Of Yeast 20s Proteasome With Bortezomib
pdb|3MG0|Z Chain Z, Structure Of Yeast 20s Proteasome With Bortezomib
pdb|3OKJ|L Chain L, Alpha-Keto-Aldehyde Binding Mechanism Reveals A Novel Lead
Structure Motif For Proteasome Inhibition
pdb|3OKJ|Z Chain Z, Alpha-Keto-Aldehyde Binding Mechanism Reveals A Novel Lead
Structure Motif For Proteasome Inhibition
pdb|3OEU|L Chain L, Structure Of Yeast 20s Open-Gate Proteasome With Compound
24
pdb|3OEU|Z Chain Z, Structure Of Yeast 20s Open-Gate Proteasome With Compound
24
pdb|3OEV|L Chain L, Structure Of Yeast 20s Open-Gate Proteasome With Compound
25
pdb|3OEV|Z Chain Z, Structure Of Yeast 20s Open-Gate Proteasome With Compound
25
pdb|3TDD|L Chain L, Crystal Structure Of Yeast Cp In Complex With Belactosin C
pdb|3TDD|Z Chain Z, Crystal Structure Of Yeast Cp In Complex With Belactosin C
pdb|3SHJ|L Chain L, Proteasome In Complex With Hydroxyurea Derivative Hu10
pdb|3SHJ|Z Chain Z, Proteasome In Complex With Hydroxyurea Derivative Hu10
pdb|3UN4|L Chain L, Yeast 20s Proteasome In Complex With Pr-957 (Morpholine)
pdb|3UN4|Z Chain Z, Yeast 20s Proteasome In Complex With Pr-957 (Morpholine)
pdb|3UN8|L Chain L, Yeast 20s Proteasome In Complex With Pr-957 (Epoxide)
pdb|3UN8|Z Chain Z, Yeast 20s Proteasome In Complex With Pr-957 (Epoxide)
pdb|3SDI|L Chain L, Structure Of Yeast 20s Open-Gate Proteasome With Compound
20
pdb|3SDI|Z Chain Z, Structure Of Yeast 20s Open-Gate Proteasome With Compound
20
pdb|3SDK|L Chain L, Structure Of Yeast 20s Open-Gate Proteasome With Compound
34
pdb|3SDK|Z Chain Z, Structure Of Yeast 20s Open-Gate Proteasome With Compound
34
pdb|4GK7|L Chain L, Yeast 20s Proteasome In Complex With The
Syringolin-Glidobactin Chimera
pdb|4GK7|Z Chain Z, Yeast 20s Proteasome In Complex With The
Syringolin-Glidobactin Chimera
pdb|4G4S|M Chain M, Structure Of Proteasome-Pba1-Pba2 Complex
pdb|4FZC|L Chain L, 20s Yeast Proteasome In Complex With Cepafungin I
pdb|4FZC|Z Chain Z, 20s Yeast Proteasome In Complex With Cepafungin I
pdb|4FZG|L Chain L, 20s Yeast Proteasome In Complex With Glidobactin
pdb|4FZG|Z Chain Z, 20s Yeast Proteasome In Complex With Glidobactin
pdb|4INR|L Chain L, Yeast 20s Proteasome In Complex With The Vinyl Sulfone
Lu102
pdb|4INR|Z Chain Z, Yeast 20s Proteasome In Complex With The Vinyl Sulfone
Lu102
pdb|4INT|L Chain L, Yeast 20s Proteasome In Complex With The Vinyl Sulfone
Lu122
pdb|4INT|Z Chain Z, Yeast 20s Proteasome In Complex With The Vinyl Sulfone
Lu122
pdb|4INU|L Chain L, Yeast 20s Proteasome In Complex With The Vinyl Sulfone
Lu112
pdb|4INU|Z Chain Z, Yeast 20s Proteasome In Complex With The Vinyl Sulfone
Lu112
Length = 222
Score = 180 bits (457), Expect = 5e-46, Method: Compositional matrix adjust.
Identities = 96/221 (43%), Positives = 132/221 (59%), Gaps = 5/221 (2%)
Query: 8 WSPYDNNGGTCVAIAGADYCVTAADTRMSTGYSILSRDYSKIIKLADKCVMASSGFQADV 67
++PY +NGGT + IAG D+ V A DTR T YSI SR K+ D VM+++GF AD
Sbjct: 2 FNPYGDNGGTILGIAGEDFAVLAGDTRNITDYSINSRYEPKVFDCGDNIVMSANGFAADG 61
Query: 68 KALQKLLAARHLIYQHQHN-KQMSCPAMGQLLSNTLYYKRFFPYYSFNVLGGLDNEGKGC 126
AL K Y HN K++S + + + + LY KRFFPYY ++ GLD +GKG
Sbjct: 62 DALVKRFKNSVKWYHFDHNDKKLSINSAARNIQHLLYGKRFFPYYVHTIIAGLDEDGKGA 121
Query: 127 VYTYDAVGSYERVGYSSQGSGSTLIMPFLDNQLKSPSPLLLPAQDAVTP----LSEAEAV 182
VY++D VGSYER + G+ ++LIMPFLDNQ+ + V LS E +
Sbjct: 122 VYSFDPVGSYEREQCRAGGAAASLIMPFLDNQVNFKNQYEPGTNGKVKKPLKYLSVEEVI 181
Query: 183 DLVKTCFASATERDIYTGDKLEIVVLNKDGIHREYMELRKD 223
LV+ F SATER I GD LEI+++ KDG+ +E+ EL++D
Sbjct: 182 KLVRDSFTSATERHIQVGDGLEILIVTKDGVRKEFYELKRD 222
>pdb|1J2Q|H Chain H, 20s Proteasome In Complex With Calpain-inhibitor I From
Archaeoglobus Fulgidus
pdb|1J2Q|I Chain I, 20s Proteasome In Complex With Calpain-inhibitor I From
Archaeoglobus Fulgidus
pdb|1J2Q|J Chain J, 20s Proteasome In Complex With Calpain-inhibitor I From
Archaeoglobus Fulgidus
pdb|1J2Q|K Chain K, 20s Proteasome In Complex With Calpain-inhibitor I From
Archaeoglobus Fulgidus
pdb|1J2Q|L Chain L, 20s Proteasome In Complex With Calpain-inhibitor I From
Archaeoglobus Fulgidus
pdb|1J2Q|M Chain M, 20s Proteasome In Complex With Calpain-inhibitor I From
Archaeoglobus Fulgidus
pdb|1J2Q|N Chain N, 20s Proteasome In Complex With Calpain-inhibitor I From
Archaeoglobus Fulgidus
Length = 202
Score = 81.3 bits (199), Expect = 4e-16, Method: Compositional matrix adjust.
Identities = 57/201 (28%), Positives = 99/201 (49%), Gaps = 17/201 (8%)
Query: 17 TCVAIAGADYCVTAADTRMSTGYSILSRDYSKIIKLADKCVMASSGFQADVKALQKLLAA 76
T V + D V A + R + G I S+ KI ++AD+ M ++G D + L +++
Sbjct: 2 TTVGLVCKDGVVMATEKRATMGNFIASKAAKKIYQIADRMAMTTAGSVGDAQFLARIIKI 61
Query: 77 RHLIYQHQHNKQMSCPAMGQLLSNTLYYKRFFPYYSFNVLGGLDNEGKGCVYTYDAV-GS 135
+Y+ + ++ + A+ L SN L R+FPY ++GG+D+EGK +Y+ D + G+
Sbjct: 62 EANLYEIRRERKPTVRAIATLTSNLLNSYRYFPYLVQLLIGGIDSEGK-SIYSIDPIGGA 120
Query: 136 YERVGYSSQGSGSTLIMPFLDNQLKSPSPLLLPAQDAVTP-LSEAEAVDLVKTCFASATE 194
E + GSGS L +D TP + EAV+L SA +
Sbjct: 121 IEEKDIVATGSGSLTAYGVL--------------EDRFTPEIGVDEAVELAVRAIYSAMK 166
Query: 195 RDIYTGDKLEIVVLNKDGIHR 215
RD +GD +++V + +D ++
Sbjct: 167 RDSASGDGIDVVKITEDEFYQ 187
>pdb|3H4P|AA Chain a, Proteasome 20s Core Particle From Methanocaldococcus
Jannaschii
pdb|3H4P|BB Chain b, Proteasome 20s Core Particle From Methanocaldococcus
Jannaschii
pdb|3H4P|CC Chain c, Proteasome 20s Core Particle From Methanocaldococcus
Jannaschii
pdb|3H4P|DD Chain d, Proteasome 20s Core Particle From Methanocaldococcus
Jannaschii
pdb|3H4P|EE Chain e, Proteasome 20s Core Particle From Methanocaldococcus
Jannaschii
pdb|3H4P|FF Chain f, Proteasome 20s Core Particle From Methanocaldococcus
Jannaschii
pdb|3H4P|GG Chain g, Proteasome 20s Core Particle From Methanocaldococcus
Jannaschii
pdb|3H4P|HH Chain h, Proteasome 20s Core Particle From Methanocaldococcus
Jannaschii
pdb|3H4P|II Chain i, Proteasome 20s Core Particle From Methanocaldococcus
Jannaschii
pdb|3H4P|JJ Chain j, Proteasome 20s Core Particle From Methanocaldococcus
Jannaschii
pdb|3H4P|KK Chain k, Proteasome 20s Core Particle From Methanocaldococcus
Jannaschii
pdb|3H4P|LL Chain l, Proteasome 20s Core Particle From Methanocaldococcus
Jannaschii
pdb|3H4P|MM Chain m, Proteasome 20s Core Particle From Methanocaldococcus
Jannaschii
pdb|3H4P|NN Chain n, Proteasome 20s Core Particle From Methanocaldococcus
Jannaschii
Length = 219
Score = 78.6 bits (192), Expect = 3e-15, Method: Compositional matrix adjust.
Identities = 52/199 (26%), Positives = 91/199 (45%), Gaps = 14/199 (7%)
Query: 17 TCVAIAGADYCVTAADTRMSTGYSILSRDYSKIIKLADKCVMASSGFQADVKALQKLLAA 76
T V + D + A D R S G + ++ K+ K+ D M +G D +A+ +LL A
Sbjct: 3 TTVGLICDDAVILATDKRASLGNLVADKEAKKLYKIDDYIAMTIAGSVGDAQAIVRLLIA 62
Query: 77 RHLIYQHQHNKQMSCPAMGQLLSNTLYYKRFFPYYSFNVLGGLDNEGKGCVYTYDAVGSY 136
+Y+ + + + A LLSN L+ R FP+ + ++GG D +++ D +G
Sbjct: 63 EAKLYKMRTGRNIPPLACATLLSNILHSSRMFPFLTQIIIGGYDLLEGAKLFSLDPLGGM 122
Query: 137 -ERVGYSSQGSGSTLIMPFLDNQLKSPSPLLLPAQDAVTPLSEAEAVDLVKTCFASATER 195
E +++ GSGS + L+ +S E + L SA ER
Sbjct: 123 NEEKTFTATGSGSPIAYGVLEAGYDR-------------DMSVEEGIKLALNALKSAMER 169
Query: 196 DIYTGDKLEIVVLNKDGIH 214
D ++G+ + + V+ KDG+
Sbjct: 170 DTFSGNGISLAVITKDGVK 188
>pdb|1YA7|H Chain H, Implications For Interactions Of Proteasome With Pan And
Pa700 From The 1.9 A Structure Of A Proteasome-11s
Activator Complex
pdb|1YA7|I Chain I, Implications For Interactions Of Proteasome With Pan And
Pa700 From The 1.9 A Structure Of A Proteasome-11s
Activator Complex
pdb|1YA7|J Chain J, Implications For Interactions Of Proteasome With Pan And
Pa700 From The 1.9 A Structure Of A Proteasome-11s
Activator Complex
pdb|1YA7|K Chain K, Implications For Interactions Of Proteasome With Pan And
Pa700 From The 1.9 A Structure Of A Proteasome-11s
Activator Complex
pdb|1YA7|L Chain L, Implications For Interactions Of Proteasome With Pan And
Pa700 From The 1.9 A Structure Of A Proteasome-11s
Activator Complex
pdb|1YA7|M Chain M, Implications For Interactions Of Proteasome With Pan And
Pa700 From The 1.9 A Structure Of A Proteasome-11s
Activator Complex
pdb|1YA7|N Chain N, Implications For Interactions Of Proteasome With Pan And
Pa700 From The 1.9 A Structure Of A Proteasome-11s
Activator Complex
pdb|1YAR|H Chain H, Structure Of Archeabacterial 20s Proteasome Mutant D9s-
Pa26 Complex
pdb|1YAR|I Chain I, Structure Of Archeabacterial 20s Proteasome Mutant D9s-
Pa26 Complex
pdb|1YAR|J Chain J, Structure Of Archeabacterial 20s Proteasome Mutant D9s-
Pa26 Complex
pdb|1YAR|K Chain K, Structure Of Archeabacterial 20s Proteasome Mutant D9s-
Pa26 Complex
pdb|1YAR|L Chain L, Structure Of Archeabacterial 20s Proteasome Mutant D9s-
Pa26 Complex
pdb|1YAR|M Chain M, Structure Of Archeabacterial 20s Proteasome Mutant D9s-
Pa26 Complex
pdb|1YAR|N Chain N, Structure Of Archeabacterial 20s Proteasome Mutant D9s-
Pa26 Complex
pdb|1YAU|H Chain H, Structure Of Archeabacterial 20s Proteasome- Pa26 Complex
pdb|1YAU|I Chain I, Structure Of Archeabacterial 20s Proteasome- Pa26 Complex
pdb|1YAU|J Chain J, Structure Of Archeabacterial 20s Proteasome- Pa26 Complex
pdb|1YAU|K Chain K, Structure Of Archeabacterial 20s Proteasome- Pa26 Complex
pdb|1YAU|L Chain L, Structure Of Archeabacterial 20s Proteasome- Pa26 Complex
pdb|1YAU|M Chain M, Structure Of Archeabacterial 20s Proteasome- Pa26 Complex
pdb|1YAU|N Chain N, Structure Of Archeabacterial 20s Proteasome- Pa26 Complex
pdb|3IPM|H Chain H, Crystal Structure Of Archaeal 20s Proteasome In Complex
With The C- Terminus Of Pan
pdb|3IPM|I Chain I, Crystal Structure Of Archaeal 20s Proteasome In Complex
With The C- Terminus Of Pan
pdb|3IPM|J Chain J, Crystal Structure Of Archaeal 20s Proteasome In Complex
With The C- Terminus Of Pan
pdb|3IPM|K Chain K, Crystal Structure Of Archaeal 20s Proteasome In Complex
With The C- Terminus Of Pan
pdb|3IPM|L Chain L, Crystal Structure Of Archaeal 20s Proteasome In Complex
With The C- Terminus Of Pan
pdb|3IPM|M Chain M, Crystal Structure Of Archaeal 20s Proteasome In Complex
With The C- Terminus Of Pan
pdb|3IPM|N Chain N, Crystal Structure Of Archaeal 20s Proteasome In Complex
With The C- Terminus Of Pan
Length = 217
Score = 72.4 bits (176), Expect = 2e-13, Method: Compositional matrix adjust.
Identities = 56/212 (26%), Positives = 96/212 (45%), Gaps = 20/212 (9%)
Query: 13 NNGGTCVAIAGADYCVTAADTRMSTGYSILSRDYSKIIKLADKCVMASSGFQADVKALQK 72
G T V I D + A + R++ I+ ++ K+ ++ M +G D + L +
Sbjct: 6 ETGTTTVGITLKDAVIMATERRVTMENFIMHKNGKKLFQIDTYTGMTIAGLVGDAQVLVR 65
Query: 73 LLAARHLIYQHQHNKQMSCPAMGQLLSNTLYYKRFFPYYSFNVLGGLDNEGKGCVYTYDA 132
+ A +Y+ Q M A+ LLSN L ++ PY ++GG+D V++ DA
Sbjct: 66 YMKAELELYRLQRRVNMPIEAVATLLSNMLNQVKYMPYMVQLLVGGIDTAPH--VFSIDA 123
Query: 133 VGSYERVGYSSQGSGSTLIMPFLDNQLKSPSPLLLPAQDAVTPLSEAEAVDLVKTCFASA 192
G Y+S GSGS + L++Q ++ E VDLV ++A
Sbjct: 124 AGGSVEDIYASTGSGSPFVYGVLESQYSE-------------KMTVDEGVDLVIRAISAA 170
Query: 193 TERDIYTGDKLEIVVLN-KDGIHREYMELRKD 223
+RD +G +++ V+ KDG Y++L D
Sbjct: 171 KQRDSASGGMIDVAVITRKDG----YVQLPTD 198
>pdb|1PMA|B Chain B, Proteasome From Thermoplasma Acidophilum
pdb|1PMA|P Chain P, Proteasome From Thermoplasma Acidophilum
pdb|1PMA|Q Chain Q, Proteasome From Thermoplasma Acidophilum
pdb|1PMA|R Chain R, Proteasome From Thermoplasma Acidophilum
pdb|1PMA|S Chain S, Proteasome From Thermoplasma Acidophilum
pdb|1PMA|T Chain T, Proteasome From Thermoplasma Acidophilum
pdb|1PMA|U Chain U, Proteasome From Thermoplasma Acidophilum
pdb|1PMA|V Chain V, Proteasome From Thermoplasma Acidophilum
pdb|1PMA|W Chain W, Proteasome From Thermoplasma Acidophilum
pdb|1PMA|X Chain X, Proteasome From Thermoplasma Acidophilum
pdb|1PMA|Y Chain Y, Proteasome From Thermoplasma Acidophilum
pdb|1PMA|Z Chain Z, Proteasome From Thermoplasma Acidophilum
pdb|1PMA|1 Chain 1, Proteasome From Thermoplasma Acidophilum
pdb|1PMA|2 Chain 2, Proteasome From Thermoplasma Acidophilum
Length = 211
Score = 72.4 bits (176), Expect = 2e-13, Method: Compositional matrix adjust.
Identities = 56/212 (26%), Positives = 96/212 (45%), Gaps = 20/212 (9%)
Query: 13 NNGGTCVAIAGADYCVTAADTRMSTGYSILSRDYSKIIKLADKCVMASSGFQADVKALQK 72
G T V I D + A + R++ I+ ++ K+ ++ M +G D + L +
Sbjct: 6 ETGTTTVGITLKDAVIMATERRVTMENFIMHKNGKKLFQIDTYTGMTIAGLVGDAQVLVR 65
Query: 73 LLAARHLIYQHQHNKQMSCPAMGQLLSNTLYYKRFFPYYSFNVLGGLDNEGKGCVYTYDA 132
+ A +Y+ Q M A+ LLSN L ++ PY ++GG+D V++ DA
Sbjct: 66 YMKAELELYRLQRRVNMPIEAVATLLSNMLNQVKYMPYMVQLLVGGIDTAPH--VFSIDA 123
Query: 133 VGSYERVGYSSQGSGSTLIMPFLDNQLKSPSPLLLPAQDAVTPLSEAEAVDLVKTCFASA 192
G Y+S GSGS + L++Q ++ E VDLV ++A
Sbjct: 124 AGGSVEDIYASTGSGSPFVYGVLESQYSE-------------KMTVDEGVDLVIRAISAA 170
Query: 193 TERDIYTGDKLEIVVLN-KDGIHREYMELRKD 223
+RD +G +++ V+ KDG Y++L D
Sbjct: 171 KQRDSASGGMIDVAVITRKDG----YVQLPTD 198
>pdb|3C91|H Chain H, Thermoplasma Acidophilum 20s Proteasome With An Open Gate
pdb|3C91|I Chain I, Thermoplasma Acidophilum 20s Proteasome With An Open Gate
pdb|3C91|J Chain J, Thermoplasma Acidophilum 20s Proteasome With An Open Gate
pdb|3C91|K Chain K, Thermoplasma Acidophilum 20s Proteasome With An Open Gate
pdb|3C91|L Chain L, Thermoplasma Acidophilum 20s Proteasome With An Open Gate
pdb|3C91|M Chain M, Thermoplasma Acidophilum 20s Proteasome With An Open Gate
pdb|3C91|N Chain N, Thermoplasma Acidophilum 20s Proteasome With An Open Gate
pdb|3C91|V Chain V, Thermoplasma Acidophilum 20s Proteasome With An Open Gate
pdb|3C91|W Chain W, Thermoplasma Acidophilum 20s Proteasome With An Open Gate
pdb|3C91|X Chain X, Thermoplasma Acidophilum 20s Proteasome With An Open Gate
pdb|3C91|Y Chain Y, Thermoplasma Acidophilum 20s Proteasome With An Open Gate
pdb|3C91|Z Chain Z, Thermoplasma Acidophilum 20s Proteasome With An Open Gate
pdb|3C91|1 Chain 1, Thermoplasma Acidophilum 20s Proteasome With An Open Gate
pdb|3C91|2 Chain 2, Thermoplasma Acidophilum 20s Proteasome With An Open Gate
pdb|3C92|H Chain H, Thermoplasma Acidophilum 20s Proteasome With A Closed Gate
pdb|3C92|I Chain I, Thermoplasma Acidophilum 20s Proteasome With A Closed Gate
pdb|3C92|J Chain J, Thermoplasma Acidophilum 20s Proteasome With A Closed Gate
pdb|3C92|K Chain K, Thermoplasma Acidophilum 20s Proteasome With A Closed Gate
pdb|3C92|L Chain L, Thermoplasma Acidophilum 20s Proteasome With A Closed Gate
pdb|3C92|M Chain M, Thermoplasma Acidophilum 20s Proteasome With A Closed Gate
pdb|3C92|N Chain N, Thermoplasma Acidophilum 20s Proteasome With A Closed Gate
pdb|3C92|V Chain V, Thermoplasma Acidophilum 20s Proteasome With A Closed Gate
pdb|3C92|W Chain W, Thermoplasma Acidophilum 20s Proteasome With A Closed Gate
pdb|3C92|X Chain X, Thermoplasma Acidophilum 20s Proteasome With A Closed Gate
pdb|3C92|Y Chain Y, Thermoplasma Acidophilum 20s Proteasome With A Closed Gate
pdb|3C92|Z Chain Z, Thermoplasma Acidophilum 20s Proteasome With A Closed Gate
pdb|3C92|1 Chain 1, Thermoplasma Acidophilum 20s Proteasome With A Closed Gate
pdb|3C92|2 Chain 2, Thermoplasma Acidophilum 20s Proteasome With A Closed Gate
pdb|3JRM|H Chain H, Crystal Structure Of Archaeal 20s Proteasome In Complex
With Mutated P26 Activator
pdb|3JRM|I Chain I, Crystal Structure Of Archaeal 20s Proteasome In Complex
With Mutated P26 Activator
pdb|3JRM|J Chain J, Crystal Structure Of Archaeal 20s Proteasome In Complex
With Mutated P26 Activator
pdb|3JRM|K Chain K, Crystal Structure Of Archaeal 20s Proteasome In Complex
With Mutated P26 Activator
pdb|3JRM|L Chain L, Crystal Structure Of Archaeal 20s Proteasome In Complex
With Mutated P26 Activator
pdb|3JRM|M Chain M, Crystal Structure Of Archaeal 20s Proteasome In Complex
With Mutated P26 Activator
pdb|3JRM|N Chain N, Crystal Structure Of Archaeal 20s Proteasome In Complex
With Mutated P26 Activator
pdb|3JSE|H Chain H, Crystal Structure Of Archaeal 20s Proteasome In Complex
With Mutated P26 Activator
pdb|3JSE|I Chain I, Crystal Structure Of Archaeal 20s Proteasome In Complex
With Mutated P26 Activator
pdb|3JSE|J Chain J, Crystal Structure Of Archaeal 20s Proteasome In Complex
With Mutated P26 Activator
pdb|3JSE|K Chain K, Crystal Structure Of Archaeal 20s Proteasome In Complex
With Mutated P26 Activator
pdb|3JSE|L Chain L, Crystal Structure Of Archaeal 20s Proteasome In Complex
With Mutated P26 Activator
pdb|3JSE|M Chain M, Crystal Structure Of Archaeal 20s Proteasome In Complex
With Mutated P26 Activator
pdb|3JSE|N Chain N, Crystal Structure Of Archaeal 20s Proteasome In Complex
With Mutated P26 Activator
pdb|3JTL|H Chain H, Crystal Structure Of Archaeal 20s Proteasome In Complex
With Mutated P26 Activator
pdb|3JTL|I Chain I, Crystal Structure Of Archaeal 20s Proteasome In Complex
With Mutated P26 Activator
pdb|3JTL|J Chain J, Crystal Structure Of Archaeal 20s Proteasome In Complex
With Mutated P26 Activator
pdb|3JTL|K Chain K, Crystal Structure Of Archaeal 20s Proteasome In Complex
With Mutated P26 Activator
pdb|3JTL|L Chain L, Crystal Structure Of Archaeal 20s Proteasome In Complex
With Mutated P26 Activator
pdb|3JTL|M Chain M, Crystal Structure Of Archaeal 20s Proteasome In Complex
With Mutated P26 Activator
pdb|3JTL|N Chain N, Crystal Structure Of Archaeal 20s Proteasome In Complex
With Mutated P26 Activator
Length = 203
Score = 70.9 bits (172), Expect = 6e-13, Method: Compositional matrix adjust.
Identities = 55/208 (26%), Positives = 95/208 (45%), Gaps = 20/208 (9%)
Query: 17 TCVAIAGADYCVTAADTRMSTGYSILSRDYSKIIKLADKCVMASSGFQADVKALQKLLAA 76
T V I D + A + R++ I+ ++ K+ ++ M +G D + L + + A
Sbjct: 2 TTVGITLKDAVIMATERRVTMENFIMHKNGKKLFQIDTYTGMTIAGLVGDAQVLVRYMKA 61
Query: 77 RHLIYQHQHNKQMSCPAMGQLLSNTLYYKRFFPYYSFNVLGGLDNEGKGCVYTYDAVGSY 136
+Y+ Q M A+ LLSN L ++ PY ++GG+D V++ DA G
Sbjct: 62 ELELYRLQRRVNMPIEAVATLLSNMLNQVKYMPYMVQLLVGGIDTAPH--VFSIDAAGGS 119
Query: 137 ERVGYSSQGSGSTLIMPFLDNQLKSPSPLLLPAQDAVTPLSEAEAVDLVKTCFASATERD 196
Y+S GSGS + L++Q ++ E VDLV ++A +RD
Sbjct: 120 VEDIYASTGSGSPFVYGVLESQYSE-------------KMTVDEGVDLVIRAISAAKQRD 166
Query: 197 IYTGDKLEIVVLN-KDGIHREYMELRKD 223
+G +++ V+ KDG Y++L D
Sbjct: 167 SASGGMIDVAVITRKDG----YVQLPTD 190
>pdb|1G0U|I Chain I, A Gated Channel Into The Proteasome Core Particle
pdb|1G0U|W Chain W, A Gated Channel Into The Proteasome Core Particle
pdb|1FNT|J Chain J, Crystal Structure Of The 20s Proteasome From Yeast In
Complex With The Proteasome Activator Pa26 From
Trypanosome Brucei At 3.2 Angstroms Resolution
pdb|1FNT|X Chain X, Crystal Structure Of The 20s Proteasome From Yeast In
Complex With The Proteasome Activator Pa26 From
Trypanosome Brucei At 3.2 Angstroms Resolution
pdb|1Z7Q|J Chain J, Crystal Structure Of The 20s Proteasome From Yeast In
Complex With The Proteasome Activator Pa26 From
Trypanosome Brucei At 3.2 Angstroms Resolution
pdb|1Z7Q|X Chain X, Crystal Structure Of The 20s Proteasome From Yeast In
Complex With The Proteasome Activator Pa26 From
Trypanosome Brucei At 3.2 Angstroms Resolution
pdb|2ZCY|I Chain I, Yeast 20s Proteasome:syringolin A-Complex
pdb|2ZCY|W Chain W, Yeast 20s Proteasome:syringolin A-Complex
pdb|3BDM|I Chain I, Yeast 20s Proteasome:glidobactin A-Complex
pdb|3BDM|W Chain W, Yeast 20s Proteasome:glidobactin A-Complex
pdb|3NZJ|I Chain I, Crystal Structure Of Yeast 20s Proteasome In Complex With
Ligand 2a
pdb|3NZJ|W Chain W, Crystal Structure Of Yeast 20s Proteasome In Complex With
Ligand 2a
pdb|3NZW|I Chain I, Crystal Structure Of The Yeast 20s Proteasome In Complex
With 2b
pdb|3NZW|W Chain W, Crystal Structure Of The Yeast 20s Proteasome In Complex
With 2b
pdb|3NZX|I Chain I, Crystal Structure Of The Yeast 20s Proteasome In Complex
With Ligand 2c
pdb|3NZX|W Chain W, Crystal Structure Of The Yeast 20s Proteasome In Complex
With Ligand 2c
pdb|3MG6|I Chain I, Structure Of Yeast 20s Open-Gate Proteasome With Compound
6
pdb|3MG6|W Chain W, Structure Of Yeast 20s Open-Gate Proteasome With Compound
6
pdb|3MG7|I Chain I, Structure Of Yeast 20s Open-Gate Proteasome With Compound
8
pdb|3MG7|W Chain W, Structure Of Yeast 20s Open-Gate Proteasome With Compound
8
pdb|3MG8|I Chain I, Structure Of Yeast 20s Open-Gate Proteasome With Compound
16
pdb|3MG8|W Chain W, Structure Of Yeast 20s Open-Gate Proteasome With Compound
16
pdb|3UN4|I Chain I, Yeast 20s Proteasome In Complex With Pr-957 (Morpholine)
pdb|3UN4|W Chain W, Yeast 20s Proteasome In Complex With Pr-957 (Morpholine)
pdb|3UN8|I Chain I, Yeast 20s Proteasome In Complex With Pr-957 (Epoxide)
pdb|3UN8|W Chain W, Yeast 20s Proteasome In Complex With Pr-957 (Epoxide)
pdb|4B4T|3 Chain 3, Near-Atomic Resolution Structural Model Of The Yeast 26s
Proteasome
pdb|4G4S|J Chain J, Structure Of Proteasome-Pba1-Pba2 Complex
pdb|4INR|I Chain I, Yeast 20s Proteasome In Complex With The Vinyl Sulfone
Lu102
pdb|4INR|W Chain W, Yeast 20s Proteasome In Complex With The Vinyl Sulfone
Lu102
pdb|4INT|I Chain I, Yeast 20s Proteasome In Complex With The Vinyl Sulfone
Lu122
pdb|4INT|W Chain W, Yeast 20s Proteasome In Complex With The Vinyl Sulfone
Lu122
pdb|4INU|I Chain I, Yeast 20s Proteasome In Complex With The Vinyl Sulfone
Lu112
pdb|4INU|W Chain W, Yeast 20s Proteasome In Complex With The Vinyl Sulfone
Lu112
Length = 205
Score = 69.7 bits (169), Expect = 1e-12, Method: Compositional matrix adjust.
Identities = 52/216 (24%), Positives = 101/216 (46%), Gaps = 16/216 (7%)
Query: 10 PYDNNGGTCVAIAGADYCVTAADTRMSTGYSILSRDYSKIIKLADKCVMASSGFQADVKA 69
P NGG VA+ G D A D R+ + +S + KI + +G DV
Sbjct: 4 PSSINGGIVVAMTGKDCVAIACDLRLGSQSLGVSNKFEKIFHYG-HVFLGITGLATDVTT 62
Query: 70 LQKLLAARHLIYQHQHNKQMSCPAMGQLLSNTLYYKRFFPYYSFNVLGGLDNE-GKGCVY 128
L ++ + +Y+ + + + QL+S++LY +RF PY+ V+ G++++ GK +
Sbjct: 63 LNEMFRYKTNLYKLKEERAIEPETFTQLVSSSLYERRFGPYFVGPVVAGINSKSGKPFIA 122
Query: 129 TYDAVGSY-ERVGYSSQGSGSTLIMPFLDNQLKSPSPLLLPAQDAVTPLSEAEAVDLVKT 187
+D +G E + G+ S + ++ L P+ L +D +S+A
Sbjct: 123 GFDLIGCIDEAKDFIVSGTASDQLFGMCES-LYEPN---LEPEDLFETISQA-------- 170
Query: 188 CFASATERDIYTGDKLEIVVLNKDGIHREYMELRKD 223
+A +RD +G + ++ KD + + Y+++R+D
Sbjct: 171 -LLNAADRDALSGWGAVVYIIKKDEVVKRYLKMRQD 205
>pdb|1RYP|J Chain J, Crystal Structure Of The 20s Proteasome From Yeast At 2.4
Angstroms Resolution
pdb|1RYP|X Chain X, Crystal Structure Of The 20s Proteasome From Yeast At 2.4
Angstroms Resolution
pdb|1G65|I Chain I, Crystal Structure Of Epoxomicin:20s Proteasome Reveals A
Molecular Basis For Selectivity Of
Alpha,Beta-Epoxyketone Proteasome Inhibitors
pdb|1G65|W Chain W, Crystal Structure Of Epoxomicin:20s Proteasome Reveals A
Molecular Basis For Selectivity Of
Alpha,Beta-Epoxyketone Proteasome Inhibitors
pdb|1JD2|I Chain I, Crystal Structure Of The Yeast 20s Proteasome:tmc-95a
Complex: A Non- Covalent Proteasome Inhibitor
pdb|1JD2|P Chain P, Crystal Structure Of The Yeast 20s Proteasome:tmc-95a
Complex: A Non- Covalent Proteasome Inhibitor
pdb|2F16|I Chain I, Crystal Structure Of The Yeast 20s Proteasome In Complex
With Bortezomib
pdb|2F16|W Chain W, Crystal Structure Of The Yeast 20s Proteasome In Complex
With Bortezomib
pdb|2FAK|I Chain I, Crystal Structure Of Salinosporamide A In Complex With The
Yeast 20s Proteasome
pdb|2FAK|W Chain W, Crystal Structure Of Salinosporamide A In Complex With The
Yeast 20s Proteasome
pdb|2GPL|I Chain I, Tmc-95 Based Biphenyl-Ether Macrocycles: Specific
Proteasome Inhibitors
pdb|2GPL|W Chain W, Tmc-95 Based Biphenyl-Ether Macrocycles: Specific
Proteasome Inhibitors
pdb|3D29|I Chain I, Proteasome Inhibition By Fellutamide B
pdb|3D29|W Chain W, Proteasome Inhibition By Fellutamide B
pdb|3E47|I Chain I, Crystal Structure Of The Yeast 20s Proteasome In Complex
With Homobelactosin C
pdb|3E47|W Chain W, Crystal Structure Of The Yeast 20s Proteasome In Complex
With Homobelactosin C
pdb|3DY3|I Chain I, Crystal Structure Of Yeast 20s Proteasome In Complex With
The Epimer Form Of Spirolactacystin
pdb|3DY3|W Chain W, Crystal Structure Of Yeast 20s Proteasome In Complex With
The Epimer Form Of Spirolactacystin
pdb|3DY4|I Chain I, Crystal Structure Of Yeast 20s Proteasome In Complex With
Spirolactacystin
pdb|3DY4|W Chain W, Crystal Structure Of Yeast 20s Proteasome In Complex With
Spirolactacystin
pdb|3GPJ|I Chain I, Crystal Structure Of The Yeast 20s Proteasome In Complex
With Syringolin B
pdb|3GPJ|W Chain W, Crystal Structure Of The Yeast 20s Proteasome In Complex
With Syringolin B
pdb|3GPT|I Chain I, Crystal Structure Of The Yeast 20s Proteasome In Complex
With Salinosporamide Derivatives: Slow Substrate Ligand
pdb|3GPT|W Chain W, Crystal Structure Of The Yeast 20s Proteasome In Complex
With Salinosporamide Derivatives: Slow Substrate Ligand
pdb|3GPW|I Chain I, Crystal Structure Of The Yeast 20s Proteasome In Complex
With Salinosporamide Derivatives: Irreversible Inhibitor
Ligand
pdb|3GPW|W Chain W, Crystal Structure Of The Yeast 20s Proteasome In Complex
With Salinosporamide Derivatives: Irreversible Inhibitor
Ligand
pdb|3HYE|I Chain I, Crystal Structure Of 20s Proteasome In Complex With
Hydroxylated Salinosporamide
pdb|3HYE|W Chain W, Crystal Structure Of 20s Proteasome In Complex With
Hydroxylated Salinosporamide
pdb|1VSY|J Chain J, Proteasome Activator Complex
pdb|1VSY|X Chain X, Proteasome Activator Complex
pdb|3L5Q|N Chain N, Proteasome Activator Complex
pdb|3L5Q|Z Chain Z, Proteasome Activator Complex
pdb|3MG4|I Chain I, Structure Of Yeast 20s Proteasome With Compound 1
pdb|3MG4|W Chain W, Structure Of Yeast 20s Proteasome With Compound 1
pdb|3MG0|I Chain I, Structure Of Yeast 20s Proteasome With Bortezomib
pdb|3MG0|W Chain W, Structure Of Yeast 20s Proteasome With Bortezomib
pdb|3OKJ|I Chain I, Alpha-Keto-Aldehyde Binding Mechanism Reveals A Novel Lead
Structure Motif For Proteasome Inhibition
pdb|3OKJ|W Chain W, Alpha-Keto-Aldehyde Binding Mechanism Reveals A Novel Lead
Structure Motif For Proteasome Inhibition
pdb|3OEU|I Chain I, Structure Of Yeast 20s Open-Gate Proteasome With Compound
24
pdb|3OEU|W Chain W, Structure Of Yeast 20s Open-Gate Proteasome With Compound
24
pdb|3OEV|I Chain I, Structure Of Yeast 20s Open-Gate Proteasome With Compound
25
pdb|3OEV|W Chain W, Structure Of Yeast 20s Open-Gate Proteasome With Compound
25
pdb|3TDD|I Chain I, Crystal Structure Of Yeast Cp In Complex With Belactosin C
pdb|3TDD|W Chain W, Crystal Structure Of Yeast Cp In Complex With Belactosin C
pdb|3SHJ|I Chain I, Proteasome In Complex With Hydroxyurea Derivative Hu10
pdb|3SHJ|W Chain W, Proteasome In Complex With Hydroxyurea Derivative Hu10
pdb|3SDI|I Chain I, Structure Of Yeast 20s Open-Gate Proteasome With Compound
20
pdb|3SDI|W Chain W, Structure Of Yeast 20s Open-Gate Proteasome With Compound
20
pdb|3SDK|I Chain I, Structure Of Yeast 20s Open-Gate Proteasome With Compound
34
pdb|3SDK|W Chain W, Structure Of Yeast 20s Open-Gate Proteasome With Compound
34
pdb|4GK7|I Chain I, Yeast 20s Proteasome In Complex With The
Syringolin-Glidobactin Chimera
pdb|4GK7|W Chain W, Yeast 20s Proteasome In Complex With The
Syringolin-Glidobactin Chimera
pdb|4FZC|I Chain I, 20s Yeast Proteasome In Complex With Cepafungin I
pdb|4FZC|W Chain W, 20s Yeast Proteasome In Complex With Cepafungin I
pdb|4FZG|I Chain I, 20s Yeast Proteasome In Complex With Glidobactin
pdb|4FZG|W Chain W, 20s Yeast Proteasome In Complex With Glidobactin
Length = 204
Score = 69.7 bits (169), Expect = 1e-12, Method: Compositional matrix adjust.
Identities = 52/216 (24%), Positives = 101/216 (46%), Gaps = 16/216 (7%)
Query: 10 PYDNNGGTCVAIAGADYCVTAADTRMSTGYSILSRDYSKIIKLADKCVMASSGFQADVKA 69
P NGG VA+ G D A D R+ + +S + KI + +G DV
Sbjct: 3 PSSINGGIVVAMTGKDCVAIACDLRLGSQSLGVSNKFEKIFHYG-HVFLGITGLATDVTT 61
Query: 70 LQKLLAARHLIYQHQHNKQMSCPAMGQLLSNTLYYKRFFPYYSFNVLGGLDNE-GKGCVY 128
L ++ + +Y+ + + + QL+S++LY +RF PY+ V+ G++++ GK +
Sbjct: 62 LNEMFRYKTNLYKLKEERAIEPETFTQLVSSSLYERRFGPYFVGPVVAGINSKSGKPFIA 121
Query: 129 TYDAVGSY-ERVGYSSQGSGSTLIMPFLDNQLKSPSPLLLPAQDAVTPLSEAEAVDLVKT 187
+D +G E + G+ S + ++ L P+ L +D +S+A
Sbjct: 122 GFDLIGCIDEAKDFIVSGTASDQLFGMCES-LYEPN---LEPEDLFETISQA-------- 169
Query: 188 CFASATERDIYTGDKLEIVVLNKDGIHREYMELRKD 223
+A +RD +G + ++ KD + + Y+++R+D
Sbjct: 170 -LLNAADRDALSGWGAVVYIIKKDEVVKRYLKMRQD 204
>pdb|1RYP|H Chain H, Crystal Structure Of The 20s Proteasome From Yeast At 2.4
Angstroms Resolution
pdb|1RYP|V Chain V, Crystal Structure Of The 20s Proteasome From Yeast At 2.4
Angstroms Resolution
Length = 205
Score = 69.7 bits (169), Expect = 1e-12, Method: Compositional matrix adjust.
Identities = 53/201 (26%), Positives = 90/201 (44%), Gaps = 15/201 (7%)
Query: 15 GGTCVAIAGADYCVTAADTRMSTGYSILSRDYSKIIKLADKCVMASSGFQADVKALQKLL 74
G + +A+ D + AD+R +TG I +R K+ ++ DK SG AD +A+ ++
Sbjct: 9 GASIMAVTFKDGVILGADSRTTTGAYIANRVTDKLTRVHDKIWCCRSGSAADTQAIADIV 68
Query: 75 AARHLIYQHQHNKQMSCPAMGQLLSNTLYYKRFFPYYSFNVLGGLDNEGKGCVYTYDAVG 134
+Y Q+ + A L Y+ + ++ G D++ KG VYT G
Sbjct: 69 QYHLELYTSQYGTPSTETAASVF--KELCYENKDNLTAGIIVAGYDDKNKGEVYTIPLGG 126
Query: 135 SYERVGYSSQGSGSTLIMPFLDNQLKSPSPLLLPAQDAVTPLSEAEAVDLVKTCFASATE 194
S ++ Y+ GSGST I + D + +S+ E VD +K + A +
Sbjct: 127 SVHKLPYAIAGSGSTFIYGYCDKNFRE-------------NMSKEETVDFIKHSLSQAIK 173
Query: 195 RDIYTGDKLEIVVLNKDGIHR 215
D +G + +VVL G+ R
Sbjct: 174 WDGSSGGVIRMVVLTAAGVER 194
>pdb|1IRU|J Chain J, Crystal Structure Of The Mammalian 20s Proteasome At 2.75
A Resolution
pdb|1IRU|X Chain X, Crystal Structure Of The Mammalian 20s Proteasome At 2.75
A Resolution
Length = 205
Score = 68.9 bits (167), Expect = 2e-12, Method: Compositional matrix adjust.
Identities = 36/122 (29%), Positives = 65/122 (53%), Gaps = 1/122 (0%)
Query: 14 NGGTCVAIAGADYCVTAADTRMSTGYSILSRDYSKIIKLADKCVMASSGFQADVKALQKL 73
NGG +A+ G + AAD R +++ D+ KI + D+ + +G DV+ + +
Sbjct: 7 NGGAVMAMKGKNCVAIAADRRFGIQAQLVTTDFQKIFPMGDRLYIGLAGLATDVQTVAQR 66
Query: 74 LAARHLIYQHQHNKQMSCPAMGQLLSNTLYYKRFFPYYSFNVLGGLDNEG-KGCVYTYDA 132
L R +Y+ + +Q+ + +++N LY KRF PYY+ V+ GLD + K + + D
Sbjct: 67 LKFRLNLYELKEGRQIKPYTLMSMVANLLYEKRFGPYYTEPVIAGLDPKTFKPFICSLDL 126
Query: 133 VG 134
+G
Sbjct: 127 IG 128
>pdb|3NZJ|N Chain N, Crystal Structure Of Yeast 20s Proteasome In Complex With
Ligand 2a
pdb|3NZJ|2 Chain 2, Crystal Structure Of Yeast 20s Proteasome In Complex With
Ligand 2a
pdb|3NZW|N Chain N, Crystal Structure Of The Yeast 20s Proteasome In Complex
With 2b
pdb|3NZW|2 Chain 2, Crystal Structure Of The Yeast 20s Proteasome In Complex
With 2b
pdb|3NZX|N Chain N, Crystal Structure Of The Yeast 20s Proteasome In Complex
With Ligand 2c
pdb|3NZX|2 Chain 2, Crystal Structure Of The Yeast 20s Proteasome In Complex
With Ligand 2c
pdb|4B4T|1 Chain 1, Near-Atomic Resolution Structural Model Of The Yeast 26s
Proteasome
Length = 215
Score = 68.9 bits (167), Expect = 2e-12, Method: Compositional matrix adjust.
Identities = 53/201 (26%), Positives = 90/201 (44%), Gaps = 15/201 (7%)
Query: 15 GGTCVAIAGADYCVTAADTRMSTGYSILSRDYSKIIKLADKCVMASSGFQADVKALQKLL 74
G + +A+ D + AD+R +TG I +R K+ ++ DK SG AD +A+ ++
Sbjct: 19 GTSIMAVTFKDGVILGADSRTTTGAYIANRVTDKLTRVHDKIWCCRSGSAADTQAIADIV 78
Query: 75 AARHLIYQHQHNKQMSCPAMGQLLSNTLYYKRFFPYYSFNVLGGLDNEGKGCVYTYDAVG 134
+Y Q+ + A L Y+ + ++ G D++ KG VYT G
Sbjct: 79 QYHLELYTSQYGTPSTETAASVF--KELCYENKDNLTAGIIVAGYDDKNKGEVYTIPLGG 136
Query: 135 SYERVGYSSQGSGSTLIMPFLDNQLKSPSPLLLPAQDAVTPLSEAEAVDLVKTCFASATE 194
S ++ Y+ GSGST I + D + +S+ E VD +K + A +
Sbjct: 137 SVHKLPYAIAGSGSTFIYGYCDKNFRE-------------NMSKEETVDFIKHSLSQAIK 183
Query: 195 RDIYTGDKLEIVVLNKDGIHR 215
D +G + +VVL G+ R
Sbjct: 184 WDGSSGGVIRMVVLTAAGVER 204
>pdb|3UNB|I Chain I, Mouse Constitutive 20s Proteasome In Complex With Pr-957
pdb|3UNB|W Chain W, Mouse Constitutive 20s Proteasome In Complex With Pr-957
pdb|3UNB|KK Chain k, Mouse Constitutive 20s Proteasome In Complex With Pr-957
pdb|3UNB|YY Chain y, Mouse Constitutive 20s Proteasome In Complex With Pr-957
pdb|3UNE|I Chain I, Mouse Constitutive 20s Proteasome
pdb|3UNE|W Chain W, Mouse Constitutive 20s Proteasome
pdb|3UNE|KK Chain k, Mouse Constitutive 20s Proteasome
pdb|3UNE|YY Chain y, Mouse Constitutive 20s Proteasome
pdb|3UNF|I Chain I, Mouse 20s Immunoproteasome In Complex With Pr-957
pdb|3UNF|W Chain W, Mouse 20s Immunoproteasome In Complex With Pr-957
pdb|3UNH|I Chain I, Mouse 20s Immunoproteasome
pdb|3UNH|W Chain W, Mouse 20s Immunoproteasome
Length = 205
Score = 68.9 bits (167), Expect = 2e-12, Method: Compositional matrix adjust.
Identities = 36/122 (29%), Positives = 65/122 (53%), Gaps = 1/122 (0%)
Query: 14 NGGTCVAIAGADYCVTAADTRMSTGYSILSRDYSKIIKLADKCVMASSGFQADVKALQKL 73
NGG +A+ G + AAD R +++ D+ KI + D+ + +G DV+ + +
Sbjct: 7 NGGAVMAMKGKNCVAIAADRRFGIQAQMVTTDFQKIFPMGDRLYIGLAGLATDVQTVAQR 66
Query: 74 LAARHLIYQHQHNKQMSCPAMGQLLSNTLYYKRFFPYYSFNVLGGLDNEG-KGCVYTYDA 132
L R +Y+ + +Q+ + +++N LY KRF PYY+ V+ GLD + K + + D
Sbjct: 67 LKFRLNLYELKEGRQIKPYTLMSMVANLLYEKRFGPYYTEPVIAGLDPKTFKPFICSLDL 126
Query: 133 VG 134
+G
Sbjct: 127 IG 128
>pdb|1VSY|H Chain H, Proteasome Activator Complex
pdb|1VSY|V Chain V, Proteasome Activator Complex
pdb|3L5Q|B Chain B, Proteasome Activator Complex
pdb|3L5Q|D Chain D, Proteasome Activator Complex
Length = 196
Score = 67.4 bits (163), Expect = 5e-12, Method: Compositional matrix adjust.
Identities = 52/199 (26%), Positives = 89/199 (44%), Gaps = 15/199 (7%)
Query: 17 TCVAIAGADYCVTAADTRMSTGYSILSRDYSKIIKLADKCVMASSGFQADVKALQKLLAA 76
+ +A+ D + AD+R +TG I +R K+ ++ DK SG AD +A+ ++
Sbjct: 2 SIMAVTFKDGVILGADSRTTTGAYIANRVTDKLTRVHDKIWCCRSGSAADTQAIADIVQY 61
Query: 77 RHLIYQHQHNKQMSCPAMGQLLSNTLYYKRFFPYYSFNVLGGLDNEGKGCVYTYDAVGSY 136
+Y Q+ + A L Y+ + ++ G D++ KG VYT GS
Sbjct: 62 HLELYTSQYGTPSTETAASVF--KELCYENKDNLTAGIIVAGYDDKNKGEVYTIPLGGSV 119
Query: 137 ERVGYSSQGSGSTLIMPFLDNQLKSPSPLLLPAQDAVTPLSEAEAVDLVKTCFASATERD 196
++ Y+ GSGST I + D + +S+ E VD +K + A + D
Sbjct: 120 HKLPYAIAGSGSTFIYGYCDKNFRE-------------NMSKEETVDFIKHSLSQAIKWD 166
Query: 197 IYTGDKLEIVVLNKDGIHR 215
+G + +VVL G+ R
Sbjct: 167 GSSGGVIRMVVLTAAGVER 185
>pdb|1G65|N Chain N, Crystal Structure Of Epoxomicin:20s Proteasome Reveals A
Molecular Basis For Selectivity Of
Alpha,Beta-Epoxyketone Proteasome Inhibitors
pdb|1G65|2 Chain 2, Crystal Structure Of Epoxomicin:20s Proteasome Reveals A
Molecular Basis For Selectivity Of
Alpha,Beta-Epoxyketone Proteasome Inhibitors
pdb|1G0U|N Chain N, A Gated Channel Into The Proteasome Core Particle
pdb|1G0U|2 Chain 2, A Gated Channel Into The Proteasome Core Particle
pdb|1FNT|H Chain H, Crystal Structure Of The 20s Proteasome From Yeast In
Complex With The Proteasome Activator Pa26 From
Trypanosome Brucei At 3.2 Angstroms Resolution
pdb|1FNT|V Chain V, Crystal Structure Of The 20s Proteasome From Yeast In
Complex With The Proteasome Activator Pa26 From
Trypanosome Brucei At 3.2 Angstroms Resolution
pdb|1JD2|N Chain N, Crystal Structure Of The Yeast 20s Proteasome:tmc-95a
Complex: A Non- Covalent Proteasome Inhibitor
pdb|1JD2|U Chain U, Crystal Structure Of The Yeast 20s Proteasome:tmc-95a
Complex: A Non- Covalent Proteasome Inhibitor
pdb|1Z7Q|H Chain H, Crystal Structure Of The 20s Proteasome From Yeast In
Complex With The Proteasome Activator Pa26 From
Trypanosome Brucei At 3.2 Angstroms Resolution
pdb|1Z7Q|V Chain V, Crystal Structure Of The 20s Proteasome From Yeast In
Complex With The Proteasome Activator Pa26 From
Trypanosome Brucei At 3.2 Angstroms Resolution
pdb|2F16|N Chain N, Crystal Structure Of The Yeast 20s Proteasome In Complex
With Bortezomib
pdb|2F16|2 Chain 2, Crystal Structure Of The Yeast 20s Proteasome In Complex
With Bortezomib
pdb|2FAK|N Chain N, Crystal Structure Of Salinosporamide A In Complex With The
Yeast 20s Proteasome
pdb|2FAK|2 Chain 2, Crystal Structure Of Salinosporamide A In Complex With The
Yeast 20s Proteasome
pdb|2GPL|N Chain N, Tmc-95 Based Biphenyl-Ether Macrocycles: Specific
Proteasome Inhibitors
pdb|2GPL|2 Chain 2, Tmc-95 Based Biphenyl-Ether Macrocycles: Specific
Proteasome Inhibitors
pdb|2ZCY|N Chain N, Yeast 20s Proteasome:syringolin A-Complex
pdb|2ZCY|1 Chain 1, Yeast 20s Proteasome:syringolin A-Complex
pdb|3BDM|N Chain N, Yeast 20s Proteasome:glidobactin A-Complex
pdb|3BDM|1 Chain 1, Yeast 20s Proteasome:glidobactin A-Complex
pdb|3D29|N Chain N, Proteasome Inhibition By Fellutamide B
pdb|3D29|2 Chain 2, Proteasome Inhibition By Fellutamide B
pdb|3E47|N Chain N, Crystal Structure Of The Yeast 20s Proteasome In Complex
With Homobelactosin C
pdb|3E47|2 Chain 2, Crystal Structure Of The Yeast 20s Proteasome In Complex
With Homobelactosin C
pdb|3DY3|N Chain N, Crystal Structure Of Yeast 20s Proteasome In Complex With
The Epimer Form Of Spirolactacystin
pdb|3DY3|2 Chain 2, Crystal Structure Of Yeast 20s Proteasome In Complex With
The Epimer Form Of Spirolactacystin
pdb|3DY4|N Chain N, Crystal Structure Of Yeast 20s Proteasome In Complex With
Spirolactacystin
pdb|3DY4|2 Chain 2, Crystal Structure Of Yeast 20s Proteasome In Complex With
Spirolactacystin
pdb|3GPJ|N Chain N, Crystal Structure Of The Yeast 20s Proteasome In Complex
With Syringolin B
pdb|3GPJ|2 Chain 2, Crystal Structure Of The Yeast 20s Proteasome In Complex
With Syringolin B
pdb|3GPT|N Chain N, Crystal Structure Of The Yeast 20s Proteasome In Complex
With Salinosporamide Derivatives: Slow Substrate Ligand
pdb|3GPT|2 Chain 2, Crystal Structure Of The Yeast 20s Proteasome In Complex
With Salinosporamide Derivatives: Slow Substrate Ligand
pdb|3GPW|N Chain N, Crystal Structure Of The Yeast 20s Proteasome In Complex
With Salinosporamide Derivatives: Irreversible Inhibitor
Ligand
pdb|3GPW|2 Chain 2, Crystal Structure Of The Yeast 20s Proteasome In Complex
With Salinosporamide Derivatives: Irreversible Inhibitor
Ligand
pdb|3HYE|N Chain N, Crystal Structure Of 20s Proteasome In Complex With
Hydroxylated Salinosporamide
pdb|3HYE|2 Chain 2, Crystal Structure Of 20s Proteasome In Complex With
Hydroxylated Salinosporamide
pdb|3MG4|N Chain N, Structure Of Yeast 20s Proteasome With Compound 1
pdb|3MG4|2 Chain 2, Structure Of Yeast 20s Proteasome With Compound 1
pdb|3MG0|N Chain N, Structure Of Yeast 20s Proteasome With Bortezomib
pdb|3MG0|2 Chain 2, Structure Of Yeast 20s Proteasome With Bortezomib
pdb|3MG6|N Chain N, Structure Of Yeast 20s Open-Gate Proteasome With Compound
6
pdb|3MG6|2 Chain 2, Structure Of Yeast 20s Open-Gate Proteasome With Compound
6
pdb|3MG7|N Chain N, Structure Of Yeast 20s Open-Gate Proteasome With Compound
8
pdb|3MG7|2 Chain 2, Structure Of Yeast 20s Open-Gate Proteasome With Compound
8
pdb|3MG8|N Chain N, Structure Of Yeast 20s Open-Gate Proteasome With Compound
16
pdb|3MG8|2 Chain 2, Structure Of Yeast 20s Open-Gate Proteasome With Compound
16
pdb|3OKJ|N Chain N, Alpha-Keto-Aldehyde Binding Mechanism Reveals A Novel Lead
Structure Motif For Proteasome Inhibition
pdb|3OKJ|2 Chain 2, Alpha-Keto-Aldehyde Binding Mechanism Reveals A Novel Lead
Structure Motif For Proteasome Inhibition
pdb|3OEU|N Chain N, Structure Of Yeast 20s Open-Gate Proteasome With Compound
24
pdb|3OEU|2 Chain 2, Structure Of Yeast 20s Open-Gate Proteasome With Compound
24
pdb|3OEV|N Chain N, Structure Of Yeast 20s Open-Gate Proteasome With Compound
25
pdb|3OEV|2 Chain 2, Structure Of Yeast 20s Open-Gate Proteasome With Compound
25
pdb|3TDD|N Chain N, Crystal Structure Of Yeast Cp In Complex With Belactosin C
pdb|3TDD|2 Chain 2, Crystal Structure Of Yeast Cp In Complex With Belactosin C
pdb|3SHJ|N Chain N, Proteasome In Complex With Hydroxyurea Derivative Hu10
pdb|3SHJ|2 Chain 2, Proteasome In Complex With Hydroxyurea Derivative Hu10
pdb|3UN4|N Chain N, Yeast 20s Proteasome In Complex With Pr-957 (Morpholine)
pdb|3UN4|BB Chain b, Yeast 20s Proteasome In Complex With Pr-957 (Morpholine)
pdb|3UN8|N Chain N, Yeast 20s Proteasome In Complex With Pr-957 (Epoxide)
pdb|3UN8|BB Chain b, Yeast 20s Proteasome In Complex With Pr-957 (Epoxide)
pdb|3SDI|N Chain N, Structure Of Yeast 20s Open-Gate Proteasome With Compound
20
pdb|3SDI|2 Chain 2, Structure Of Yeast 20s Open-Gate Proteasome With Compound
20
pdb|3SDK|N Chain N, Structure Of Yeast 20s Open-Gate Proteasome With Compound
34
pdb|3SDK|2 Chain 2, Structure Of Yeast 20s Open-Gate Proteasome With Compound
34
pdb|4GK7|N Chain N, Yeast 20s Proteasome In Complex With The
Syringolin-Glidobactin Chimera
pdb|4GK7|BB Chain b, Yeast 20s Proteasome In Complex With The
Syringolin-Glidobactin Chimera
pdb|4G4S|H Chain H, Structure Of Proteasome-Pba1-Pba2 Complex
pdb|4FZC|N Chain N, 20s Yeast Proteasome In Complex With Cepafungin I
pdb|4FZC|BB Chain b, 20s Yeast Proteasome In Complex With Cepafungin I
pdb|4FZG|N Chain N, 20s Yeast Proteasome In Complex With Glidobactin
pdb|4FZG|BB Chain b, 20s Yeast Proteasome In Complex With Glidobactin
pdb|4INR|N Chain N, Yeast 20s Proteasome In Complex With The Vinyl Sulfone
Lu102
pdb|4INR|BB Chain b, Yeast 20s Proteasome In Complex With The Vinyl Sulfone
Lu102
pdb|4INT|N Chain N, Yeast 20s Proteasome In Complex With The Vinyl Sulfone
Lu122
pdb|4INT|BB Chain b, Yeast 20s Proteasome In Complex With The Vinyl Sulfone
Lu122
pdb|4INU|N Chain N, Yeast 20s Proteasome In Complex With The Vinyl Sulfone
Lu112
pdb|4INU|BB Chain b, Yeast 20s Proteasome In Complex With The Vinyl Sulfone
Lu112
Length = 196
Score = 67.4 bits (163), Expect = 6e-12, Method: Compositional matrix adjust.
Identities = 52/199 (26%), Positives = 89/199 (44%), Gaps = 15/199 (7%)
Query: 17 TCVAIAGADYCVTAADTRMSTGYSILSRDYSKIIKLADKCVMASSGFQADVKALQKLLAA 76
+ +A+ D + AD+R +TG I +R K+ ++ DK SG AD +A+ ++
Sbjct: 2 SIMAVTFKDGVILGADSRTTTGAYIANRVTDKLTRVHDKIWCCRSGSAADTQAIADIVQY 61
Query: 77 RHLIYQHQHNKQMSCPAMGQLLSNTLYYKRFFPYYSFNVLGGLDNEGKGCVYTYDAVGSY 136
+Y Q+ + A L Y+ + ++ G D++ KG VYT GS
Sbjct: 62 HLELYTSQYGTPSTETAASVF--KELCYENKDNLTAGIIVAGYDDKNKGEVYTIPLGGSV 119
Query: 137 ERVGYSSQGSGSTLIMPFLDNQLKSPSPLLLPAQDAVTPLSEAEAVDLVKTCFASATERD 196
++ Y+ GSGST I + D + +S+ E VD +K + A + D
Sbjct: 120 HKLPYAIAGSGSTFIYGYCDKNFRE-------------NMSKEETVDFIKHSLSQAIKWD 166
Query: 197 IYTGDKLEIVVLNKDGIHR 215
+G + +VVL G+ R
Sbjct: 167 GSSGGVIRMVVLTAAGVER 185
>pdb|3UNF|K Chain K, Mouse 20s Immunoproteasome In Complex With Pr-957
pdb|3UNF|Y Chain Y, Mouse 20s Immunoproteasome In Complex With Pr-957
pdb|3UNH|K Chain K, Mouse 20s Immunoproteasome
pdb|3UNH|Y Chain Y, Mouse 20s Immunoproteasome
Length = 204
Score = 61.2 bits (147), Expect = 5e-10, Method: Compositional matrix adjust.
Identities = 53/185 (28%), Positives = 87/185 (47%), Gaps = 14/185 (7%)
Query: 28 VTAADTRMSTGYSILSRDYSKIIKLADKCVMASSGFQADVKALQKLLAARHLIYQHQHNK 87
+ A D+R + G I S +K+I++ + SG AD + ++LLA +Y ++ +
Sbjct: 13 IVAVDSRATAGSYISSLRMNKVIEINPYLLGTMSGCAADCQYWERLLAKECRLYYLRNGE 72
Query: 88 QMSCPAMGQLLSNTLYYKRFFPYYSFNVLGGLDNEGKGCVYTYDAVGSYERVGYSSQGSG 147
++S A +LLSN + R +++ G D +G G Y D G+ S GSG
Sbjct: 73 RISVSAASKLLSNMMLQYRGMGLSMGSMICGWDKKGPGLYYV-DDNGTRLSGQMFSTGSG 131
Query: 148 STLIMPFLDNQLKSPSPLLLPAQDAVTPLSEAEAVDLVKTCFASATERDIYTGDKLEIVV 207
+T +D+ + QD LS EA DL + A AT RD Y+G + +
Sbjct: 132 NTYAYGVMDSGYR---------QD----LSPEEAYDLGRRAIAYATHRDNYSGGVVNMYH 178
Query: 208 LNKDG 212
+ +DG
Sbjct: 179 MKEDG 183
>pdb|3UNB|K Chain K, Mouse Constitutive 20s Proteasome In Complex With Pr-957
pdb|3UNB|Y Chain Y, Mouse Constitutive 20s Proteasome In Complex With Pr-957
pdb|3UNB|MM Chain m, Mouse Constitutive 20s Proteasome In Complex With Pr-957
pdb|3UNB|1 Chain 1, Mouse Constitutive 20s Proteasome In Complex With Pr-957
pdb|3UNE|K Chain K, Mouse Constitutive 20s Proteasome
pdb|3UNE|Y Chain Y, Mouse Constitutive 20s Proteasome
pdb|3UNE|MM Chain m, Mouse Constitutive 20s Proteasome
pdb|3UNE|1 Chain 1, Mouse Constitutive 20s Proteasome
Length = 205
Score = 59.7 bits (143), Expect = 1e-09, Method: Compositional matrix adjust.
Identities = 50/189 (26%), Positives = 83/189 (43%), Gaps = 14/189 (7%)
Query: 27 CVTAADTRMSTGYSILSRDYSKIIKLADKCVMASSGFQADVKALQKLLAARHLIYQHQHN 86
+ AAD+R + G I S+ K+I++ + +G AD ++LLA + IY+ ++
Sbjct: 12 VIVAADSRATAGAYIASQTVKKVIEINPYLLGTMAGGAADCSFWERLLARQCRIYELRNK 71
Query: 87 KQMSCPAMGQLLSNTLYYKRFFPYYSFNVLGGLDNEGKGCVYTYDAVGSYERVGYSSQGS 146
+++S A +LL+N +Y + ++ G D G G Y D+ G+ S GS
Sbjct: 72 ERISVAAASKLLANMVYQYKGMGLSMGTMICGWDKRGPGLYYV-DSEGNRISGTAFSVGS 130
Query: 147 GSTLIMPFLDNQLKSPSPLLLPAQDAVTPLSEAEAVDLVKTCFASATERDIYTGDKLEIV 206
GS +D L EA DL + AT RD Y+G + +
Sbjct: 131 GSVYAYGVMDRGYS-------------YDLKVEEAYDLARRAIYQATYRDAYSGGAVNLY 177
Query: 207 VLNKDGIHR 215
+ +DG R
Sbjct: 178 HVREDGWIR 186
>pdb|1IRU|L Chain L, Crystal Structure Of The Mammalian 20s Proteasome At 2.75
A Resolution
pdb|1IRU|Z Chain Z, Crystal Structure Of The Mammalian 20s Proteasome At 2.75
A Resolution
Length = 204
Score = 59.3 bits (142), Expect = 2e-09, Method: Compositional matrix adjust.
Identities = 49/188 (26%), Positives = 83/188 (44%), Gaps = 14/188 (7%)
Query: 28 VTAADTRMSTGYSILSRDYSKIIKLADKCVMASSGFQADVKALQKLLAARHLIYQHQHNK 87
+ AAD+R + G I S+ K+I++ + +G AD ++LLA + IY+ ++ +
Sbjct: 13 IVAADSRATAGAYIASQTVKKVIEINPYLLGTMAGGAADCSFWERLLARQCRIYELRNKE 72
Query: 88 QMSCPAMGQLLSNTLYYKRFFPYYSFNVLGGLDNEGKGCVYTYDAVGSYERVGYSSQGSG 147
++S A +LL+N +Y + ++ G D G G Y D+ G+ S GSG
Sbjct: 73 RISVAAASKLLANMVYQYKGMGLSMGTMICGWDKRGPGLYYV-DSEGNRISGATFSVGSG 131
Query: 148 STLIMPFLDNQLKSPSPLLLPAQDAVTPLSEAEAVDLVKTCFASATERDIYTGDKLEIVV 207
S +D L +A DL + AT RD Y+G + +
Sbjct: 132 SVYAYGVMDRGYS-------------YDLEVEQAYDLARRAIYQATYRDAYSGGAVNLYH 178
Query: 208 LNKDGIHR 215
+ +DG R
Sbjct: 179 VREDGWIR 186
>pdb|3UNB|J Chain J, Mouse Constitutive 20s Proteasome In Complex With Pr-957
pdb|3UNB|X Chain X, Mouse Constitutive 20s Proteasome In Complex With Pr-957
pdb|3UNB|LL Chain l, Mouse Constitutive 20s Proteasome In Complex With Pr-957
pdb|3UNB|ZZ Chain z, Mouse Constitutive 20s Proteasome In Complex With Pr-957
pdb|3UNE|J Chain J, Mouse Constitutive 20s Proteasome
pdb|3UNE|X Chain X, Mouse Constitutive 20s Proteasome
pdb|3UNE|LL Chain l, Mouse Constitutive 20s Proteasome
pdb|3UNE|ZZ Chain z, Mouse Constitutive 20s Proteasome
pdb|3UNF|J Chain J, Mouse 20s Immunoproteasome In Complex With Pr-957
pdb|3UNF|X Chain X, Mouse 20s Immunoproteasome In Complex With Pr-957
pdb|3UNH|J Chain J, Mouse 20s Immunoproteasome
pdb|3UNH|X Chain X, Mouse 20s Immunoproteasome
Length = 201
Score = 54.3 bits (129), Expect = 5e-08, Method: Compositional matrix adjust.
Identities = 42/198 (21%), Positives = 86/198 (43%), Gaps = 15/198 (7%)
Query: 19 VAIAGADYCVTAADTRMSTGYSILSRDYSKIIKLADKCVMASSGFQADVKALQKLLAARH 78
+ I G DY + A+D ++ + D+ K+ K+++K ++ G D + +
Sbjct: 5 IGIQGPDYVLVASDRVAASNIVQMKDDHDKMFKMSEKILLLCVGEAGDTVQFAEYIQKNV 64
Query: 79 LIYQHQHNKQMSCPAMGQLLSNTLY--YKRFFPYYSFNVLGGLDNEGKGCVYTYDAVGSY 136
+Y+ ++ ++S A L + PY+ +L G D +Y D + +
Sbjct: 65 QLYKMRNGYELSPTAAANFTRRNLADCLRSRTPYHVNLLLAGYDEHEGPALYYMDYLAAL 124
Query: 137 ERVGYSSQGSGSTLIMPFLDNQLKSPSPLLLPAQDAVTPLSEAEAVDLVKTCFASATERD 196
+ +++ G G+ L + LD + +P+ +S AV+L++ C +R
Sbjct: 125 AKAPFAAHGYGAFLTLSILD-RYYTPT------------ISRERAVELLRKCLEELQKRF 171
Query: 197 IYTGDKLEIVVLNKDGIH 214
I + V++KDGIH
Sbjct: 172 ILNLPTFSVRVIDKDGIH 189
>pdb|1IRU|K Chain K, Crystal Structure Of The Mammalian 20s Proteasome At 2.75
A Resolution
pdb|1IRU|Y Chain Y, Crystal Structure Of The Mammalian 20s Proteasome At 2.75
A Resolution
Length = 201
Score = 52.0 bits (123), Expect = 2e-07, Method: Compositional matrix adjust.
Identities = 40/198 (20%), Positives = 86/198 (43%), Gaps = 15/198 (7%)
Query: 19 VAIAGADYCVTAADTRMSTGYSILSRDYSKIIKLADKCVMASSGFQADVKALQKLLAARH 78
+ I G DY + A+D ++ + D+ K+ K+++K ++ G D + +
Sbjct: 5 IGIQGPDYVLVASDRVAASNIVQMKDDHDKMFKMSEKILLLCVGEAGDTVQFAEYIQKNV 64
Query: 79 LIYQHQHNKQMSCPAMGQLLSNTLY--YKRFFPYYSFNVLGGLDNEGKGCVYTYDAVGSY 136
+Y+ ++ ++S A L + PY+ +L G D +Y D + +
Sbjct: 65 QLYKMRNGYELSPTAAANFTRRNLADCLRSRTPYHVNLLLAGYDEHEGPALYYMDYLAAL 124
Query: 137 ERVGYSSQGSGSTLIMPFLDNQLKSPSPLLLPAQDAVTPLSEAEAVDLVKTCFASATERD 196
+ +++ G G+ L + LD + +P+ +S AV+L++ C +R
Sbjct: 125 AKAPFAAHGYGAFLTLSILD-RYYTPT------------ISRERAVELLRKCLEELQKRF 171
Query: 197 IYTGDKLEIVVLNKDGIH 214
I + +++K+GIH
Sbjct: 172 ILNLPTFSVRIIDKNGIH 189
>pdb|1IRU|I Chain I, Crystal Structure Of The Mammalian 20s Proteasome At 2.75
A Resolution
pdb|1IRU|W Chain W, Crystal Structure Of The Mammalian 20s Proteasome At 2.75
A Resolution
Length = 234
Score = 49.3 bits (116), Expect = 1e-06, Method: Compositional matrix adjust.
Identities = 43/195 (22%), Positives = 85/195 (43%), Gaps = 15/195 (7%)
Query: 17 TCVAIAGADYCVTAADTRMSTGYSILSRDYSKIIKLADKCVMASSGFQADVKALQKLLAA 76
T + D V ADTR + G + ++ SKI ++ +G AD +L+++
Sbjct: 2 TIAGVVYKDGIVLGADTRATEGMVVADKNCSKIHFISPNIYCCGAGTAADTDMTTQLISS 61
Query: 77 RHLIYQHQHNKQMSCPAMGQLLSNTLYYKRFFPYYSFNVLGGLDNEGKGCVYTYDAVGSY 136
++ + ++L L+ R + + VLGG+D G +Y+ GS
Sbjct: 62 NLELHSLSTGRLPRVVTANRMLKQMLFRYRGYIGAAL-VLGGVDVTGPH-LYSIYPHGST 119
Query: 137 ERVGYSSQGSGSTLIMPFLDNQLKSPSPLLLPAQDAVTPLSEAEAVDLVKTCFASATERD 196
+++ Y + GSGS M +++ + + E EA +LV A+ D
Sbjct: 120 DKLPYVTMGSGSLAAMAVFEDKFRP-------------DMEEEEAKNLVSEAIAAGIFND 166
Query: 197 IYTGDKLEIVVLNKD 211
+ +G +++ V++K+
Sbjct: 167 LGSGSNIDLCVISKN 181
>pdb|3NZJ|K Chain K, Crystal Structure Of Yeast 20s Proteasome In Complex With
Ligand 2a
pdb|3NZJ|Y Chain Y, Crystal Structure Of Yeast 20s Proteasome In Complex With
Ligand 2a
pdb|3NZW|K Chain K, Crystal Structure Of The Yeast 20s Proteasome In Complex
With 2b
pdb|3NZW|Y Chain Y, Crystal Structure Of The Yeast 20s Proteasome In Complex
With 2b
pdb|3NZX|K Chain K, Crystal Structure Of The Yeast 20s Proteasome In Complex
With Ligand 2c
pdb|3NZX|Y Chain Y, Crystal Structure Of The Yeast 20s Proteasome In Complex
With Ligand 2c
Length = 287
Score = 48.1 bits (113), Expect = 3e-06, Method: Compositional matrix adjust.
Identities = 47/200 (23%), Positives = 87/200 (43%), Gaps = 15/200 (7%)
Query: 14 NGGTCVAIAGADYCVTAADTRMSTGYSILSRDYSKIIKLADKCVMASSGFQADVKALQKL 73
+G T +A + A D+R + G + S+ K+I++ + +G AD + +
Sbjct: 74 HGTTTLAFRFQGGIIVAVDSRATAGNWVASQTVKKVIEINPFLLGTMAGGAADCQFWETW 133
Query: 74 LAARHLIYQHQHNKQMSCPAMGQLLSNTLY-YKRFFPYYSFNVLGGLDNEGKGCVYTYDA 132
L ++ +++ + +++S A ++LSN +Y YK + G EG +Y D+
Sbjct: 134 LGSQCRLHELREKERISVAAASKILSNLVYQYKGAGLSMGTMICGYTRKEGP-TIYYVDS 192
Query: 133 VGSYERVGYSSQGSGSTLIMPFLDNQLKSPSPLLLPAQDAVTPLSEAEAVDLVKTCFASA 192
G+ + GSG T LD+ K LS +A+ L K +A
Sbjct: 193 DGTRLKGDIFCVGSGQTFAYGVLDSNYK-------------WDLSVEDALYLGKRSILAA 239
Query: 193 TERDIYTGDKLEIVVLNKDG 212
RD Y+G + + + +DG
Sbjct: 240 AHRDAYSGGSVNLYHVTEDG 259
>pdb|4B4T|5 Chain 5, Near-Atomic Resolution Structural Model Of The Yeast 26s
Proteasome
Length = 287
Score = 47.4 bits (111), Expect = 6e-06, Method: Compositional matrix adjust.
Identities = 42/199 (21%), Positives = 86/199 (43%), Gaps = 13/199 (6%)
Query: 14 NGGTCVAIAGADYCVTAADTRMSTGYSILSRDYSKIIKLADKCVMASSGFQADVKALQKL 73
+G T +A + A D+R + G + S+ ++I++ + +G AD + +
Sbjct: 74 HGTTTLAFRFQGGIIVAVDSRATAGNWVASQTVKRVIEINPFLLGTMAGGAADCQFWETW 133
Query: 74 LAARHLIYQHQHNKQMSCPAMGQLLSNTLYYKRFFPYYSFNVLGGLDNEGKGCVYTYDAV 133
L ++ +++ + +++S A ++LSN +Y + ++ G + +Y D+
Sbjct: 134 LGSQCRLHELREKERISVAAASKILSNLVYQYKGAGLSMGTMICGYTRKEGPTIYYVDSD 193
Query: 134 GSYERVGYSSQGSGSTLIMPFLDNQLKSPSPLLLPAQDAVTPLSEAEAVDLVKTCFASAT 193
G+ + GSG T LD+ K LS +A+ L K +A
Sbjct: 194 GTRLKGDIFCVGSGQTFAYGVLDSNYK-------------WDLSVEDALYLGKRSILAAA 240
Query: 194 ERDIYTGDKLEIVVLNKDG 212
RD Y+G + + + +DG
Sbjct: 241 HRDAYSGGSVNLYHVTEDG 259
>pdb|1IRU|H Chain H, Crystal Structure Of The Mammalian 20s Proteasome At 2.75
A Resolution
pdb|1IRU|V Chain V, Crystal Structure Of The Mammalian 20s Proteasome At 2.75
A Resolution
Length = 205
Score = 47.4 bits (111), Expect = 7e-06, Method: Compositional matrix adjust.
Identities = 44/195 (22%), Positives = 83/195 (42%), Gaps = 22/195 (11%)
Query: 28 VTAADTRMSTGYSILSRDYSKIIKLADKCVMASSGFQADVKALQKLLAARHLIYQHQ-HN 86
V AD+R +TG I +R K+ + D+ SG AD +A+ A + YQ H+
Sbjct: 13 VLGADSRTTTGSYIANRVTDKLTPIHDRIFCCRSGSAADTQAV-----ADAVTYQLGFHS 67
Query: 87 KQMSCPAM---GQLLSNTLYYKRFFPYYSFNVLGGLDNEGKGCVYTYDAVGSYERVGYSS 143
+++ P + L + Y+ + ++ G D + G VY+ G R ++
Sbjct: 68 IELNEPPLVHTAASLFKEMCYRYREDLMAGIIIAGWDPQEGGQVYSVPMGGMMVRQSFAI 127
Query: 144 QGSGSTLIMPFLDNQLKSPSPLLLPAQDAVTPLSEAEAVDLVKTCFASATERDIYTGDKL 203
GSGS+ I ++D + +++ E + A A ERD +G +
Sbjct: 128 GGSGSSYIYGYVDATYRE-------------GMTKEECLQFTANALALAMERDGSSGGVI 174
Query: 204 EIVVLNKDGIHREYM 218
+ + + G+ R+ +
Sbjct: 175 RLAAIAESGVERQVL 189
>pdb|3UNB|M Chain M, Mouse Constitutive 20s Proteasome In Complex With Pr-957
pdb|3UNB|AA Chain a, Mouse Constitutive 20s Proteasome In Complex With Pr-957
pdb|3UNB|OO Chain o, Mouse Constitutive 20s Proteasome In Complex With Pr-957
pdb|3UNB|3 Chain 3, Mouse Constitutive 20s Proteasome In Complex With Pr-957
pdb|3UNE|M Chain M, Mouse Constitutive 20s Proteasome
pdb|3UNE|AA Chain a, Mouse Constitutive 20s Proteasome
pdb|3UNE|OO Chain o, Mouse Constitutive 20s Proteasome
pdb|3UNE|3 Chain 3, Mouse Constitutive 20s Proteasome
pdb|3UNF|M Chain M, Mouse 20s Immunoproteasome In Complex With Pr-957
pdb|3UNF|AA Chain a, Mouse 20s Immunoproteasome In Complex With Pr-957
pdb|3UNH|M Chain M, Mouse 20s Immunoproteasome
pdb|3UNH|AA Chain a, Mouse 20s Immunoproteasome
Length = 219
Score = 47.0 bits (110), Expect = 8e-06, Method: Compositional matrix adjust.
Identities = 49/206 (23%), Positives = 92/206 (44%), Gaps = 18/206 (8%)
Query: 17 TCVAIAGADY---CVTAADTRMSTGYSILSRDYSKIIKLADKCVMASSGFQADVKALQKL 73
T ++ G + V AAD S G R+ S+I+++ D ++ +SG AD + L+++
Sbjct: 7 TGTSVLGVKFDGGVVIAADMLGSYGSLARFRNISRIMRVNDSTMLGASGDYADFQYLKQV 66
Query: 74 LAARHLIYQHQHNKQMSCP-AMGQLLSNTLYYKR--FFPYYSFNVLGGLDNEGKGCVYTY 130
L + + + P A+ L+ +Y +R P ++ V+GG +G+ +
Sbjct: 67 LGQMVIDEELLGDGHSYSPRAIHSWLTRAMYSRRSKMNPLWNTMVIGGY-ADGESFLGYV 125
Query: 131 DAVGSYERVGYSSQGSGSTLIMPFLDNQLKSPSPLLLPAQDAVTPLSEAEAVDLVKTCFA 190
D +G + G G+ L P L L+ P+ LS+ EA +LV+ C
Sbjct: 126 DMLGVAYEAPSLATGYGAYLAQPLLREVLEK-QPV----------LSQTEARELVERCMR 174
Query: 191 SATERDIYTGDKLEIVVLNKDGIHRE 216
RD + ++ +I + + G+ E
Sbjct: 175 VLYYRDARSYNRFQIATVTEKGVEIE 200
>pdb|1G0U|K Chain K, A Gated Channel Into The Proteasome Core Particle
pdb|1G0U|Y Chain Y, A Gated Channel Into The Proteasome Core Particle
pdb|1JD2|K Chain K, Crystal Structure Of The Yeast 20s Proteasome:tmc-95a
Complex: A Non- Covalent Proteasome Inhibitor
pdb|1JD2|R Chain R, Crystal Structure Of The Yeast 20s Proteasome:tmc-95a
Complex: A Non- Covalent Proteasome Inhibitor
pdb|2F16|K Chain K, Crystal Structure Of The Yeast 20s Proteasome In Complex
With Bortezomib
pdb|2F16|Y Chain Y, Crystal Structure Of The Yeast 20s Proteasome In Complex
With Bortezomib
pdb|2FAK|K Chain K, Crystal Structure Of Salinosporamide A In Complex With The
Yeast 20s Proteasome
pdb|2FAK|Y Chain Y, Crystal Structure Of Salinosporamide A In Complex With The
Yeast 20s Proteasome
pdb|2GPL|K Chain K, Tmc-95 Based Biphenyl-Ether Macrocycles: Specific
Proteasome Inhibitors
pdb|2GPL|Y Chain Y, Tmc-95 Based Biphenyl-Ether Macrocycles: Specific
Proteasome Inhibitors
pdb|2ZCY|K Chain K, Yeast 20s Proteasome:syringolin A-Complex
pdb|2ZCY|Y Chain Y, Yeast 20s Proteasome:syringolin A-Complex
pdb|3BDM|K Chain K, Yeast 20s Proteasome:glidobactin A-Complex
pdb|3BDM|Y Chain Y, Yeast 20s Proteasome:glidobactin A-Complex
pdb|3D29|K Chain K, Proteasome Inhibition By Fellutamide B
pdb|3D29|Y Chain Y, Proteasome Inhibition By Fellutamide B
pdb|3E47|K Chain K, Crystal Structure Of The Yeast 20s Proteasome In Complex
With Homobelactosin C
pdb|3E47|Y Chain Y, Crystal Structure Of The Yeast 20s Proteasome In Complex
With Homobelactosin C
pdb|3DY3|K Chain K, Crystal Structure Of Yeast 20s Proteasome In Complex With
The Epimer Form Of Spirolactacystin
pdb|3DY3|Y Chain Y, Crystal Structure Of Yeast 20s Proteasome In Complex With
The Epimer Form Of Spirolactacystin
pdb|3DY4|K Chain K, Crystal Structure Of Yeast 20s Proteasome In Complex With
Spirolactacystin
pdb|3DY4|Y Chain Y, Crystal Structure Of Yeast 20s Proteasome In Complex With
Spirolactacystin
pdb|3GPJ|K Chain K, Crystal Structure Of The Yeast 20s Proteasome In Complex
With Syringolin B
pdb|3GPJ|Y Chain Y, Crystal Structure Of The Yeast 20s Proteasome In Complex
With Syringolin B
pdb|3GPT|K Chain K, Crystal Structure Of The Yeast 20s Proteasome In Complex
With Salinosporamide Derivatives: Slow Substrate Ligand
pdb|3GPT|Y Chain Y, Crystal Structure Of The Yeast 20s Proteasome In Complex
With Salinosporamide Derivatives: Slow Substrate Ligand
pdb|3GPW|K Chain K, Crystal Structure Of The Yeast 20s Proteasome In Complex
With Salinosporamide Derivatives: Irreversible Inhibitor
Ligand
pdb|3GPW|Y Chain Y, Crystal Structure Of The Yeast 20s Proteasome In Complex
With Salinosporamide Derivatives: Irreversible Inhibitor
Ligand
pdb|3HYE|K Chain K, Crystal Structure Of 20s Proteasome In Complex With
Hydroxylated Salinosporamide
pdb|3HYE|Y Chain Y, Crystal Structure Of 20s Proteasome In Complex With
Hydroxylated Salinosporamide
pdb|3MG4|K Chain K, Structure Of Yeast 20s Proteasome With Compound 1
pdb|3MG4|Y Chain Y, Structure Of Yeast 20s Proteasome With Compound 1
pdb|3MG0|K Chain K, Structure Of Yeast 20s Proteasome With Bortezomib
pdb|3MG0|Y Chain Y, Structure Of Yeast 20s Proteasome With Bortezomib
pdb|3MG6|K Chain K, Structure Of Yeast 20s Open-Gate Proteasome With Compound
6
pdb|3MG6|Y Chain Y, Structure Of Yeast 20s Open-Gate Proteasome With Compound
6
pdb|3MG7|K Chain K, Structure Of Yeast 20s Open-Gate Proteasome With Compound
8
pdb|3MG7|Y Chain Y, Structure Of Yeast 20s Open-Gate Proteasome With Compound
8
pdb|3MG8|K Chain K, Structure Of Yeast 20s Open-Gate Proteasome With Compound
16
pdb|3MG8|Y Chain Y, Structure Of Yeast 20s Open-Gate Proteasome With Compound
16
pdb|3OKJ|K Chain K, Alpha-Keto-Aldehyde Binding Mechanism Reveals A Novel Lead
Structure Motif For Proteasome Inhibition
pdb|3OKJ|Y Chain Y, Alpha-Keto-Aldehyde Binding Mechanism Reveals A Novel Lead
Structure Motif For Proteasome Inhibition
pdb|3OEU|K Chain K, Structure Of Yeast 20s Open-Gate Proteasome With Compound
24
pdb|3OEU|Y Chain Y, Structure Of Yeast 20s Open-Gate Proteasome With Compound
24
pdb|3OEV|K Chain K, Structure Of Yeast 20s Open-Gate Proteasome With Compound
25
pdb|3OEV|Y Chain Y, Structure Of Yeast 20s Open-Gate Proteasome With Compound
25
pdb|3TDD|K Chain K, Crystal Structure Of Yeast Cp In Complex With Belactosin C
pdb|3TDD|Y Chain Y, Crystal Structure Of Yeast Cp In Complex With Belactosin C
pdb|3SHJ|K Chain K, Proteasome In Complex With Hydroxyurea Derivative Hu10
pdb|3SHJ|Y Chain Y, Proteasome In Complex With Hydroxyurea Derivative Hu10
pdb|1G65|K Chain K, Crystal Structure Of Epoxomicin:20s Proteasome Reveals A
Molecular Basis For Selectivity Of
Alpha,Beta-Epoxyketone Proteasome Inhibitors
pdb|1G65|Y Chain Y, Crystal Structure Of Epoxomicin:20s Proteasome Reveals A
Molecular Basis For Selectivity Of
Alpha,Beta-Epoxyketone Proteasome Inhibitors
pdb|3UN4|K Chain K, Yeast 20s Proteasome In Complex With Pr-957 (Morpholine)
pdb|3UN4|Y Chain Y, Yeast 20s Proteasome In Complex With Pr-957 (Morpholine)
pdb|3UN8|K Chain K, Yeast 20s Proteasome In Complex With Pr-957 (Epoxide)
pdb|3UN8|Y Chain Y, Yeast 20s Proteasome In Complex With Pr-957 (Epoxide)
pdb|3SDI|K Chain K, Structure Of Yeast 20s Open-Gate Proteasome With Compound
20
pdb|3SDI|Y Chain Y, Structure Of Yeast 20s Open-Gate Proteasome With Compound
20
pdb|3SDK|K Chain K, Structure Of Yeast 20s Open-Gate Proteasome With Compound
34
pdb|3SDK|Y Chain Y, Structure Of Yeast 20s Open-Gate Proteasome With Compound
34
pdb|4GK7|K Chain K, Yeast 20s Proteasome In Complex With The
Syringolin-Glidobactin Chimera
pdb|4GK7|Y Chain Y, Yeast 20s Proteasome In Complex With The
Syringolin-Glidobactin Chimera
pdb|4G4S|L Chain L, Structure Of Proteasome-Pba1-Pba2 Complex
pdb|4FZC|K Chain K, 20s Yeast Proteasome In Complex With Cepafungin I
pdb|4FZC|Y Chain Y, 20s Yeast Proteasome In Complex With Cepafungin I
pdb|4FZG|K Chain K, 20s Yeast Proteasome In Complex With Glidobactin
pdb|4FZG|Y Chain Y, 20s Yeast Proteasome In Complex With Glidobactin
pdb|4INR|K Chain K, Yeast 20s Proteasome In Complex With The Vinyl Sulfone
Lu102
pdb|4INR|Y Chain Y, Yeast 20s Proteasome In Complex With The Vinyl Sulfone
Lu102
pdb|4INT|K Chain K, Yeast 20s Proteasome In Complex With The Vinyl Sulfone
Lu122
pdb|4INT|Y Chain Y, Yeast 20s Proteasome In Complex With The Vinyl Sulfone
Lu122
pdb|4INU|K Chain K, Yeast 20s Proteasome In Complex With The Vinyl Sulfone
Lu112
pdb|4INU|Y Chain Y, Yeast 20s Proteasome In Complex With The Vinyl Sulfone
Lu112
Length = 212
Score = 47.0 bits (110), Expect = 9e-06, Method: Compositional matrix adjust.
Identities = 44/186 (23%), Positives = 82/186 (44%), Gaps = 15/186 (8%)
Query: 28 VTAADTRMSTGYSILSRDYSKIIKLADKCVMASSGFQADVKALQKLLAARHLIYQHQHNK 87
+ A D+R + G + S+ K+I++ + +G AD + + L ++ +++ + +
Sbjct: 13 IVAVDSRATAGNWVASQTVKKVIEINPFLLGTMAGGAADCQFWETWLGSQCRLHELREKE 72
Query: 88 QMSCPAMGQLLSNTLY-YKRFFPYYSFNVLGGLDNEGKGCVYTYDAVGSYERVGYSSQGS 146
++S A ++LSN +Y YK + G EG +Y D+ G+ + GS
Sbjct: 73 RISVAAASKILSNLVYQYKGAGLSMGTMICGYTRKEGP-TIYYVDSDGTRLKGDIFCVGS 131
Query: 147 GSTLIMPFLDNQLKSPSPLLLPAQDAVTPLSEAEAVDLVKTCFASATERDIYTGDKLEIV 206
G T LD+ K LS +A+ L K +A RD Y+G + +
Sbjct: 132 GQTFAYGVLDSNYK-------------WDLSVEDALYLGKRSILAAAHRDAYSGGSVNLY 178
Query: 207 VLNKDG 212
+ +DG
Sbjct: 179 HVTEDG 184
>pdb|3UNB|N Chain N, Mouse Constitutive 20s Proteasome In Complex With Pr-957
pdb|3UNB|BB Chain b, Mouse Constitutive 20s Proteasome In Complex With Pr-957
pdb|3UNB|PP Chain p, Mouse Constitutive 20s Proteasome In Complex With Pr-957
pdb|3UNB|4 Chain 4, Mouse Constitutive 20s Proteasome In Complex With Pr-957
pdb|3UNE|N Chain N, Mouse Constitutive 20s Proteasome
pdb|3UNE|BB Chain b, Mouse Constitutive 20s Proteasome
pdb|3UNE|PP Chain p, Mouse Constitutive 20s Proteasome
pdb|3UNE|4 Chain 4, Mouse Constitutive 20s Proteasome
Length = 205
Score = 46.6 bits (109), Expect = 1e-05, Method: Compositional matrix adjust.
Identities = 46/206 (22%), Positives = 86/206 (41%), Gaps = 22/206 (10%)
Query: 17 TCVAIAGADYCVTAADTRMSTGYSILSRDYSKIIKLADKCVMASSGFQADVKALQKLLAA 76
T +A+ V AD+R +TG I +R K+ + D SG AD +A+ A
Sbjct: 2 TIMAVQFNGGVVLGADSRTTTGSYIANRVTDKLTPIHDHIFCCRSGSAADTQAV-----A 56
Query: 77 RHLIYQHQ-HNKQMSCPAM---GQLLSNTLYYKRFFPYYSFNVLGGLDNEGKGCVYTYDA 132
+ YQ H+ +++ P + L + Y+ + ++ G D + G VY+
Sbjct: 57 DAVTYQLGFHSIELNEPPLVHTAASLFKEMCYRYREDLMAGIIIAGWDPQEGGQVYSVPM 116
Query: 133 VGSYERVGYSSQGSGSTLIMPFLDNQLKSPSPLLLPAQDAVTPLSEAEAVDLVKTCFASA 192
G R ++ GSGS+ I ++D + +++ E + A A
Sbjct: 117 GGMMVRQSFAIGGSGSSYIYGYVDATYRE-------------GMTKDECLQFTANALALA 163
Query: 193 TERDIYTGDKLEIVVLNKDGIHREYM 218
ERD +G + + + + G+ R+ +
Sbjct: 164 MERDGSSGGVIRLAAIQESGVERQVL 189
>pdb|1RYP|L Chain L, Crystal Structure Of The 20s Proteasome From Yeast At 2.4
Angstroms Resolution
pdb|1RYP|Z Chain Z, Crystal Structure Of The 20s Proteasome From Yeast At 2.4
Angstroms Resolution
pdb|1FNT|L Chain L, Crystal Structure Of The 20s Proteasome From Yeast In
Complex With The Proteasome Activator Pa26 From
Trypanosome Brucei At 3.2 Angstroms Resolution
pdb|1FNT|Z Chain Z, Crystal Structure Of The 20s Proteasome From Yeast In
Complex With The Proteasome Activator Pa26 From
Trypanosome Brucei At 3.2 Angstroms Resolution
pdb|1Z7Q|L Chain L, Crystal Structure Of The 20s Proteasome From Yeast In
Complex With The Proteasome Activator Pa26 From
Trypanosome Brucei At 3.2 Angstroms Resolution
pdb|1Z7Q|Z Chain Z, Crystal Structure Of The 20s Proteasome From Yeast In
Complex With The Proteasome Activator Pa26 From
Trypanosome Brucei At 3.2 Angstroms Resolution
pdb|1VSY|L Chain L, Proteasome Activator Complex
pdb|1VSY|Z Chain Z, Proteasome Activator Complex
pdb|3L5Q|P Chain P, Proteasome Activator Complex
pdb|3L5Q|2 Chain 2, Proteasome Activator Complex
Length = 212
Score = 45.8 bits (107), Expect = 2e-05, Method: Compositional matrix adjust.
Identities = 43/186 (23%), Positives = 82/186 (44%), Gaps = 15/186 (8%)
Query: 28 VTAADTRMSTGYSILSRDYSKIIKLADKCVMASSGFQADVKALQKLLAARHLIYQHQHNK 87
+ A D+R + G + S+ ++I++ + +G AD + + L ++ +++ + +
Sbjct: 13 IVAVDSRATAGNWVASQTVKRVIEINPFLLGTMAGGAADCQFWETWLGSQCRLHELREKE 72
Query: 88 QMSCPAMGQLLSNTLY-YKRFFPYYSFNVLGGLDNEGKGCVYTYDAVGSYERVGYSSQGS 146
++S A ++LSN +Y YK + G EG +Y D+ G+ + GS
Sbjct: 73 RISVAAASKILSNLVYQYKGAGLSMGTMICGYTRKEGP-TIYYVDSDGTRLKGDIFCVGS 131
Query: 147 GSTLIMPFLDNQLKSPSPLLLPAQDAVTPLSEAEAVDLVKTCFASATERDIYTGDKLEIV 206
G T LD+ K LS +A+ L K +A RD Y+G + +
Sbjct: 132 GQTFAYGVLDSNYK-------------WDLSVEDALYLGKRSILAAAHRDAYSGGSVNLY 178
Query: 207 VLNKDG 212
+ +DG
Sbjct: 179 HVTEDG 184
>pdb|3UNB|H Chain H, Mouse Constitutive 20s Proteasome In Complex With Pr-957
pdb|3UNB|V Chain V, Mouse Constitutive 20s Proteasome In Complex With Pr-957
pdb|3UNB|JJ Chain j, Mouse Constitutive 20s Proteasome In Complex With Pr-957
pdb|3UNB|XX Chain x, Mouse Constitutive 20s Proteasome In Complex With Pr-957
pdb|3UNE|H Chain H, Mouse Constitutive 20s Proteasome
pdb|3UNE|V Chain V, Mouse Constitutive 20s Proteasome
pdb|3UNE|JJ Chain j, Mouse Constitutive 20s Proteasome
pdb|3UNE|XX Chain x, Mouse Constitutive 20s Proteasome
Length = 234
Score = 45.8 bits (107), Expect = 2e-05, Method: Compositional matrix adjust.
Identities = 46/194 (23%), Positives = 84/194 (43%), Gaps = 20/194 (10%)
Query: 21 IAGADY---CVTAADTRMSTGYSILSRDYSKIIKLADKCVMASSGFQADVKALQKLLAAR 77
IAG Y V ADTR + G + ++ SKI ++ +G AD +L+++
Sbjct: 3 IAGVVYKDGIVLGADTRATEGMVVADKNCSKIHFISPNIYCCGAGTAADTDMTTQLISSN 62
Query: 78 HLIYQHQHNKQMSCPAMGQLLSNTLYYKRFFPYYSFN-VLGGLDNEGKGCVYTYDAVGSY 136
++ + ++L L+ R+ Y VLGG+D G +Y+ GS
Sbjct: 63 LELHSLTTGRLPRVVTANRMLKQMLF--RYQGYIGAALVLGGVDVTGPH-LYSIYPHGST 119
Query: 137 ERVGYSSQGSGSTLIMPFLDNQLKSPSPLLLPAQDAVTPLSEAEAVDLVKTCFASATERD 196
+++ Y + GSGS M +++ + + E EA LV A+ D
Sbjct: 120 DKLPYVTMGSGSLAAMAVFEDKFRP-------------DMEEEEAKKLVSEAIAAGIFND 166
Query: 197 IYTGDKLEIVVLNK 210
+ +G +++ V++K
Sbjct: 167 LGSGSNIDLCVISK 180
>pdb|3H4P|A Chain A, Proteasome 20s Core Particle From Methanocaldococcus
Jannaschii
pdb|3H4P|B Chain B, Proteasome 20s Core Particle From Methanocaldococcus
Jannaschii
pdb|3H4P|C Chain C, Proteasome 20s Core Particle From Methanocaldococcus
Jannaschii
pdb|3H4P|D Chain D, Proteasome 20s Core Particle From Methanocaldococcus
Jannaschii
pdb|3H4P|E Chain E, Proteasome 20s Core Particle From Methanocaldococcus
Jannaschii
pdb|3H4P|F Chain F, Proteasome 20s Core Particle From Methanocaldococcus
Jannaschii
pdb|3H4P|G Chain G, Proteasome 20s Core Particle From Methanocaldococcus
Jannaschii
pdb|3H4P|H Chain H, Proteasome 20s Core Particle From Methanocaldococcus
Jannaschii
pdb|3H4P|I Chain I, Proteasome 20s Core Particle From Methanocaldococcus
Jannaschii
pdb|3H4P|J Chain J, Proteasome 20s Core Particle From Methanocaldococcus
Jannaschii
pdb|3H4P|K Chain K, Proteasome 20s Core Particle From Methanocaldococcus
Jannaschii
pdb|3H4P|L Chain L, Proteasome 20s Core Particle From Methanocaldococcus
Jannaschii
pdb|3H4P|M Chain M, Proteasome 20s Core Particle From Methanocaldococcus
Jannaschii
pdb|3H4P|N Chain N, Proteasome 20s Core Particle From Methanocaldococcus
Jannaschii
Length = 264
Score = 45.4 bits (106), Expect = 2e-05, Method: Compositional matrix adjust.
Identities = 39/172 (22%), Positives = 77/172 (44%), Gaps = 8/172 (4%)
Query: 13 NNGGTCVAIAGADYCVTAADTRMSTGYSILSRDYSKIIKLADKCVMASSGFQADVKALQK 72
G T + IA D V A D R+++ + R KI ++ D A+SG AD + L
Sbjct: 36 RRGTTAIGIACKDGVVLAVDRRITSKL-VKIRSIEKIFQIDDHVAAATSGLVADARVLID 94
Query: 73 LLAARHLIYQHQHNKQMSCPAMGQLLSNT----LYYKRFFPYYSFNVLGGLD-NEGKGCV 127
IY+ + +++S + + + + + P+ ++ G+D NE + +
Sbjct: 95 RARLEAQIYRLTYGEEISIEMLAKKICDIKQAYTQHGGVRPFGVSLLIAGIDKNEAR--L 152
Query: 128 YTYDAVGSYERVGYSSQGSGSTLIMPFLDNQLKSPSPLLLPAQDAVTPLSEA 179
+ D G+ ++ GSG ++M L+ + + L + A+T L++A
Sbjct: 153 FETDPSGALIEYKATAIGSGRPVVMELLEKEYRDDITLDEGLELAITALTKA 204
>pdb|1IRU|N Chain N, Crystal Structure Of The Mammalian 20s Proteasome At 2.75
A Resolution
pdb|1IRU|2 Chain 2, Crystal Structure Of The Mammalian 20s Proteasome At 2.75
A Resolution
Length = 219
Score = 44.7 bits (104), Expect = 4e-05, Method: Compositional matrix adjust.
Identities = 48/206 (23%), Positives = 91/206 (44%), Gaps = 18/206 (8%)
Query: 17 TCVAIAGADY---CVTAADTRMSTGYSILSRDYSKIIKLADKCVMASSGFQADVKALQKL 73
T ++ G + V AAD S G R+ S+I+++ + ++ +SG AD + L+++
Sbjct: 7 TGTSVLGVKFEGGVVIAADMLGSYGSLARFRNISRIMRVNNSTMLGASGDYADFQYLKQV 66
Query: 74 LAARHLIYQHQHNKQMSCP-AMGQLLSNTLYYKR--FFPYYSFNVLGGLDNEGKGCVYTY 130
L + + + P A+ L+ +Y +R P ++ V+GG +G+ +
Sbjct: 67 LGQMVIDEELLGDGHSYSPRAIHSWLTRAMYSRRSKMNPLWNTMVIGGY-ADGESFLGYV 125
Query: 131 DAVGSYERVGYSSQGSGSTLIMPFLDNQLKSPSPLLLPAQDAVTPLSEAEAVDLVKTCFA 190
D +G + G G+ L P L L+ P+L S+ EA DLV+ C
Sbjct: 126 DMLGVAYEAPSLATGYGAYLAQPLLREVLEK-QPVL----------SQTEARDLVERCMR 174
Query: 191 SATERDIYTGDKLEIVVLNKDGIHRE 216
RD + ++ + + + G+ E
Sbjct: 175 VLYYRDARSYNRFQTATVTEKGVEIE 200
>pdb|3UNF|H Chain H, Mouse 20s Immunoproteasome In Complex With Pr-957
pdb|3UNF|V Chain V, Mouse 20s Immunoproteasome In Complex With Pr-957
pdb|3UNH|H Chain H, Mouse 20s Immunoproteasome
pdb|3UNH|V Chain V, Mouse 20s Immunoproteasome
Length = 234
Score = 43.5 bits (101), Expect = 1e-04, Method: Compositional matrix adjust.
Identities = 35/147 (23%), Positives = 69/147 (46%), Gaps = 3/147 (2%)
Query: 25 DYCVTAADTRMSTGYSILSRDYSKIIKLADKCVMASSGFQADVKALQKLLAARHLIYQHQ 84
D + ADTR + + + KI +A K +G AD + ++ A++ ++
Sbjct: 10 DGVILGADTRATNDSVVADKSCEKIHFIAPKIYCCGAGVAADTEMTTRMAASKMELHALS 69
Query: 85 HNKQMSCPAMGQLLSNTLYYKRFFPYYSFNVLGGLDNEGKGCVYTYDAVGSYERVGYSSQ 144
++ + ++L TL+ + S V+GG+D G +Y GSY R+ +++
Sbjct: 70 TGREPRVATVTRILRQTLFRYQGHVGASL-VVGGVDLNGPQ-LYEVHPHGSYSRLPFTAL 127
Query: 145 GSGSTLIMPFLDNQLKSPSPLLLPAQD 171
GSG + L+++ + P+ L AQ+
Sbjct: 128 GSGQGAAVALLEDRFQ-PNMTLEAAQE 153
>pdb|3UNE|C Chain C, Mouse Constitutive 20s Proteasome
pdb|3UNE|Q Chain Q, Mouse Constitutive 20s Proteasome
pdb|3UNE|EE Chain e, Mouse Constitutive 20s Proteasome
pdb|3UNE|SS Chain s, Mouse Constitutive 20s Proteasome
pdb|3UNF|C Chain C, Mouse 20s Immunoproteasome In Complex With Pr-957
pdb|3UNF|Q Chain Q, Mouse 20s Immunoproteasome In Complex With Pr-957
pdb|3UNH|C Chain C, Mouse 20s Immunoproteasome
pdb|3UNH|Q Chain Q, Mouse 20s Immunoproteasome
Length = 248
Score = 33.5 bits (75), Expect = 0.10, Method: Compositional matrix adjust.
Identities = 33/153 (21%), Positives = 59/153 (38%), Gaps = 13/153 (8%)
Query: 13 NNGGTCVAIAGADYCVTAADTRMSTGYSILSRDYSKIIKLADKCVMASSGFQADVKALQK 72
G T V + G D V + + S R KI L D MA +G AD +
Sbjct: 27 KKGSTAVGVRGKDIVVLGVEKK-SVAKLQDERTVRKICALDDNVCMAFAGLTADAR---- 81
Query: 73 LLAARHLIYQHQHNKQMSCPAMGQLLSNTL--YYKRFF------PYYSFNVLGGLDNEGK 124
++ R + H + P + ++ + +R+ P+ ++ G D +G
Sbjct: 82 IVINRARVECQSHRLTVEDPVTVEYITRYIASLKQRYTQSNGRRPFGISALIVGFDFDGT 141
Query: 125 GCVYTYDAVGSYERVGYSSQGSGSTLIMPFLDN 157
+Y D G+Y ++ G G+ + FL+
Sbjct: 142 PRLYQTDPSGTYHAWKANAIGRGAKSVREFLEK 174
>pdb|1Y8Z|A Chain A, Alpha-glucosyltransferase In Complex With Udp And A 13-mer
Dna Containing A Hmu Base At 1.9 A Resolution
pdb|1Y8Z|B Chain B, Alpha-glucosyltransferase In Complex With Udp And A 13-mer
Dna Containing A Hmu Base At 1.9 A Resolution
Length = 402
Score = 33.5 bits (75), Expect = 0.11, Method: Compositional matrix adjust.
Identities = 24/88 (27%), Positives = 40/88 (45%), Gaps = 15/88 (17%)
Query: 14 NGGTCVAIAGADYCVTAADTRMSTGYSI---LSRDYSKIIKLADKC-------VMASSGF 63
NG + D T + +SI L+++Y K +KL + C V A+S
Sbjct: 32 NGHEVTLVYAKDKSFTRTSSHDHKSFSIPVILAKEYDKALKLVNDCDILIINSVPATSVQ 91
Query: 64 QADVKALQKLL-----AARHLIYQHQHN 86
+A + +KLL + R ++YQH H+
Sbjct: 92 EATINNYKKLLDNIKPSIRVVVYQHDHS 119
>pdb|1XV5|A Chain A, Alpha-Glucosyltransferase (Agt) In Complex With Udp
Length = 401
Score = 33.5 bits (75), Expect = 0.11, Method: Compositional matrix adjust.
Identities = 24/88 (27%), Positives = 40/88 (45%), Gaps = 15/88 (17%)
Query: 14 NGGTCVAIAGADYCVTAADTRMSTGYSI---LSRDYSKIIKLADKC-------VMASSGF 63
NG + D T + +SI L+++Y K +KL + C V A+S
Sbjct: 31 NGHEVTLVYAKDKSFTRTSSHDHKSFSIPVILAKEYDKALKLVNDCDILIINSVPATSVQ 90
Query: 64 QADVKALQKLL-----AARHLIYQHQHN 86
+A + +KLL + R ++YQH H+
Sbjct: 91 EATINNYKKLLDNIKPSIRVVVYQHDHS 118
>pdb|1Y6F|A Chain A, Alpha-Glucosyltransferase In Complex With Udp-Glucose And
Dna Containing An Abasic Site
pdb|1Y6F|B Chain B, Alpha-Glucosyltransferase In Complex With Udp-Glucose And
Dna Containing An Abasic Site
pdb|1Y6G|A Chain A, Alpha-Glucosyltransferase In Complex With Udp And A 13_mer
Dna Containing A Hmu Base At 2.8 A Resolution
pdb|1Y6G|B Chain B, Alpha-Glucosyltransferase In Complex With Udp And A 13_mer
Dna Containing A Hmu Base At 2.8 A Resolution
pdb|1YA6|A Chain A, Alpha-glucosyltransferase In Complex With Udp And A 13-mer
Dna Containing A Central A:g Mismatch
pdb|1YA6|B Chain B, Alpha-glucosyltransferase In Complex With Udp And A 13-mer
Dna Containing A Central A:g Mismatch
Length = 403
Score = 33.1 bits (74), Expect = 0.13, Method: Compositional matrix adjust.
Identities = 24/88 (27%), Positives = 40/88 (45%), Gaps = 15/88 (17%)
Query: 14 NGGTCVAIAGADYCVTAADTRMSTGYSI---LSRDYSKIIKLADKC-------VMASSGF 63
NG + D T + +SI L+++Y K +KL + C V A+S
Sbjct: 33 NGHEVTLVYAKDKSFTRTSSHDHKSFSIPVILAKEYDKALKLVNDCDILIINSVPATSVQ 92
Query: 64 QADVKALQKLL-----AARHLIYQHQHN 86
+A + +KLL + R ++YQH H+
Sbjct: 93 EATINNYKKLLDNIKPSIRVVVYQHDHS 120
>pdb|1IRU|D Chain D, Crystal Structure Of The Mammalian 20s Proteasome At 2.75
A Resolution
pdb|1IRU|R Chain R, Crystal Structure Of The Mammalian 20s Proteasome At 2.75
A Resolution
Length = 248
Score = 33.1 bits (74), Expect = 0.14, Method: Compositional matrix adjust.
Identities = 33/153 (21%), Positives = 59/153 (38%), Gaps = 13/153 (8%)
Query: 13 NNGGTCVAIAGADYCVTAADTRMSTGYSILSRDYSKIIKLADKCVMASSGFQADVKALQK 72
G T V + G D V + + S R KI L D MA +G AD +
Sbjct: 27 KKGSTAVGVRGRDIVVLGVEKK-SVAKLQDERTVRKICALDDNVCMAFAGLTADAR---- 81
Query: 73 LLAARHLIYQHQHNKQMSCPAMGQLLSNTL--YYKRFF------PYYSFNVLGGLDNEGK 124
++ R + H + P + ++ + +R+ P+ ++ G D +G
Sbjct: 82 IVINRARVECQSHRLTVEDPVTVEYITRYIASLKQRYTQSNGRRPFGISALIVGFDFDGT 141
Query: 125 GCVYTYDAVGSYERVGYSSQGSGSTLIMPFLDN 157
+Y D G+Y ++ G G+ + FL+
Sbjct: 142 PRLYQTDPSGTYHAWKANAIGRGAKSVREFLEK 174
>pdb|1RWI|B Chain B, Extracellular Domain Of Mycobacterium Tuberculosis Pknd
pdb|1RWI|A Chain A, Extracellular Domain Of Mycobacterium Tuberculosis Pknd
pdb|1RWL|A Chain A, Extracellular Domain Of Mycobacterium Tuberculosis Pknd
Length = 270
Score = 32.3 bits (72), Expect = 0.19, Method: Compositional matrix adjust.
Identities = 37/158 (23%), Positives = 65/158 (41%), Gaps = 20/158 (12%)
Query: 5 HPAWSPYDNNGGTCVAIAGADYCVTAADTRM-STGYSILSRD--YSKIIKLADKCVMASS 61
P+WSP +G T + G D+ ++ + + S G ++ + Y +++KLA S+
Sbjct: 1 RPSWSPTQASGQTVLPFTGIDFRLSPSGVAVDSAGNVYVTSEGMYGRVVKLA----TGST 56
Query: 62 G-----FQADVKALQKLLAARHLIYQHQHNKQMSCPAMGQLLSNTLYYKRFFPYYSFNVL 116
G F + + +Y N ++ A G SN + P+ N
Sbjct: 57 GTTVLPFNGLYQPQGLAVDGAGTVYVTDFNNRVVTLAAG---SNN---QTVLPFDGLNYP 110
Query: 117 GGLDNEGKGCVYTYDAVGSYERVGYSSQGSGSTLIMPF 154
GL + +G VY D RV + GS + ++PF
Sbjct: 111 EGLAVDTQGAVYVADR--GNNRVVKLAAGSKTQTVLPF 146
>pdb|3UNB|C Chain C, Mouse Constitutive 20s Proteasome In Complex With Pr-957
pdb|3UNB|Q Chain Q, Mouse Constitutive 20s Proteasome In Complex With Pr-957
pdb|3UNB|EE Chain e, Mouse Constitutive 20s Proteasome In Complex With Pr-957
pdb|3UNB|SS Chain s, Mouse Constitutive 20s Proteasome In Complex With Pr-957
Length = 248
Score = 32.3 bits (72), Expect = 0.23, Method: Compositional matrix adjust.
Identities = 33/153 (21%), Positives = 58/153 (37%), Gaps = 13/153 (8%)
Query: 13 NNGGTCVAIAGADYCVTAADTRMSTGYSILSRDYSKIIKLADKCVMASSGFQADVKALQK 72
G T V + G D V + S R KI L D MA +G AD +
Sbjct: 27 KKGSTAVGVRGKDIVVLGV-AKKSVAKLQDERTVRKICALDDNVCMAFAGLTADAR---- 81
Query: 73 LLAARHLIYQHQHNKQMSCPAMGQLLSNTL--YYKRFF------PYYSFNVLGGLDNEGK 124
++ R + H + P + ++ + +R+ P+ ++ G D +G
Sbjct: 82 IVINRARVECQSHRLTVEDPVTVEYITRYIASLKQRYTQSNGRRPFGISALIVGFDFDGT 141
Query: 125 GCVYTYDAVGSYERVGYSSQGSGSTLIMPFLDN 157
+Y D G+Y ++ G G+ + FL+
Sbjct: 142 PRLYQTDPSGTYHAWKANAIGRGAKSVREFLEK 174
>pdb|2H6J|H Chain H, Crystal Structure Of The Beta F145a Rhodococcus Proteasome
(Casp Target)
pdb|2H6J|I Chain I, Crystal Structure Of The Beta F145a Rhodococcus Proteasome
(Casp Target)
pdb|2H6J|J Chain J, Crystal Structure Of The Beta F145a Rhodococcus Proteasome
(Casp Target)
pdb|2H6J|K Chain K, Crystal Structure Of The Beta F145a Rhodococcus Proteasome
(Casp Target)
pdb|2H6J|L Chain L, Crystal Structure Of The Beta F145a Rhodococcus Proteasome
(Casp Target)
pdb|2H6J|M Chain M, Crystal Structure Of The Beta F145a Rhodococcus Proteasome
(Casp Target)
pdb|2H6J|N Chain N, Crystal Structure Of The Beta F145a Rhodococcus Proteasome
(Casp Target)
Length = 294
Score = 30.0 bits (66), Expect = 0.96, Method: Compositional matrix adjust.
Identities = 36/145 (24%), Positives = 56/145 (38%), Gaps = 10/145 (6%)
Query: 14 NGGTCVAIAGADYCVTAADTRMSTGYSILSRDYSKIIKLADKCVMASSGFQADVKALQKL 73
+G T VA+ + A D R + G I SRD K+ + +G L +L
Sbjct: 64 HGTTIVALTYKGGVLLAGDRRATQGNLIASRDVEKVYVTDEYSAAGIAGTAGIAIELVRL 123
Query: 74 LAARHLIYQHQHNKQMSCPAMGQLLSNTLYYKRFFPYYSFNVLGGL-------DNEGK-G 125
A Y+ ++ L++ + V+ L D+E + G
Sbjct: 124 FAVELEHYEKIEGVPLTFDGKANRLASMVRGNLGAAMQGLAVVPLLVGYDLDADDESRAG 183
Query: 126 CVYTYDAVGSY--ERVGYSSQGSGS 148
+ +YD VG ER GY + GSGS
Sbjct: 184 RIVSYDVVGGRYEERAGYHAVGSGS 208
>pdb|3JRM|A Chain A, Crystal Structure Of Archaeal 20s Proteasome In Complex
With Mutated P26 Activator
pdb|3JRM|B Chain B, Crystal Structure Of Archaeal 20s Proteasome In Complex
With Mutated P26 Activator
pdb|3JRM|C Chain C, Crystal Structure Of Archaeal 20s Proteasome In Complex
With Mutated P26 Activator
pdb|3JRM|D Chain D, Crystal Structure Of Archaeal 20s Proteasome In Complex
With Mutated P26 Activator
pdb|3JRM|E Chain E, Crystal Structure Of Archaeal 20s Proteasome In Complex
With Mutated P26 Activator
pdb|3JRM|F Chain F, Crystal Structure Of Archaeal 20s Proteasome In Complex
With Mutated P26 Activator
pdb|3JRM|G Chain G, Crystal Structure Of Archaeal 20s Proteasome In Complex
With Mutated P26 Activator
pdb|3JSE|A Chain A, Crystal Structure Of Archaeal 20s Proteasome In Complex
With Mutated P26 Activator
pdb|3JSE|B Chain B, Crystal Structure Of Archaeal 20s Proteasome In Complex
With Mutated P26 Activator
pdb|3JSE|C Chain C, Crystal Structure Of Archaeal 20s Proteasome In Complex
With Mutated P26 Activator
pdb|3JSE|D Chain D, Crystal Structure Of Archaeal 20s Proteasome In Complex
With Mutated P26 Activator
pdb|3JSE|E Chain E, Crystal Structure Of Archaeal 20s Proteasome In Complex
With Mutated P26 Activator
pdb|3JSE|F Chain F, Crystal Structure Of Archaeal 20s Proteasome In Complex
With Mutated P26 Activator
pdb|3JSE|G Chain G, Crystal Structure Of Archaeal 20s Proteasome In Complex
With Mutated P26 Activator
pdb|3JTL|A Chain A, Crystal Structure Of Archaeal 20s Proteasome In Complex
With Mutated P26 Activator
pdb|3JTL|B Chain B, Crystal Structure Of Archaeal 20s Proteasome In Complex
With Mutated P26 Activator
pdb|3JTL|C Chain C, Crystal Structure Of Archaeal 20s Proteasome In Complex
With Mutated P26 Activator
pdb|3JTL|D Chain D, Crystal Structure Of Archaeal 20s Proteasome In Complex
With Mutated P26 Activator
pdb|3JTL|E Chain E, Crystal Structure Of Archaeal 20s Proteasome In Complex
With Mutated P26 Activator
pdb|3JTL|F Chain F, Crystal Structure Of Archaeal 20s Proteasome In Complex
With Mutated P26 Activator
pdb|3JTL|G Chain G, Crystal Structure Of Archaeal 20s Proteasome In Complex
With Mutated P26 Activator
Length = 227
Score = 29.3 bits (64), Expect = 1.8, Method: Compositional matrix adjust.
Identities = 36/167 (21%), Positives = 72/167 (43%), Gaps = 12/167 (7%)
Query: 13 NNGGTCVAIAGADYCVTAADTRMSTGYSILSRDYSKIIKLADKCVMA-SSGFQADVKALQ 71
G T + + A+ + +D ++ + ++ ++ + I+L D V A +SG AD + L
Sbjct: 26 KKGSTALGMKFANGVLLISDKKVRS--RLIEQNSIEKIQLIDDYVAAVTSGLVADARVLV 83
Query: 72 KL--LAARH--LIYQHQHNKQMSCPAMGQLLSNTLYYKRFFPYYSFNVLGGLDNEGKGCV 127
++A+ + Y N + + + Y PY + G+D G +
Sbjct: 84 DFARISAQQEKVTYGSLVNIENLVKRVADQMQQYTQYGGVRPYGVSLIFAGIDQIGP-RL 142
Query: 128 YTYDAVGSYERVGYSSQGSGSTLIMPFLDNQLKSPSPLLLPAQDAVT 174
+ D G+ ++ GSG ++ FL+ + K LP ++AVT
Sbjct: 143 FDCDPAGTINEYKATAIGSGKDAVVSFLEREYKEN----LPEKEAVT 185
>pdb|1PMA|A Chain A, Proteasome From Thermoplasma Acidophilum
pdb|1PMA|C Chain C, Proteasome From Thermoplasma Acidophilum
pdb|1PMA|D Chain D, Proteasome From Thermoplasma Acidophilum
pdb|1PMA|E Chain E, Proteasome From Thermoplasma Acidophilum
pdb|1PMA|F Chain F, Proteasome From Thermoplasma Acidophilum
pdb|1PMA|G Chain G, Proteasome From Thermoplasma Acidophilum
pdb|1PMA|H Chain H, Proteasome From Thermoplasma Acidophilum
pdb|1PMA|I Chain I, Proteasome From Thermoplasma Acidophilum
pdb|1PMA|J Chain J, Proteasome From Thermoplasma Acidophilum
pdb|1PMA|K Chain K, Proteasome From Thermoplasma Acidophilum
pdb|1PMA|L Chain L, Proteasome From Thermoplasma Acidophilum
pdb|1PMA|M Chain M, Proteasome From Thermoplasma Acidophilum
pdb|1PMA|N Chain N, Proteasome From Thermoplasma Acidophilum
pdb|1PMA|O Chain O, Proteasome From Thermoplasma Acidophilum
pdb|1YA7|A Chain A, Implications For Interactions Of Proteasome With Pan And
Pa700 From The 1.9 A Structure Of A Proteasome-11s
Activator Complex
pdb|1YA7|B Chain B, Implications For Interactions Of Proteasome With Pan And
Pa700 From The 1.9 A Structure Of A Proteasome-11s
Activator Complex
pdb|1YA7|C Chain C, Implications For Interactions Of Proteasome With Pan And
Pa700 From The 1.9 A Structure Of A Proteasome-11s
Activator Complex
pdb|1YA7|D Chain D, Implications For Interactions Of Proteasome With Pan And
Pa700 From The 1.9 A Structure Of A Proteasome-11s
Activator Complex
pdb|1YA7|E Chain E, Implications For Interactions Of Proteasome With Pan And
Pa700 From The 1.9 A Structure Of A Proteasome-11s
Activator Complex
pdb|1YA7|F Chain F, Implications For Interactions Of Proteasome With Pan And
Pa700 From The 1.9 A Structure Of A Proteasome-11s
Activator Complex
pdb|1YA7|G Chain G, Implications For Interactions Of Proteasome With Pan And
Pa700 From The 1.9 A Structure Of A Proteasome-11s
Activator Complex
pdb|3C91|A Chain A, Thermoplasma Acidophilum 20s Proteasome With An Open Gate
pdb|3C91|B Chain B, Thermoplasma Acidophilum 20s Proteasome With An Open Gate
pdb|3C91|C Chain C, Thermoplasma Acidophilum 20s Proteasome With An Open Gate
pdb|3C91|D Chain D, Thermoplasma Acidophilum 20s Proteasome With An Open Gate
pdb|3C91|E Chain E, Thermoplasma Acidophilum 20s Proteasome With An Open Gate
pdb|3C91|F Chain F, Thermoplasma Acidophilum 20s Proteasome With An Open Gate
pdb|3C91|G Chain G, Thermoplasma Acidophilum 20s Proteasome With An Open Gate
pdb|3C91|O Chain O, Thermoplasma Acidophilum 20s Proteasome With An Open Gate
pdb|3C91|P Chain P, Thermoplasma Acidophilum 20s Proteasome With An Open Gate
pdb|3C91|Q Chain Q, Thermoplasma Acidophilum 20s Proteasome With An Open Gate
pdb|3C91|R Chain R, Thermoplasma Acidophilum 20s Proteasome With An Open Gate
pdb|3C91|S Chain S, Thermoplasma Acidophilum 20s Proteasome With An Open Gate
pdb|3C91|T Chain T, Thermoplasma Acidophilum 20s Proteasome With An Open Gate
pdb|3C91|U Chain U, Thermoplasma Acidophilum 20s Proteasome With An Open Gate
pdb|3C92|A Chain A, Thermoplasma Acidophilum 20s Proteasome With A Closed Gate
pdb|3C92|B Chain B, Thermoplasma Acidophilum 20s Proteasome With A Closed Gate
pdb|3C92|C Chain C, Thermoplasma Acidophilum 20s Proteasome With A Closed Gate
pdb|3C92|D Chain D, Thermoplasma Acidophilum 20s Proteasome With A Closed Gate
pdb|3C92|E Chain E, Thermoplasma Acidophilum 20s Proteasome With A Closed Gate
pdb|3C92|F Chain F, Thermoplasma Acidophilum 20s Proteasome With A Closed Gate
pdb|3C92|G Chain G, Thermoplasma Acidophilum 20s Proteasome With A Closed Gate
pdb|3C92|O Chain O, Thermoplasma Acidophilum 20s Proteasome With A Closed Gate
pdb|3C92|P Chain P, Thermoplasma Acidophilum 20s Proteasome With A Closed Gate
pdb|3C92|Q Chain Q, Thermoplasma Acidophilum 20s Proteasome With A Closed Gate
pdb|3C92|R Chain R, Thermoplasma Acidophilum 20s Proteasome With A Closed Gate
pdb|3C92|S Chain S, Thermoplasma Acidophilum 20s Proteasome With A Closed Gate
pdb|3C92|T Chain T, Thermoplasma Acidophilum 20s Proteasome With A Closed Gate
pdb|3C92|U Chain U, Thermoplasma Acidophilum 20s Proteasome With A Closed Gate
pdb|3IPM|A Chain A, Crystal Structure Of Archaeal 20s Proteasome In Complex
With The C- Terminus Of Pan
pdb|3IPM|B Chain B, Crystal Structure Of Archaeal 20s Proteasome In Complex
With The C- Terminus Of Pan
pdb|3IPM|C Chain C, Crystal Structure Of Archaeal 20s Proteasome In Complex
With The C- Terminus Of Pan
pdb|3IPM|D Chain D, Crystal Structure Of Archaeal 20s Proteasome In Complex
With The C- Terminus Of Pan
pdb|3IPM|E Chain E, Crystal Structure Of Archaeal 20s Proteasome In Complex
With The C- Terminus Of Pan
pdb|3IPM|F Chain F, Crystal Structure Of Archaeal 20s Proteasome In Complex
With The C- Terminus Of Pan
pdb|3IPM|G Chain G, Crystal Structure Of Archaeal 20s Proteasome In Complex
With The C- Terminus Of Pan
Length = 233
Score = 29.3 bits (64), Expect = 2.0, Method: Compositional matrix adjust.
Identities = 36/167 (21%), Positives = 72/167 (43%), Gaps = 12/167 (7%)
Query: 13 NNGGTCVAIAGADYCVTAADTRMSTGYSILSRDYSKIIKLADKCVMA-SSGFQADVKALQ 71
G T + + A+ + +D ++ + ++ ++ + I+L D V A +SG AD + L
Sbjct: 32 KKGSTALGMKFANGVLLISDKKVRS--RLIEQNSIEKIQLIDDYVAAVTSGLVADARVLV 89
Query: 72 KL--LAARH--LIYQHQHNKQMSCPAMGQLLSNTLYYKRFFPYYSFNVLGGLDNEGKGCV 127
++A+ + Y N + + + Y PY + G+D G +
Sbjct: 90 DFARISAQQEKVTYGSLVNIENLVKRVADQMQQYTQYGGVRPYGVSLIFAGIDQIGP-RL 148
Query: 128 YTYDAVGSYERVGYSSQGSGSTLIMPFLDNQLKSPSPLLLPAQDAVT 174
+ D G+ ++ GSG ++ FL+ + K LP ++AVT
Sbjct: 149 FDCDPAGTINEYKATAIGSGKDAVVSFLEREYKEN----LPEKEAVT 191
>pdb|2KU1|A Chain A, Dynamic Regulation Of Archaeal Proteasome Gate Opening As
Studied By Trosy-Nmr
pdb|2KU1|B Chain B, Dynamic Regulation Of Archaeal Proteasome Gate Opening As
Studied By Trosy-Nmr
pdb|2KU1|C Chain C, Dynamic Regulation Of Archaeal Proteasome Gate Opening As
Studied By Trosy-Nmr
pdb|2KU1|D Chain D, Dynamic Regulation Of Archaeal Proteasome Gate Opening As
Studied By Trosy-Nmr
pdb|2KU1|E Chain E, Dynamic Regulation Of Archaeal Proteasome Gate Opening As
Studied By Trosy-Nmr
pdb|2KU1|F Chain F, Dynamic Regulation Of Archaeal Proteasome Gate Opening As
Studied By Trosy-Nmr
pdb|2KU1|G Chain G, Dynamic Regulation Of Archaeal Proteasome Gate Opening As
Studied By Trosy-Nmr
Length = 237
Score = 28.9 bits (63), Expect = 2.1, Method: Compositional matrix adjust.
Identities = 36/167 (21%), Positives = 72/167 (43%), Gaps = 12/167 (7%)
Query: 13 NNGGTCVAIAGADYCVTAADTRMSTGYSILSRDYSKIIKLADKCVMA-SSGFQADVKALQ 71
G T + + A+ + +D ++ + ++ ++ + I+L D V A +SG AD + L
Sbjct: 36 KKGSTALGMKFANGVLLISDKKVRS--RLIEQNSIEKIQLIDDYVAAVTSGLVADARVLV 93
Query: 72 KL--LAARH--LIYQHQHNKQMSCPAMGQLLSNTLYYKRFFPYYSFNVLGGLDNEGKGCV 127
++A+ + Y N + + + Y PY + G+D G +
Sbjct: 94 DFARISAQQEKVTYGSLVNIENLVKRVADQMQQYTQYGGVRPYGVSLIFAGIDQIGP-RL 152
Query: 128 YTYDAVGSYERVGYSSQGSGSTLIMPFLDNQLKSPSPLLLPAQDAVT 174
+ D G+ ++ GSG ++ FL+ + K LP ++AVT
Sbjct: 153 FDCDPAGTINEYKATAIGSGKDAVVSFLEREYKEN----LPEKEAVT 195
>pdb|1YAU|A Chain A, Structure Of Archeabacterial 20s Proteasome- Pa26 Complex
pdb|1YAU|B Chain B, Structure Of Archeabacterial 20s Proteasome- Pa26 Complex
pdb|1YAU|C Chain C, Structure Of Archeabacterial 20s Proteasome- Pa26 Complex
pdb|1YAU|D Chain D, Structure Of Archeabacterial 20s Proteasome- Pa26 Complex
pdb|1YAU|E Chain E, Structure Of Archeabacterial 20s Proteasome- Pa26 Complex
pdb|1YAU|F Chain F, Structure Of Archeabacterial 20s Proteasome- Pa26 Complex
pdb|1YAU|G Chain G, Structure Of Archeabacterial 20s Proteasome- Pa26 Complex
Length = 233
Score = 28.9 bits (63), Expect = 2.2, Method: Compositional matrix adjust.
Identities = 36/167 (21%), Positives = 72/167 (43%), Gaps = 12/167 (7%)
Query: 13 NNGGTCVAIAGADYCVTAADTRMSTGYSILSRDYSKIIKLADKCVMA-SSGFQADVKALQ 71
G T + + A+ + +D ++ + ++ ++ + I+L D V A +SG AD + L
Sbjct: 32 KKGSTALGMKFANGVLLISDKKVRS--RLIEQNSIEKIQLIDDYVAAVTSGLVADARVLV 89
Query: 72 KL--LAARH--LIYQHQHNKQMSCPAMGQLLSNTLYYKRFFPYYSFNVLGGLDNEGKGCV 127
++A+ + Y N + + + Y PY + G+D G +
Sbjct: 90 DFARISAQQEKVTYGSLVNIENLVKRVADQMQQYTQYGGVRPYGVSLIFAGIDQIGP-RL 148
Query: 128 YTYDAVGSYERVGYSSQGSGSTLIMPFLDNQLKSPSPLLLPAQDAVT 174
+ D G+ ++ GSG ++ FL+ + K LP ++AVT
Sbjct: 149 FDCDPAGTINEYKATAIGSGKDAVVSFLEREYKEN----LPEKEAVT 191
>pdb|1YAR|A Chain A, Structure Of Archeabacterial 20s Proteasome Mutant D9s-
Pa26 Complex
pdb|1YAR|B Chain B, Structure Of Archeabacterial 20s Proteasome Mutant D9s-
Pa26 Complex
pdb|1YAR|C Chain C, Structure Of Archeabacterial 20s Proteasome Mutant D9s-
Pa26 Complex
pdb|1YAR|D Chain D, Structure Of Archeabacterial 20s Proteasome Mutant D9s-
Pa26 Complex
pdb|1YAR|E Chain E, Structure Of Archeabacterial 20s Proteasome Mutant D9s-
Pa26 Complex
pdb|1YAR|F Chain F, Structure Of Archeabacterial 20s Proteasome Mutant D9s-
Pa26 Complex
pdb|1YAR|G Chain G, Structure Of Archeabacterial 20s Proteasome Mutant D9s-
Pa26 Complex
Length = 233
Score = 28.9 bits (63), Expect = 2.3, Method: Compositional matrix adjust.
Identities = 36/167 (21%), Positives = 72/167 (43%), Gaps = 12/167 (7%)
Query: 13 NNGGTCVAIAGADYCVTAADTRMSTGYSILSRDYSKIIKLADKCVMA-SSGFQADVKALQ 71
G T + + A+ + +D ++ + ++ ++ + I+L D V A +SG AD + L
Sbjct: 32 KKGSTALGMKFANGVLLISDKKVRS--RLIEQNSIEKIQLIDDYVAAVTSGLVADARVLV 89
Query: 72 KL--LAARH--LIYQHQHNKQMSCPAMGQLLSNTLYYKRFFPYYSFNVLGGLDNEGKGCV 127
++A+ + Y N + + + Y PY + G+D G +
Sbjct: 90 DFARISAQQEKVTYGSLVNIENLVKRVADQMQQYTQYGGVRPYGVSLIFAGIDQIGP-RL 148
Query: 128 YTYDAVGSYERVGYSSQGSGSTLIMPFLDNQLKSPSPLLLPAQDAVT 174
+ D G+ ++ GSG ++ FL+ + K LP ++AVT
Sbjct: 149 FDCDPAGTINEYKATAIGSGKDAVVSFLEREYKEN----LPEKEAVT 191
>pdb|2KU2|A Chain A, Dynamic Regulation Of Archaeal Proteasome Gate Opening As
Studied By Trosy-Nmr
pdb|2KU2|B Chain B, Dynamic Regulation Of Archaeal Proteasome Gate Opening As
Studied By Trosy-Nmr
pdb|2KU2|C Chain C, Dynamic Regulation Of Archaeal Proteasome Gate Opening As
Studied By Trosy-Nmr
pdb|2KU2|D Chain D, Dynamic Regulation Of Archaeal Proteasome Gate Opening As
Studied By Trosy-Nmr
pdb|2KU2|E Chain E, Dynamic Regulation Of Archaeal Proteasome Gate Opening As
Studied By Trosy-Nmr
pdb|2KU2|F Chain F, Dynamic Regulation Of Archaeal Proteasome Gate Opening As
Studied By Trosy-Nmr
pdb|2KU2|G Chain G, Dynamic Regulation Of Archaeal Proteasome Gate Opening As
Studied By Trosy-Nmr
Length = 237
Score = 28.9 bits (63), Expect = 2.4, Method: Compositional matrix adjust.
Identities = 36/167 (21%), Positives = 72/167 (43%), Gaps = 12/167 (7%)
Query: 13 NNGGTCVAIAGADYCVTAADTRMSTGYSILSRDYSKIIKLADKCVMA-SSGFQADVKALQ 71
G T + + A+ + +D ++ + ++ ++ + I+L D V A +SG AD + L
Sbjct: 36 KKGSTALGMKFANGVLLISDKKVRS--RLIEQNSIEKIQLIDDYVAAVTSGLVADARVLV 93
Query: 72 KL--LAARH--LIYQHQHNKQMSCPAMGQLLSNTLYYKRFFPYYSFNVLGGLDNEGKGCV 127
++A+ + Y N + + + Y PY + G+D G +
Sbjct: 94 DFARISAQQEKVTYGSLVNIENLVKRVADQMQQYTQYGGVRPYGVSLIFAGIDQIGP-RL 152
Query: 128 YTYDAVGSYERVGYSSQGSGSTLIMPFLDNQLKSPSPLLLPAQDAVT 174
+ D G+ ++ GSG ++ FL+ + K LP ++AVT
Sbjct: 153 FDCDPAGTINEYKATAIGSGKDAVVSFLEREYKEN----LPEKEAVT 195
>pdb|3MKA|C Chain C, Crystal Structure Of Mycobacterium Tuberculosis Proteasome
With Propetide And An T1a Mutation At Beta-Subunit
pdb|3MKA|E Chain E, Crystal Structure Of Mycobacterium Tuberculosis Proteasome
With Propetide And An T1a Mutation At Beta-Subunit
pdb|3MKA|G Chain G, Crystal Structure Of Mycobacterium Tuberculosis Proteasome
With Propetide And An T1a Mutation At Beta-Subunit
pdb|3MKA|H Chain H, Crystal Structure Of Mycobacterium Tuberculosis Proteasome
With Propetide And An T1a Mutation At Beta-Subunit
pdb|3MKA|J Chain J, Crystal Structure Of Mycobacterium Tuberculosis Proteasome
With Propetide And An T1a Mutation At Beta-Subunit
pdb|3MKA|L Chain L, Crystal Structure Of Mycobacterium Tuberculosis Proteasome
With Propetide And An T1a Mutation At Beta-Subunit
pdb|3MKA|N Chain N, Crystal Structure Of Mycobacterium Tuberculosis Proteasome
With Propetide And An T1a Mutation At Beta-Subunit
pdb|3MKA|P Chain P, Crystal Structure Of Mycobacterium Tuberculosis Proteasome
With Propetide And An T1a Mutation At Beta-Subunit
pdb|3MKA|R Chain R, Crystal Structure Of Mycobacterium Tuberculosis Proteasome
With Propetide And An T1a Mutation At Beta-Subunit
pdb|3MKA|T Chain T, Crystal Structure Of Mycobacterium Tuberculosis Proteasome
With Propetide And An T1a Mutation At Beta-Subunit
pdb|3MKA|V Chain V, Crystal Structure Of Mycobacterium Tuberculosis Proteasome
With Propetide And An T1a Mutation At Beta-Subunit
pdb|3MKA|X Chain X, Crystal Structure Of Mycobacterium Tuberculosis Proteasome
With Propetide And An T1a Mutation At Beta-Subunit
pdb|3MKA|Z Chain Z, Crystal Structure Of Mycobacterium Tuberculosis Proteasome
With Propetide And An T1a Mutation At Beta-Subunit
pdb|3MKA|2 Chain 2, Crystal Structure Of Mycobacterium Tuberculosis Proteasome
With Propetide And An T1a Mutation At Beta-Subunit
Length = 291
Score = 28.5 bits (62), Expect = 2.9, Method: Compositional matrix adjust.
Identities = 33/146 (22%), Positives = 53/146 (36%), Gaps = 12/146 (8%)
Query: 14 NGGTCVAIAGADYCVTAADTRMSTGYSILSRDYSKIIKLADKCVMASSGFQADVKALQKL 73
+G T VA+ V A D R + G I RD K+ D +G A +L
Sbjct: 56 HGATIVALKYPGGVVMAGDRRSTQGNMISGRDVRKVYITDDYTATGIAGTAAVAVEFARL 115
Query: 74 LAARHLIYQHQHN---------KQMSCPAMGQLLSNTLYYKRFFPYYSFNVLGGLDNEGK 124
A Y+ +++ G L + +++ D +
Sbjct: 116 YAVELEHYEKLEGVPLTFAGKINRLAIMVRGNLAAAMQGLLALPLLAGYDIHAS-DPQSA 174
Query: 125 GCVYTYDAVGSY--ERVGYSSQGSGS 148
G + ++DA G + E GY + GSGS
Sbjct: 175 GRIVSFDAAGGWNIEEEGYQAVGSGS 200
>pdb|4DDZ|A Chain A, Crystal Structure Of Glucosyl-3-Phosphoglycerate Synthase
From Mycobacterium Tuberculosis
pdb|4DE7|A Chain A, Crystal Structure Of Glucosyl-3-Phosphoglycerate Synthase
From Mycobacterium Tuberculosis In Complex With Mg2+ And
Uridine- Diphosphate (Udp)
pdb|4DEC|A Chain A, Crystal Structure Of Glucosyl-3-Phosphoglycerate Synthase
From Mycobacterium Tuberculosis In Complex With Mn2+,
Uridine-Diphosphate (Udp) And Phosphoglyceric Acid (Pga)
Length = 344
Score = 28.5 bits (62), Expect = 3.0, Method: Compositional matrix adjust.
Identities = 17/49 (34%), Positives = 27/49 (55%), Gaps = 2/49 (4%)
Query: 141 YSSQGSGSTLIMPFLDNQLKSPSPLLLPAQDAVTPLSEAEAVDLVKTCF 189
+ S + S I+ F+D+ L +P PL +P V PL E + LVK+ +
Sbjct: 139 WRSLAATSGDIVVFIDSDLINPHPLFVPW--LVGPLLTGEGIQLVKSFY 185
>pdb|3E25|A Chain A, Crystal Structure Of M. Tuberculosis Glucosyl-3-
Phosphoglycerate Synthase
pdb|3E26|A Chain A, Crystal Structure Of M. Tuberculosis Glucosyl-3-
Phosphoglycerate Synthase
Length = 337
Score = 28.5 bits (62), Expect = 3.1, Method: Compositional matrix adjust.
Identities = 17/49 (34%), Positives = 27/49 (55%), Gaps = 2/49 (4%)
Query: 141 YSSQGSGSTLIMPFLDNQLKSPSPLLLPAQDAVTPLSEAEAVDLVKTCF 189
+ S + S I+ F+D+ L +P PL +P V PL E + LVK+ +
Sbjct: 119 WRSLAATSGDIVVFIDSDLINPHPLFVPW--LVGPLLTGEGIQLVKSFY 165
>pdb|1Q5Q|H Chain H, The Rhodococcus 20s Proteasome
pdb|1Q5Q|I Chain I, The Rhodococcus 20s Proteasome
pdb|1Q5Q|J Chain J, The Rhodococcus 20s Proteasome
pdb|1Q5Q|K Chain K, The Rhodococcus 20s Proteasome
pdb|1Q5Q|L Chain L, The Rhodococcus 20s Proteasome
pdb|1Q5Q|M Chain M, The Rhodococcus 20s Proteasome
pdb|1Q5Q|N Chain N, The Rhodococcus 20s Proteasome
Length = 235
Score = 28.5 bits (62), Expect = 3.3, Method: Compositional matrix adjust.
Identities = 35/142 (24%), Positives = 54/142 (38%), Gaps = 10/142 (7%)
Query: 17 TCVAIAGADYCVTAADTRMSTGYSILSRDYSKIIKLADKCVMASSGFQADVKALQKLLAA 76
T VA+ + A D R + G I SRD K+ + +G L +L A
Sbjct: 2 TIVALTYKGGVLLAGDRRATQGNLIASRDVEKVYVTDEYSAAGIAGTAGIAIELVRLFAV 61
Query: 77 RHLIYQHQHNKQMSCPAMGQLLSNTLYYKRFFPYYSFNVLGGL-------DNEGK-GCVY 128
Y+ ++ L++ + V+ L D+E + G +
Sbjct: 62 ELEHYEKIEGVPLTFDGKANRLASMVRGNLGAAMQGLAVVPLLVGYDLDADDESRAGRIV 121
Query: 129 TYDAVGSY--ERVGYSSQGSGS 148
+YD VG ER GY + GSGS
Sbjct: 122 SYDVVGGRYEERAGYHAVGSGS 143
>pdb|2DLK|A Chain A, Solution Structure Of The First And The Second Zf-C2h2
Domains Of Zinc Finger Protein 692
Length = 79
Score = 28.1 bits (61), Expect = 4.5, Method: Compositional matrix adjust.
Identities = 14/39 (35%), Positives = 17/39 (43%), Gaps = 5/39 (12%)
Query: 59 ASSGFQADVKALQKLLAAR-----HLIYQHQHNKQMSCP 92
SSG D ++ + R H YQH H K SCP
Sbjct: 4 GSSGMPCDFPGCGRIFSNRQYLNHHKKYQHIHQKSFSCP 42
>pdb|1Q5R|H Chain H, The Rhodococcus 20s Proteasome With Unprocessed
Pro-Peptides
pdb|1Q5R|I Chain I, The Rhodococcus 20s Proteasome With Unprocessed
Pro-Peptides
pdb|1Q5R|J Chain J, The Rhodococcus 20s Proteasome With Unprocessed
Pro-Peptides
pdb|1Q5R|K Chain K, The Rhodococcus 20s Proteasome With Unprocessed
Pro-Peptides
pdb|1Q5R|L Chain L, The Rhodococcus 20s Proteasome With Unprocessed
Pro-Peptides
pdb|1Q5R|M Chain M, The Rhodococcus 20s Proteasome With Unprocessed
Pro-Peptides
pdb|1Q5R|N Chain N, The Rhodococcus 20s Proteasome With Unprocessed
Pro-Peptides
Length = 294
Score = 28.1 bits (61), Expect = 4.6, Method: Compositional matrix adjust.
Identities = 35/145 (24%), Positives = 55/145 (37%), Gaps = 10/145 (6%)
Query: 14 NGGTCVAIAGADYCVTAADTRMSTGYSILSRDYSKIIKLADKCVMASSGFQADVKALQKL 73
+G T VA+ + A D R + G I SRD + + +G L +L
Sbjct: 64 HGTTIVALTYKGGVLLAGDRRATQGNLIASRDVEAVYVTDEYSAAGIAGTAGIAIELVRL 123
Query: 74 LAARHLIYQHQHNKQMSCPAMGQLLSNTLYYKRFFPYYSFNVLGGL-------DNEGK-G 125
A Y+ ++ L++ + V+ L D+E + G
Sbjct: 124 FAVELEHYEKIEGVPLTFDGKANRLASMVRGNLGAAMQGLAVVPLLVGYDLDADDESRAG 183
Query: 126 CVYTYDAVGSY--ERVGYSSQGSGS 148
+ +YD VG ER GY + GSGS
Sbjct: 184 RIVSYDVVGGRYEERAGYHAVGSGS 208
>pdb|1IRU|A Chain A, Crystal Structure Of The Mammalian 20s Proteasome At 2.75
A Resolution
pdb|1IRU|O Chain O, Crystal Structure Of The Mammalian 20s Proteasome At 2.75
A Resolution
Length = 246
Score = 27.3 bits (59), Expect = 6.2, Method: Compositional matrix adjust.
Identities = 41/188 (21%), Positives = 71/188 (37%), Gaps = 15/188 (7%)
Query: 7 AWSPYDNNGGTCVAIAGADYCVTAADTRMSTGYSILSRDYSKIIKLADK--CVMASSGFQ 64
A+ + G T VA+ G D C + + S + + K+ + CVM +G
Sbjct: 28 AFKAINQGGLTSVAVRGKD-CAVIVTQKKVPDKLLDSSTVTHLFKITENIGCVM--TGMT 84
Query: 65 ADVKALQKLLAARHLI------YQHQHNKQMSCPAMGQLLSNTLYYKRFFPYYSFNVLGG 118
AD ++ ++ AR+ Y ++ M C + + P +L G
Sbjct: 85 ADSRS--QVQRARYEAANWKYKYGYEIPVDMLCKRIADISQVYTQNAEMRPLGCCMILIG 142
Query: 119 LDNEGKGCVYTYDAVGSYERVGYSSQGSGSTLIMPFLDNQLKSPSPLLLP--AQDAVTPL 176
+D E VY D G Y ++ G T FL+ ++K + A+T L
Sbjct: 143 IDEEQGPQVYKCDPAGYYCGFKATAAGVKQTESTSFLEKKVKKKFDWTFEQTVETAITCL 202
Query: 177 SEAEAVDL 184
S ++D
Sbjct: 203 STVLSIDF 210
>pdb|3UNB|G Chain G, Mouse Constitutive 20s Proteasome In Complex With Pr-957
pdb|3UNB|U Chain U, Mouse Constitutive 20s Proteasome In Complex With Pr-957
pdb|3UNB|II Chain i, Mouse Constitutive 20s Proteasome In Complex With Pr-957
pdb|3UNB|WW Chain w, Mouse Constitutive 20s Proteasome In Complex With Pr-957
pdb|3UNE|G Chain G, Mouse Constitutive 20s Proteasome
pdb|3UNE|U Chain U, Mouse Constitutive 20s Proteasome
pdb|3UNE|II Chain i, Mouse Constitutive 20s Proteasome
pdb|3UNE|WW Chain w, Mouse Constitutive 20s Proteasome
pdb|3UNF|G Chain G, Mouse 20s Immunoproteasome In Complex With Pr-957
pdb|3UNF|U Chain U, Mouse 20s Immunoproteasome In Complex With Pr-957
pdb|3UNH|G Chain G, Mouse 20s Immunoproteasome
pdb|3UNH|U Chain U, Mouse 20s Immunoproteasome
Length = 246
Score = 27.3 bits (59), Expect = 7.2, Method: Compositional matrix adjust.
Identities = 41/188 (21%), Positives = 71/188 (37%), Gaps = 15/188 (7%)
Query: 7 AWSPYDNNGGTCVAIAGADYCVTAADTRMSTGYSILSRDYSKIIKLADK--CVMASSGFQ 64
A+ + G T VA+ G D C + + S + + K+ + CVM +G
Sbjct: 28 AFKAINQGGLTSVAVRGKD-CAVIVTQKKVPDKLLDSSTVTHLFKITESIGCVM--TGMT 84
Query: 65 ADVKALQKLLAARHLI------YQHQHNKQMSCPAMGQLLSNTLYYKRFFPYYSFNVLGG 118
AD ++ ++ AR+ Y ++ M C + + P +L G
Sbjct: 85 ADSRS--QVQRARYEAANWKYKYGYEIPVDMLCKRIADISQVYTQNAEMRPLGCCMILIG 142
Query: 119 LDNEGKGCVYTYDAVGSYERVGYSSQGSGSTLIMPFLDNQLKSPSPLLLP--AQDAVTPL 176
+D E VY D G Y ++ G T FL+ ++K + A+T L
Sbjct: 143 IDEEQGPQVYKCDPAGYYCGFKATAAGVKQTESTSFLEKKVKKKFDWTFEQTVETAITCL 202
Query: 177 SEAEAVDL 184
S ++D
Sbjct: 203 STVLSIDF 210
Database: pdbaa
Posted date: Mar 3, 2013 10:34 PM
Number of letters in database: 14,973,337
Number of sequences in database: 62,578
Lambda K H
0.318 0.133 0.396
Lambda K H
0.267 0.0410 0.140
Matrix: BLOSUM62
Gap Penalties: Existence: 11, Extension: 1
Number of Hits to DB: 6,687,636
Number of Sequences: 62578
Number of extensions: 259425
Number of successful extensions: 693
Number of sequences better than 100.0: 56
Number of HSP's better than 100.0 without gapping: 30
Number of HSP's successfully gapped in prelim test: 26
Number of HSP's that attempted gapping in prelim test: 626
Number of HSP's gapped (non-prelim): 58
length of query: 223
length of database: 14,973,337
effective HSP length: 95
effective length of query: 128
effective length of database: 9,028,427
effective search space: 1155638656
effective search space used: 1155638656
T: 11
A: 40
X1: 16 ( 7.3 bits)
X2: 38 (14.6 bits)
X3: 64 (24.7 bits)
S1: 41 (21.7 bits)
S2: 49 (23.5 bits)