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= 027696
(220 letters)
Database: pdbaa
62,578 sequences; 14,973,337 total letters
Searching..................................................done
>pdb|3IZR|I Chain I, Localization Of The Large Subunit Ribosomal Proteins Into
A 5.5 A Cryo-Em Map Of Triticum Aestivum Translating 80s
Ribosome
Length = 224
Score = 403 bits (1035), Expect = e-113, Method: Compositional matrix adjust.
Identities = 191/219 (87%), Positives = 204/219 (93%)
Query: 1 MGRRPARCYRQIKNKPYPKSRFCRGVPDPKIRIYDVGMKKKGVDEFPFCVHLVSWEKENV 60
MGRRPARCYRQIKNKPYPKSR+CRGVPDPKIRIYDVGMKKKGVDEFP+CVHLVSWEKENV
Sbjct: 1 MGRRPARCYRQIKNKPYPKSRYCRGVPDPKIRIYDVGMKKKGVDEFPYCVHLVSWEKENV 60
Query: 61 SSEALEAARIACNKYMAKFAGKDAFHLRVRVHPFHVLRINKMLSCAGADRLQTGMRGAFG 120
SSEALEAARIACNKYM K AGKDAFHLRVRVHPFHVLRINKMLSCAGADRLQTGMRGAFG
Sbjct: 61 SSEALEAARIACNKYMTKNAGKDAFHLRVRVHPFHVLRINKMLSCAGADRLQTGMRGAFG 120
Query: 121 KPQGTCARVAIGQVLLSVRCKDSNSLHAQEALRRAKFKFPGRQKIIVSRKWGFTKFSRSD 180
KPQGTCARV IGQVLLSVRCK+SN+ HA+EALRRAKFKFPGRQKII SRKWGFTKF+R +
Sbjct: 121 KPQGTCARVDIGQVLLSVRCKESNAKHAEEALRRAKFKFPGRQKIIHSRKWGFTKFTREE 180
Query: 181 YLRFKSENRIVPDGVNAKLLGCHGPLASRQPGRAFLHAT 219
Y++ K+E RI+ DGVNA+LLG HG LA R PG+AFL T
Sbjct: 181 YVKLKAEGRIMSDGVNAQLLGSHGRLAKRAPGKAFLAET 219
>pdb|2ZKR|HH Chain h, Structure Of A Mammalian Ribosomal 60s Subunit Within An
80s Complex Obtained By Docking Homology Models Of The
Rna And Proteins Into An 8.7 A Cryo-Em Map
Length = 214
Score = 301 bits (771), Expect = 2e-82, Method: Compositional matrix adjust.
Identities = 145/206 (70%), Positives = 165/206 (80%)
Query: 1 MGRRPARCYRQIKNKPYPKSRFCRGVPDPKIRIYDVGMKKKGVDEFPFCVHLVSWEKENV 60
MGRRPARCYR KNKPYPKSRFCRGVPD KIRI+D+G KK VDEFP C H+VS E E +
Sbjct: 1 MGRRPARCYRYCKNKPYPKSRFCRGVPDAKIRIFDLGRKKAKVDEFPLCGHMVSDEYEQL 60
Query: 61 SSEALEAARIACNKYMAKFAGKDAFHLRVRVHPFHVLRINKMLSCAGADRLQTGMRGAFG 120
SSEALEAARI NKYM K GKD FH+RVR+HPFHV+RINKMLSCAGADRLQTGMRGAFG
Sbjct: 61 SSEALEAARICANKYMVKSCGKDGFHIRVRLHPFHVIRINKMLSCAGADRLQTGMRGAFG 120
Query: 121 KPQGTCARVAIGQVLLSVRCKDSNSLHAQEALRRAKFKFPGRQKIIVSRKWGFTKFSRSD 180
KPQGT A+V IGQV++S+R K N H EALRRAKFKFPGRQKI +S+KWGFTKF+ +
Sbjct: 121 KPQGTVAKVHIGQVIMSIRTKLQNKEHVIEALRRAKFKFPGRQKIHISKKWGFTKFNADE 180
Query: 181 YLRFKSENRIVPDGVNAKLLGCHGPL 206
+ +E R++PDG K + GPL
Sbjct: 181 FENMVAEKRLIPDGCGVKYIPNRGPL 206
>pdb|4A17|H Chain H, T.Thermophila 60s Ribosomal Subunit In Complex With
Initiation Factor 6. This File Contains 5s Rrna, 5.8s
Rrna And Proteins Of Molecule 2.
pdb|4A1A|H Chain H, T.Thermophila 60s Ribosomal Subunit In Complex With
Initiation Factor 6. This File Contains 5s Rrna, 5.8s
Rrna And Proteins Of Molecule 3.
pdb|4A1C|H Chain H, T.Thermophila 60s Ribosomal Subunit In Complex With
Initiation Factor 6. This File Contains 5s Rrna, 5.8s
Rrna And Proteins Of Molecule 4.
pdb|4A1E|H Chain H, T.Thermophila 60s Ribosomal Subunit In Complex With
Initiation Factor 6. This File Contains 5s Rrna, 5.8s
Rrna And Proteins Of Molecule 1
Length = 215
Score = 288 bits (738), Expect = 1e-78, Method: Compositional matrix adjust.
Identities = 137/207 (66%), Positives = 165/207 (79%)
Query: 1 MGRRPARCYRQIKNKPYPKSRFCRGVPDPKIRIYDVGMKKKGVDEFPFCVHLVSWEKENV 60
MGRRPARCYRQ K KPYPKSR+ RGVPD +IRIYD G KK V+EFP+ VH+VS EKE +
Sbjct: 1 MGRRPARCYRQPKGKPYPKSRYNRGVPDARIRIYDSGRKKATVEEFPYVVHIVSDEKEQI 60
Query: 61 SSEALEAARIACNKYMAKFAGKDAFHLRVRVHPFHVLRINKMLSCAGADRLQTGMRGAFG 120
+SEALEAARIA NK + KF KDAFHLR RVHP+HVLRINKMLSCAGADRLQ+GMRGAFG
Sbjct: 61 TSEALEAARIAANKNLIKFISKDAFHLRCRVHPWHVLRINKMLSCAGADRLQSGMRGAFG 120
Query: 121 KPQGTCARVAIGQVLLSVRCKDSNSLHAQEALRRAKFKFPGRQKIIVSRKWGFTKFSRSD 180
K G ARV IG +L SVR K+ + +A +AL RAK KFPGRQK++ S+KWGFTK +R+
Sbjct: 121 KALGKAARVDIGSILFSVRVKEPHVKYAIDALTRAKAKFPGRQKVVTSQKWGFTKLTRAQ 180
Query: 181 YLRFKSENRIVPDGVNAKLLGCHGPLA 207
Y R +++ ++V DG N K++G GPL+
Sbjct: 181 YSRLRNQKKLVTDGSNVKVIGERGPLS 207
>pdb|3IZS|I Chain I, Localization Of The Large Subunit Ribosomal Proteins Into
A 6.1 A Cryo-Em Map Of Saccharomyces Cerevisiae
Translating 80s Ribosome
pdb|3O58|J Chain J, Yeast 80s Ribosome. This Entry Consists Of The 60s Subunit
Of The First 80s In The Asymmetric Unit.
pdb|3O5H|J Chain J, Yeast 80s Ribosome. This Entry Consists Of The 60s Subunit
Of The Second 80s In The Asymmetric Unit.
pdb|3U5E|I Chain I, The Structure Of The Eukaryotic Ribosome At 3.0 A
Resolution. This Entry Contains Proteins Of The 60s
Subunit, Ribosome A
pdb|3U5I|I Chain I, The Structure Of The Eukaryotic Ribosome At 3.0 A
Resolution. This Entry Contains Proteins Of The 60s
Subunit, Ribosome B
pdb|4B6A|I Chain I, Cryo-Em Structure Of The 60s Ribosomal Subunit In Complex
With Arx1 And Rei1
Length = 221
Score = 287 bits (734), Expect = 4e-78, Method: Compositional matrix adjust.
Identities = 139/208 (66%), Positives = 157/208 (75%)
Query: 1 MGRRPARCYRQIKNKPYPKSRFCRGVPDPKIRIYDVGMKKKGVDEFPFCVHLVSWEKENV 60
M RRPARCYR KNKPYPKSR+ R VPD KIRIYD+G KK VDEFP CVHLVS E E +
Sbjct: 1 MARRPARCYRYQKNKPYPKSRYNRAVPDSKIRIYDLGKKKATVDEFPLCVHLVSNELEQL 60
Query: 61 SSEALEAARIACNKYMAKFAGKDAFHLRVRVHPFHVLRINKMLSCAGADRLQTGMRGAFG 120
SSEALEAARI NKYM +G+DAFHLRVRVHPFHVLRINKMLSCAGADRLQ GMRGA+G
Sbjct: 61 SSEALEAARICANKYMTTVSGRDAFHLRVRVHPFHVLRINKMLSCAGADRLQQGMRGAWG 120
Query: 121 KPQGTCARVAIGQVLLSVRCKDSNSLHAQEALRRAKFKFPGRQKIIVSRKWGFTKFSRSD 180
KP G ARV IGQ++ SVR KDSN E LRRA++KFPG+QKII+S+KWGFT R +
Sbjct: 121 KPHGLAARVDIGQIIFSVRTKDSNKDVVVEGLRRARYKFPGQQKIILSKKWGFTNLDRPE 180
Query: 181 YLRFKSENRIVPDGVNAKLLGCHGPLAS 208
YL+ + + DG K L G L +
Sbjct: 181 YLKKREAGEVKDDGAFVKFLSKKGSLEN 208
>pdb|3J0L|J Chain J, Core Of Mammalian 80s Pre-Ribosome In Complex With Trnas
Fitted To A 9.8a Cryo-Em Map: Classic Pre State 1
pdb|3J0Q|J Chain J, Core Of Mammalian 80s Pre-Ribosome In Complex With Trnas
Fitted To A 10.6a Cryo-Em Map: Rotated Pre State 2
Length = 219
Score = 284 bits (727), Expect = 2e-77, Method: Compositional matrix adjust.
Identities = 138/206 (66%), Positives = 156/206 (75%)
Query: 3 RRPARCYRQIKNKPYPKSRFCRGVPDPKIRIYDVGMKKKGVDEFPFCVHLVSWEKENVSS 62
RRPARCYR KNKPYPKSR+ R VPD KIRIYD+G KK VDEFP CVHLVS E E +SS
Sbjct: 1 RRPARCYRYQKNKPYPKSRYNRAVPDSKIRIYDLGKKKATVDEFPLCVHLVSNELEQLSS 60
Query: 63 EALEAARIACNKYMAKFAGKDAFHLRVRVHPFHVLRINKMLSCAGADRLQTGMRGAFGKP 122
EALEAARI NKYM +G+DAFHLRVRVHPFHVLRINKMLSCAGADRLQ GMRGA+GKP
Sbjct: 61 EALEAARICANKYMTTVSGRDAFHLRVRVHPFHVLRINKMLSCAGADRLQQGMRGAWGKP 120
Query: 123 QGTCARVAIGQVLLSVRCKDSNSLHAQEALRRAKFKFPGRQKIIVSRKWGFTKFSRSDYL 182
G ARV IGQ++ SVR KDSN E LRRA++KFPG+QKII+S+KWGFT R +YL
Sbjct: 121 HGLAARVDIGQIIFSVRTKDSNKDVVVEGLRRARYKFPGQQKIILSKKWGFTNLDRPEYL 180
Query: 183 RFKSENRIVPDGVNAKLLGCHGPLAS 208
+ + + DG K L G L +
Sbjct: 181 KKREAGEVKDDGAFVKFLSKKGSLEN 206
>pdb|3ZF7|K Chain K, High-resolution Cryo-electron Microscopy Structure Of The
Trypanosoma Brucei Ribosome
Length = 213
Score = 280 bits (716), Expect = 4e-76, Method: Compositional matrix adjust.
Identities = 131/207 (63%), Positives = 159/207 (76%)
Query: 1 MGRRPARCYRQIKNKPYPKSRFCRGVPDPKIRIYDVGMKKKGVDEFPFCVHLVSWEKENV 60
M RRPARCYR KNKPYPKSRFCRGVPDP+IR +D+G ++ VDEFP CVH+VS E E +
Sbjct: 1 MARRPARCYRFCKNKPYPKSRFCRGVPDPRIRTFDIGKRRAPVDEFPVCVHVVSRELEQI 60
Query: 61 SSEALEAARIACNKYMAKFAGKDAFHLRVRVHPFHVLRINKMLSCAGADRLQTGMRGAFG 120
SSEALEAARI NKYM K A K+ FH+R+R HPFHVLRINKMLSCAGADRLQTGMR ++G
Sbjct: 61 SSEALEAARIQANKYMVKRANKECFHMRIRAHPFHVLRINKMLSCAGADRLQTGMRQSYG 120
Query: 121 KPQGTCARVAIGQVLLSVRCKDSNSLHAQEALRRAKFKFPGRQKIIVSRKWGFTKFSRSD 180
KP GTCARV IGQ+LLS+R KD+ A E+LRRAK KFPGRQ I++S+ WGFT R++
Sbjct: 121 KPNGTCARVRIGQILLSMRTKDTYVPQALESLRRAKMKFPGRQIIVISKYWGFTNILRNE 180
Query: 181 YLRFKSENRIVPDGVNAKLLGCHGPLA 207
Y + ++ G++ KL+ G +
Sbjct: 181 YEELRDAGKLQQRGLHVKLITPKGKIT 207
>pdb|1S1I|I Chain I, Structure Of The Ribosomal 80s-Eef2-Sordarin Complex From
Yeast Obtained By Docking Atomic Models For Rna And
Protein Components Into A 11.7 A Cryo-Em Map. This File,
1s1i, Contains 60s Subunit. The 40s Ribosomal Subunit Is
In File 1s1h
Length = 168
Score = 258 bits (658), Expect = 2e-69, Method: Compositional matrix adjust.
Identities = 125/168 (74%), Positives = 137/168 (81%)
Query: 1 MGRRPARCYRQIKNKPYPKSRFCRGVPDPKIRIYDVGMKKKGVDEFPFCVHLVSWEKENV 60
M RRPARCYR KNKPYPKSR+ R VPD KIRIYD+G KK VDEFP CVHLVS E E +
Sbjct: 1 MARRPARCYRYQKNKPYPKSRYNRAVPDSKIRIYDLGKKKATVDEFPLCVHLVSNELEQL 60
Query: 61 SSEALEAARIACNKYMAKFAGKDAFHLRVRVHPFHVLRINKMLSCAGADRLQTGMRGAFG 120
SSEALEAARI NKYM +G+DAFHLRVRVHPFHVLRINKMLSCAGADRLQ GMRGA+G
Sbjct: 61 SSEALEAARICANKYMTTVSGRDAFHLRVRVHPFHVLRINKMLSCAGADRLQQGMRGAWG 120
Query: 121 KPQGTCARVAIGQVLLSVRCKDSNSLHAQEALRRAKFKFPGRQKIIVS 168
KP G ARV IGQ++ SVR KDSN E LRRA++KFPG+QKII+S
Sbjct: 121 KPHGLAARVDIGQIIFSVRTKDSNKDVVVEGLRRARYKFPGQQKIILS 168
>pdb|3JYW|I Chain I, Structure Of The 60s Proteins For Eukaryotic Ribosome
Based On Cryo-Em Map Of Thermomyces Lanuginosus Ribosome
At 8.9a Resolution
Length = 165
Score = 253 bits (647), Expect = 5e-68, Method: Compositional matrix adjust.
Identities = 123/165 (74%), Positives = 135/165 (81%)
Query: 4 RPARCYRQIKNKPYPKSRFCRGVPDPKIRIYDVGMKKKGVDEFPFCVHLVSWEKENVSSE 63
RPARCYR KNKPYPKSR+ R VPD KIRIYD+G KK VDEFP CVHLVS E E +SSE
Sbjct: 1 RPARCYRYQKNKPYPKSRYNRAVPDSKIRIYDLGKKKATVDEFPLCVHLVSNELEQLSSE 60
Query: 64 ALEAARIACNKYMAKFAGKDAFHLRVRVHPFHVLRINKMLSCAGADRLQTGMRGAFGKPQ 123
ALEAARI NKYM +G+DAFHLRVRVHPFHVLRINKMLSCAGADRLQ GMRGA+GKP
Sbjct: 61 ALEAARICANKYMTTVSGRDAFHLRVRVHPFHVLRINKMLSCAGADRLQQGMRGAWGKPH 120
Query: 124 GTCARVAIGQVLLSVRCKDSNSLHAQEALRRAKFKFPGRQKIIVS 168
G ARV IGQ++ SVR KDSN E LRRA++KFPG+QKII+S
Sbjct: 121 GLAARVDIGQIIFSVRTKDSNKDVVVEGLRRARYKFPGQQKIILS 165
>pdb|2PA2|A Chain A, Crystal Structure Of Human Ribosomal Protein L10 Core
Domain
pdb|2PA2|B Chain B, Crystal Structure Of Human Ribosomal Protein L10 Core
Domain
Length = 151
Score = 224 bits (571), Expect = 3e-59, Method: Compositional matrix adjust.
Identities = 107/148 (72%), Positives = 122/148 (82%)
Query: 34 YDVGMKKKGVDEFPFCVHLVSWEKENVSSEALEAARIACNKYMAKFAGKDAFHLRVRVHP 93
+D+G KK VDEFP C H+VS E E +SSEALEAARI NKYM K GKD FH+RVR+HP
Sbjct: 3 FDLGRKKAKVDEFPLCGHMVSDEYEQLSSEALEAARICANKYMVKSCGKDGFHIRVRLHP 62
Query: 94 FHVLRINKMLSCAGADRLQTGMRGAFGKPQGTCARVAIGQVLLSVRCKDSNSLHAQEALR 153
FHV+RINKMLSCAGADRLQTGMRGAFGKPQGT ARV IGQV++S+R K N H EALR
Sbjct: 63 FHVIRINKMLSCAGADRLQTGMRGAFGKPQGTVARVHIGQVIMSIRTKLQNKEHVIEALR 122
Query: 154 RAKFKFPGRQKIIVSRKWGFTKFSRSDY 181
RAKFKFPGRQKI +S+KWGFTKF+ ++
Sbjct: 123 RAKFKFPGRQKIHISKKWGFTKFNADEF 150
>pdb|3J21|N Chain N, Promiscuous Behavior Of Proteins In Archaeal Ribosomes
Revealed By Cryo-em: Implications For Evolution Of
Eukaryotic Ribosomes (50s Ribosomal Proteins)
Length = 181
Score = 117 bits (294), Expect = 4e-27, Method: Compositional matrix adjust.
Identities = 65/160 (40%), Positives = 86/160 (53%), Gaps = 3/160 (1%)
Query: 1 MGRRPARCYRQIKNKPYPKSRFCRGVPDPKIRIYDVGMKKKGVDEFPFCVHLVSWEKENV 60
M RPA+ R + Y + + RG P PKI I+D+G +F F V L + E +
Sbjct: 1 MALRPAKIDRYVDKPAYTRREYIRGAPGPKITIFDMG---NPAGDFEFEVSLHTAEPVQI 57
Query: 61 SSEALEAARIACNKYMAKFAGKDAFHLRVRVHPFHVLRINKMLSCAGADRLQTGMRGAFG 120
ALEAAR N+Y+ K G+ +H ++RV+PF VLR N M + ADR GMR FG
Sbjct: 58 RQNALEAARQQVNRYLQKNVGRSNYHFKIRVYPFQVLRENPMATGRKADRYGNGMRRPFG 117
Query: 121 KPQGTCARVAIGQVLLSVRCKDSNSLHAQEALRRAKFKFP 160
KP G AR+ Q +LS+R + A E RRA KFP
Sbjct: 118 KPIGLAARLKKDQKILSIRVNRQHLKFAIEGARRAAMKFP 157
>pdb|3I55|H Chain H, Co-Crystal Structure Of Mycalamide A Bound To The Large
Ribosomal Subunit
pdb|3I56|H Chain H, Co-Crystal Structure Of Triacetyloleandomcyin Bound To The
Large Ribosomal Subunit
Length = 174
Score = 115 bits (289), Expect = 1e-26, Method: Compositional matrix adjust.
Identities = 62/170 (36%), Positives = 94/170 (55%), Gaps = 1/170 (0%)
Query: 1 MGRRPARCYRQIKNKPYPKSRFCRGVPDPKIRIYDVGMKKKGVDEFPFCVHLVSWEKENV 60
M +PA YR I Y + + G+P KI + +G K+K D++P + L+ E +
Sbjct: 1 MSDKPASMYRDIDKPAYTRREYITGIPGSKIAQHKMGRKQKDADDYPVQISLIVEETVQL 60
Query: 61 SSEALEAARIACNKYMAKFAGKDA-FHLRVRVHPFHVLRINKMLSCAGADRLQTGMRGAF 119
+LEA+R++ N+++ K G++ + + +R P VLR NK + AGADR+ GMR AF
Sbjct: 61 RHGSLEASRLSANRHLIKELGEEGDYKMTLRKFPHQVLRENKQATGAGADRVSDGMRAAF 120
Query: 120 GKPQGTCARVAIGQVLLSVRCKDSNSLHAQEALRRAKFKFPGRQKIIVSR 169
GK GT ARV G+ L + C ++ H +EA RRA K +I V R
Sbjct: 121 GKIVGTAARVQAGEQLFTAYCNVEDAEHVKEAFRRAYNKITPSCRIKVER 170
>pdb|1YHQ|H Chain H, Crystal Structure Of Azithromycin Bound To The G2099a
Mutant 50s Ribosomal Subunit Of Haloarcula Marismortui
pdb|1YI2|H Chain H, Crystal Structure Of Erythromycin Bound To The G2099a
Mutant 50s Ribosomal Subunit Of Haloarcula Marismortui
pdb|1YIJ|H Chain H, Crystal Structure Of Telithromycin Bound To The G2099a
Mutant 50s Ribosomal Subunit Of Haloarcula Marismortui
pdb|1YIT|H Chain H, Crystal Structure Of Virginiamycin M And S Bound To The
50s Ribosomal Subunit Of Haloarcula Marismortui
pdb|1YJ9|H Chain H, Crystal Structure Of The Mutant 50s Ribosomal Subunit Of
Haloarcula Marismortui Containing A Three Residue
Deletion In L22
pdb|1YJN|H Chain H, Crystal Structure Of Clindamycin Bound To The G2099a
Mutant 50s Ribosomal Subunit Of Haloarcula Marismortui
pdb|1YJW|H Chain H, Crystal Structure Of Quinupristin Bound To The G2099a
Mutant 50s Ribosomal Subunit Of Haloarcula Marismortui
pdb|3CC2|H Chain H, The Refined Crystal Structure Of The Haloarcula
Marismortui Large Ribosomal Subunit At 2.4 Angstrom
Resolution With Rrna Sequence For The 23s Rrna And
Genome-Derived Sequences For R-Proteins
pdb|3CC4|H Chain H, Co-Crystal Structure Of Anisomycin Bound To The 50s
Ribosomal Subunit
pdb|3CC7|H Chain H, Structure Of Anisomycin Resistant 50s Ribosomal Subunit:
23s Rrna Mutation C2487u
pdb|3CCE|H Chain H, Structure Of Anisomycin Resistant 50s Ribosomal Subunit:
23s Rrna Mutation U2535a
pdb|3CCJ|H Chain H, Structure Of Anisomycin Resistant 50s Ribosomal Subunit:
23s Rrna Mutation C2534u
pdb|3CCL|H Chain H, Structure Of Anisomycin Resistant 50s Ribosomal Subunit:
23s Rrna Mutation U2535c. Density For Anisomycin Is
Visible But Not Included In Model.
pdb|3CCM|H Chain H, Structure Of Anisomycin Resistant 50s Ribosomal Subunit:
23s Rrna Mutation G2611u
pdb|3CCQ|H Chain H, Structure Of Anisomycin Resistant 50s Ribosomal Subunit:
23s Rrna Mutation A2488u
pdb|3CCR|H Chain H, Structure Of Anisomycin Resistant 50s Ribosomal Subunit:
23s Rrna Mutation A2488c. Density For Anisomycin Is
Visible But Not Included In The Model.
pdb|3CCS|H Chain H, Structure Of Anisomycin Resistant 50s Ribosomal Subunit:
23s Rrna Mutation G2482a
pdb|3CCU|H Chain H, Structure Of Anisomycin Resistant 50s Ribosomal Subunit:
23s Rrna Mutation G2482c
pdb|3CCV|H Chain H, Structure Of Anisomycin Resistant 50s Ribosomal Subunit:
23s Rrna Mutation G2616a
pdb|3CD6|H Chain H, Co-cystal Of Large Ribosomal Subunit Mutant G2616a With
Cc-puromycin
pdb|3CPW|H Chain H, The Structure Of The Antibiotic Linezolid Bound To The
Large Ribosomal Subunit Of Haloarcula Marismortui
pdb|3CMA|H Chain H, The Structure Of Cca And Cca-Phe-Cap-Bio Bound To The
Large Ribosomal Subunit Of Haloarcula Marismortui
pdb|3CME|H Chain H, The Structure Of Ca And Cca-Phe-Cap-Bio Bound To The Large
Ribosomal Subunit Of Haloarcula Marismortui
pdb|3G4S|H Chain H, Co-Crystal Structure Of Tiamulin Bound To The Large
Ribosomal Subunit
pdb|3G6E|H Chain H, Co-Crystal Structure Of Homoharringtonine Bound To The
Large Ribosomal Subunit
pdb|3G71|H Chain H, Co-crystal Structure Of Bruceantin Bound To The Large
Ribosomal Subunit
pdb|4ADX|H Chain H, The Cryo-Em Structure Of The Archaeal 50s Ribosomal
Subunit In Complex With Initiation Factor 6
Length = 177
Score = 115 bits (289), Expect = 2e-26, Method: Compositional matrix adjust.
Identities = 62/170 (36%), Positives = 94/170 (55%), Gaps = 1/170 (0%)
Query: 1 MGRRPARCYRQIKNKPYPKSRFCRGVPDPKIRIYDVGMKKKGVDEFPFCVHLVSWEKENV 60
M +PA YR I Y + + G+P KI + +G K+K D++P + L+ E +
Sbjct: 1 MSDKPASMYRDIDKPAYTRREYITGIPGSKIAQHKMGRKQKDADDYPVQISLIVEETVQL 60
Query: 61 SSEALEAARIACNKYMAKFAGKDA-FHLRVRVHPFHVLRINKMLSCAGADRLQTGMRGAF 119
+LEA+R++ N+++ K G++ + + +R P VLR NK + AGADR+ GMR AF
Sbjct: 61 RHGSLEASRLSANRHLIKELGEEGDYKMTLRKFPHQVLRENKQATGAGADRVSDGMRAAF 120
Query: 120 GKPQGTCARVAIGQVLLSVRCKDSNSLHAQEALRRAKFKFPGRQKIIVSR 169
GK GT ARV G+ L + C ++ H +EA RRA K +I V R
Sbjct: 121 GKIVGTAARVQAGEQLFTAYCNVEDAEHVKEAFRRAYNKITPSCRIKVER 170
>pdb|2QEX|H Chain H, Negamycin Binds To The Wall Of The Nascent Chain Exit
Tunnel Of The 50s Ribosomal Subunit
Length = 174
Score = 114 bits (286), Expect = 3e-26, Method: Compositional matrix adjust.
Identities = 59/160 (36%), Positives = 90/160 (56%), Gaps = 1/160 (0%)
Query: 1 MGRRPARCYRQIKNKPYPKSRFCRGVPDPKIRIYDVGMKKKGVDEFPFCVHLVSWEKENV 60
M +PA YR I Y + + G+P KI + +G K+K D++P + L+ E +
Sbjct: 1 MSDKPASMYRDIDKPAYTRREYITGIPGSKIAQHKMGRKQKDADDYPVQISLIVEETVQL 60
Query: 61 SSEALEAARIACNKYMAKFAGKDA-FHLRVRVHPFHVLRINKMLSCAGADRLQTGMRGAF 119
+LEA+R++ N+++ K G++ + + +R P VLR NK + AGADR+ GMR AF
Sbjct: 61 RHGSLEASRLSANRHLIKELGEEGDYKMTLRKFPHQVLRENKQATGAGADRVSDGMRAAF 120
Query: 120 GKPQGTCARVAIGQVLLSVRCKDSNSLHAQEALRRAKFKF 159
GK GT ARV G+ L + C ++ H +EA RRA K
Sbjct: 121 GKIVGTAARVQAGEQLFTAYCNVEDAEHVKEAFRRAYNKI 160
>pdb|1S72|H Chain H, Refined Crystal Structure Of The Haloarcula Marismortui
Large Ribosomal Subunit At 2.4 Angstrom Resolution
pdb|1VQ4|H Chain H, The Structure Of The Transition State Analogue "daa" Bound
To The Large Ribosomal Subunit Of Haloarcula Marismortui
pdb|1VQ5|H Chain H, The Structure Of The Transition State Analogue "raa" Bound
To The Large Ribosomal Subunit Of Haloarcula Marismortui
pdb|1VQ6|H Chain H, The Structure Of C-Hpmn And Cca-Phe-Cap-Bio Bound To The
Large Ribosomal Subunit Of Haloarcula Marismortui
pdb|1VQ7|H Chain H, The Structure Of The Transition State Analogue "dca" Bound
To The Large Ribosomal Subunit Of Haloarcula Marismortui
pdb|1VQ8|H Chain H, The Structure Of Ccda-Phe-Cap-Bio And The Antibiotic
Sparsomycin Bound To The Large Ribosomal Subunit Of
Haloarcula Marismortui
pdb|1VQ9|H Chain H, The Structure Of Cca-Phe-Cap-Bio And The Antibiotic
Sparsomycin Bound To The Large Ribosomal Subunit Of
Haloarcula Marismortui
pdb|1VQK|H Chain H, The Structure Of Ccda-Phe-Cap-Bio Bound To The A Site Of
The Ribosomal Subunit Of Haloarcula Marismortui
pdb|1VQL|H Chain H, The Structure Of The Transition State Analogue "dcsn"
Bound To The Large Ribosomal Subunit Of Haloarcula
Marismortui
pdb|1VQM|H Chain H, The Structure Of The Transition State Analogue "dan" Bound
To The Large Ribosomal Subunit Of Haloarcula Marismortui
pdb|1VQN|H Chain H, The Structure Of Cc-hpmn And Cca-phe-cap-bio Bound To The
Large Ribosomal Subunit Of Haloarcula Marismortui
pdb|1VQO|H Chain H, The Structure Of Ccpmn Bound To The Large Ribosomal
Subunit Haloarcula Marismortui
pdb|1VQP|H Chain H, The Structure Of The Transition State Analogue "rap" Bound
To The Large Ribosomal Subunit Of Haloarcula Marismortui
pdb|2OTJ|H Chain H, 13-Deoxytedanolide Bound To The Large Subunit Of
Haloarcula Marismortui
pdb|2OTL|H Chain H, Girodazole Bound To The Large Subunit Of Haloarcula
Marismortui
pdb|2QA4|H Chain H, A More Complete Structure Of The The L7L12 STALK OF THE
Haloarcula Marismortui 50s Large Ribosomal Subunit
Length = 171
Score = 113 bits (282), Expect = 9e-26, Method: Compositional matrix adjust.
Identities = 58/157 (36%), Positives = 89/157 (56%), Gaps = 1/157 (0%)
Query: 4 RPARCYRQIKNKPYPKSRFCRGVPDPKIRIYDVGMKKKGVDEFPFCVHLVSWEKENVSSE 63
+PA YR I Y + + G+P KI + +G K+K D++P + L+ E +
Sbjct: 1 KPASMYRDIDKPAYTRREYITGIPGSKIAQHKMGRKQKDADDYPVQISLIVEETVQLRHG 60
Query: 64 ALEAARIACNKYMAKFAGKDA-FHLRVRVHPFHVLRINKMLSCAGADRLQTGMRGAFGKP 122
+LEA+R++ N+++ K G++ + + +R P VLR NK + AGADR+ GMR AFGK
Sbjct: 61 SLEASRLSANRHLIKELGEEGDYKMTLRKFPHQVLRENKQATGAGADRVSDGMRAAFGKI 120
Query: 123 QGTCARVAIGQVLLSVRCKDSNSLHAQEALRRAKFKF 159
GT ARV G+ L + C ++ H +EA RRA K
Sbjct: 121 VGTAARVQAGEQLFTAYCNVEDAEHVKEAFRRAYNKI 157
>pdb|1JJ2|H Chain H, Fully Refined Crystal Structure Of The Haloarcula
Marismortui Large Ribosomal Subunit At 2.4 Angstrom
Resolution
pdb|1KQS|H Chain H, The Haloarcula Marismortui 50s Complexed With A
Pretranslocational Intermediate In Protein Synthesis
pdb|1K8A|J Chain J, Co-Crystal Structure Of Carbomycin A Bound To The 50s
Ribosomal Subunit Of Haloarcula Marismortui
pdb|1K9M|J Chain J, Co-Crystal Structure Of Tylosin Bound To The 50s Ribosomal
Subunit Of Haloarcula Marismortui
pdb|1KD1|J Chain J, Co-crystal Structure Of Spiramycin Bound To The 50s
Ribosomal Subunit Of Haloarcula Marismortui
pdb|1M1K|J Chain J, Co-Crystal Structure Of Azithromycin Bound To The 50s
Ribosomal Subunit Of Haloarcula Marismortui
pdb|1M90|J Chain J, Co-Crystal Structure Of Cca-Phe-Caproic Acid-Biotin And
Sparsomycin Bound To The 50s Ribosomal Subunit
pdb|1K73|J Chain J, Co-Crystal Structure Of Anisomycin Bound To The 50s
Ribosomal Subunit
pdb|1KC8|J Chain J, Co-Crystal Structure Of Blasticidin S Bound To The 50s
Ribosomal Subunit
pdb|1N8R|J Chain J, Structure Of Large Ribosomal Subunit In Complex With
Virginiamycin M
pdb|1NJI|J Chain J, Structure Of Chloramphenicol Bound To The 50s Ribosomal
Subunit
pdb|1Q7Y|J Chain J, Crystal Structure Of Ccdap-puromycin Bound At The Peptidyl
Transferase Center Of The 50s Ribosomal Subunit
pdb|1Q81|J Chain J, Crystal Structure Of Minihelix With 3' Puromycin Bound To
A- Site Of The 50s Ribosomal Subunit.
pdb|1Q82|J Chain J, Crystal Structure Of Cc-Puromycin Bound To The A-Site Of
The 50s Ribosomal Subunit
pdb|1Q86|J Chain J, Crystal Structure Of Cca-Phe-Cap-Biotin Bound
Simultaneously At Half Occupancy To Both The A-Site And
P- Site Of The The 50s Ribosomal Subunit.
pdb|1QVF|H Chain H, Structure Of A Deacylated Trna Minihelix Bound To The E
Site Of The Large Ribosomal Subunit Of Haloarcula
Marismortui
pdb|1QVG|H Chain H, Structure Of Cca Oligonucleotide Bound To The Trna Binding
Sites Of The Large Ribosomal Subunit Of Haloarcula
Marismortui
pdb|1W2B|H Chain H, Trigger Factor Ribosome Binding Domain In Complex With 50s
pdb|3CXC|H Chain H, The Structure Of An Enhanced Oxazolidinone Inhibitor Bound
To The 50s Ribosomal Subunit Of H. Marismortui
pdb|3OW2|H Chain H, Crystal Structure Of Enhanced Macrolide Bound To 50s
Ribosomal Subunit
Length = 167
Score = 88.6 bits (218), Expect = 2e-18, Method: Compositional matrix adjust.
Identities = 56/156 (35%), Positives = 76/156 (48%), Gaps = 5/156 (3%)
Query: 4 RPARCYRQIKNKPYPKSRFCRGVPDPKIRIYDVGMKKKGVDEFPFCVHLVSWEKENVSSE 63
+P YR Y + + G+P KI +D+G G +P V LV + +
Sbjct: 1 KPGAMYRNSSKPAYTRREYISGIPGKKIAQFDMGNNGAG-PTYPAQVELVVEKPVQIRHN 59
Query: 64 ALEAARIACNKYMAKFAGKDAFHLRVRVHPFHVLRINKMLSCAGADRLQTGMRGAFGKPQ 123
ALEAAR+A N+Y+ + R+R PFHV+R NK + A A GMR FGKP
Sbjct: 60 ALEAARVAANRYVQNSGAAANYKFRIRKFPFHVIRENKAAAAAAAAAAADGMRAPFGKPV 119
Query: 124 GTCARV-AIGQVLLSVRCKDSNSLHAQEALRRAKFK 158
GT ARV + ++ D N +EA RRAK K
Sbjct: 120 GTAARVHGANHIFIAWVNPDPN---VEEAWRRAKMK 152
>pdb|1FFK|F Chain F, Crystal Structure Of The Large Ribosomal Subunit From
Haloarcula Marismortui At 2.4 Angstrom Resolution
Length = 157
Score = 53.5 bits (127), Expect = 9e-08, Method: Compositional matrix adjust.
Identities = 36/125 (28%), Positives = 54/125 (43%), Gaps = 11/125 (8%)
Query: 4 RPARCYRQIKNKPYPKSRFCRGVPDPKIRIYDVGMKKKGVDEFPFCVHLVSWEKENVSSE 63
+P +R Y + + G+P I + +G G +P V V + +
Sbjct: 1 KPGAHFRNSIKPAYTRREYISGIPGKGIAQFKMGNNGAG-PTYPAQVENVVEKPVQIRHN 59
Query: 64 ALEAARIACNKYMAKFAGKDAFHLRVRVHPFHVLRINKMLSCAGADRLQTGMRGAFGKPQ 123
ALEAAR A N+++ + R+R PFHV+R ++ GMR FGK
Sbjct: 60 ALEAARNAANRFVQNSGAAANYKFRIRKFPFHVIR----------EQDGDGMRAPFGKSV 109
Query: 124 GTCAR 128
GT AR
Sbjct: 110 GTAAR 114
>pdb|1GIY|P Chain P, Crystal Structure Of The Ribosome At 5.5 A Resolution.
This File, 1giy, Contains The 50s Ribosome Subunit. The
30s Ribosome Subunit, Three Trna, And Mrna Molecules Are
In The File 1gix
pdb|1ML5|PP Chain p, Structure Of The E. Coli Ribosomal Termination Complex
With Release Factor 2
pdb|1YL3|P Chain P, Crystal Structure Of 70s Ribosome With Thrs Operator And
Trnas. Large Subunit. The Coordinates For The Small
Subunit Are In The Pdb Entry 1yl4.
pdb|2B66|Q Chain Q, 50s Ribosomal Subunit From A Crystal Structure Of Release
Factor Rf1, Trnas And Mrna Bound To The Ribosome. This
File Contains The 50s Subunit From A Crystal Structure
Of Release Factor Rf1, Trnas And Mrna Bound To The
Ribosome And Is Described In Remark 400
pdb|2B9N|Q Chain Q, 50s Ribosomal Subunit From A Crystal Structure Of Release
Factor Rf2, Trnas And Mrna Bound To The Ribosome. This
File Contains The 50s Subunit From A Crystal Structure
Of Release Factor Rf1, Trnas And Mrna Bound To The
Ribosome And Is Described In Remark 400.
pdb|2B9P|Q Chain Q, 50s Ribosomal Subunit From A Crystal Structure Of The
Ribosome In Complex With Trnas And Mrna With A Stop
Codon In The A-Site. This File Contains The 50s Subunit
From A Crystal Structure Of The Ribosome In Complex With
Trnas And Mrna With A Stop Codon In The A-Site And Is
Described In Remark 400
Length = 138
Score = 47.0 bits (110), Expect = 8e-06, Method: Compositional matrix adjust.
Identities = 35/107 (32%), Positives = 51/107 (47%), Gaps = 22/107 (20%)
Query: 29 PKIRIYDVGMKKKGVDEFPFCVHLVSWEKENVSSE-------ALEAARIACNKYMAKFAG 81
P R Y G+ KG+ +F + + ENV + ALEAAR A N+++
Sbjct: 4 PTRREYISGIPGKGIAQFKMGNNTYPAQVENVVEKPVQIRHNALEAARNAANRFV----- 58
Query: 82 KDAFHLRVRVHPFHVLRINKMLSCAGADRLQTGMRGAFGKPQGTCAR 128
+++ R+R PFHV+R ++ GMR FGK GT AR
Sbjct: 59 QNSGKFRIRKFPFHVIR----------EQDGDGMRAPFGKSVGTAAR 95
>pdb|3A9F|A Chain A, Crystal Structure Of The C-Terminal Domain Of Cytochrome
Cz From Chlorobium Tepidum
pdb|3A9F|B Chain B, Crystal Structure Of The C-Terminal Domain Of Cytochrome
Cz From Chlorobium Tepidum
Length = 92
Score = 30.8 bits (68), Expect = 0.63, Method: Compositional matrix adjust.
Identities = 17/46 (36%), Positives = 24/46 (52%)
Query: 135 LLSVRCKDSNSLHAQEALRRAKFKFPGRQKIIVSRKWGFTKFSRSD 180
L+ VRC ++L + L R K+K G+ +IV R GF SD
Sbjct: 33 LVDVRCNKCHTLDSVADLFRTKYKKTGQVNLIVKRMQGFPGSGISD 78
>pdb|1OB0|A Chain A, Kinetic Stabilization Of Bacillus Licheniformis-Amylase
Through Introduction Of Hydrophobic Residues At The
Surface
Length = 483
Score = 30.0 bits (66), Expect = 1.1, Method: Compositional matrix adjust.
Identities = 18/57 (31%), Positives = 26/57 (45%), Gaps = 2/57 (3%)
Query: 136 LSVRCKDSNSLHAQEALRRA--KFKFPGRQKIIVSRKWGFTKFSRSDYLRFKSENRI 190
+ V D N + + E L +A F FPGR KW + F +D+ + NRI
Sbjct: 118 VEVDPADRNRVISGEVLIKAWTHFHFPGRGSTYSDFKWHWYHFDGTDWDESRKLNRI 174
>pdb|1WKI|A Chain A, Solution Structure Of Ribosomal Protein L16 From Thermus
Thermophilus Hb8
pdb|2J01|Q Chain Q, Structure Of The Thermus Thermophilus 70s Ribosome
Complexed With Mrna, Trna And Paromomycin (Part 2 Of 4).
This File Contains The 50s Subunit From Molecule I.
pdb|2J03|Q Chain Q, Structure Of The Thermus Thermophilus 70s Ribosome
Complexed With Mrna, Trna And Paromomycin (Part 4 Of 4).
This File Contains The 50s Subunit From Molecule Ii.
pdb|2HGJ|P Chain P, Crystal Structure Of The 70s Thermus Thermophilus Ribosome
Showing How The 16s 3'-End Mimicks Mrna E And P Codons.
This Entry 2hgj Contains 50s Ribosomal Subunit. The 30s
Ribosomal Subunit Can Be Found In Pdb Entry 2hgi.
pdb|2HGQ|P Chain P, Crystal Structure Of The 70s Thermus Thermophilus Ribosome
With Translocated And Rotated Shine-Dalgarno Duplex.
This Entry 2hgq Contains 50s Ribosomal Subunit. The 30s
Ribosomal Subunit Can Be Found In Pdb Entry 2hgp.
pdb|2HGU|P Chain P, 70s T.Th. Ribosome Functional Complex With Mrna And E- And
P-Site Trnas At 4.5a. This Entry 2hgu Contains 50s
Ribosomal Subunit. The 30s Ribosomal Subunit Can Be
Found In Pdb Entry 2hgr.
pdb|2V47|Q Chain Q, Structure Of The Ribosome Recycling Factor Bound To The
Thermus Thermophilus 70s Ribosome With Mrna, Asl-Phe And
Trna-Fmet (Part 2 Of 4). This File Contains The 50s
Subunit For Molecule 1.
pdb|2V49|Q Chain Q, Structure Of The Ribosome Recycling Factor Bound To The
Thermus Thermophilus 70s Ribosome With Mrna, Asl-Phe And
Trna-Fmet (Part 4 Of 4). This File Contains The 50s
Subunit Of Molecule 2.
pdb|2WDI|Q Chain Q, Structure Of The Thermus Thermophilus 70s Ribosome In
Complex With Mrna, Paromomycin, Acylated A-Site Trna,
Deacylated P-Site Trna, And E-Site Trna. This File
Contains The 50s Subunit For Molecule I.
pdb|2WDJ|Q Chain Q, Structure Of The Thermus Thermophilus 70s Ribosome In
Complex With Mrna, Paromomycin, Acylated A-Site Trna,
Deacylated P-Site Trna, And E-Site Trna. This File
Contains The 50s Subunit For Molecule Ii.
pdb|2WDL|Q Chain Q, Structure Of The Thermus Thermophilus 70s Ribosome In
Complex With Mrna, Paromomycin, Acylated A- And P-Site
Trnas, And E-Site Trna. This File Contains The 50s
Subunit For Molecule I.
pdb|2WDN|Q Chain Q, Structure Of The Thermus Thermophilus 70s Ribosome In
Complex With Mrna, Paromomycin, Acylated A- And P-Site
Trnas, And E-Site Trna. This File Contains The 50s
Subunit For Molecule Ii.
pdb|2WH2|Q Chain Q, Insights Into Translational Termination From The Structure
Of Rf2 Bound To The Ribosome
pdb|2WH4|Q Chain Q, Insights Into Translational Termination From The Structure
Of Rf2 Bound To The Ribosome
pdb|3HUX|Q Chain Q, Structure Of Ef-P Bound To The 70s Ribosome; This File
Contains The 50s Subunit For Molecule I.
pdb|3HUZ|Q Chain Q, Structure Of Ef-P Bound To The 70s Ribosome; This File
Contains The 50s Subunit For Molecule Ii.
pdb|2WRJ|Q Chain Q, The Structure Of The Ribosome With Elongation Factor G
Trapped In The Post-Translocational State (Part 2 Of 4).
pdb|2WRL|Q Chain Q, The Structure Of The Ribosome With Elongation Factor G
Trapped In The Post-Translocational State. (Part 4 Of
4).
pdb|2WRO|Q Chain Q, The Crystal Structure Of The 70s Ribosome Bound To Ef-Tu
And Trna (Part 2 Of 4).
pdb|2WRR|Q Chain Q, The Crystal Structure Of The 70s Ribosome Bound To Ef-Tu
And Trna (Part 4 Of 4).
pdb|3KIR|Q Chain Q, Structure Of Rele Nuclease Bound To The 70s Ribosome
(Precleavage State; Part 2 Of 4)
pdb|3KIT|Q Chain Q, Structure Of Rele Nuclease Bound To The 70s Ribosome
(Precleavage State; Part 4 Of 4)
pdb|3KIW|Q Chain Q, Structure Of Rele Nuclease Bound To The 70s Ribosome
(Postcleavage State; Part 2 Of 4)
pdb|3KIY|Q Chain Q, Structure Of Rele Nuclease Bound To The 70s Ribosome
(Postcleavage State; Part 4 Of 4)
pdb|3KNI|Q Chain Q, The Structures Of Viomycin Bound To The 70s Ribosome. This
File Contains The 50s Subunit For Molecule I
pdb|3KNK|Q Chain Q, The Structures Of Viomycin Bound To The 70s Ribosome. This
File Contains The 50s Subunit For Molecule Ii.
pdb|3KNM|Q Chain Q, The Structures Of Capreomycin Bound To The 70s Ribosome.
Thi Contains The 50s Subunit For Molecule I.
pdb|3KNO|Q Chain Q, The Structures Of Capreomycin Bound To The 70s Ribosome.
Thi Contains The 50s Subunit For Molecule Ii
pdb|3I8F|P Chain P, Elongation Complex Of The 70s Ribosome With Three Trnas
And Entry 3i8f Contains 50s Ribosomal Subunit. The 30s
Ribosoma Can Be Found In Pdb Entry 3i8g. Molecule B In
The Same Asym Unit Is Deposited As 3i8g (30s) And 3i8f
(50s).
pdb|3I8I|P Chain P, Elongation Complex Of The 70s Ribosome With Three Trnas
And Entry 3i8i Contains 50s Ribosomal Subnit. The 30s
Ribosomal Can Be Found In Pdb Entry 3i8h. Molecule A In
The Same Asym Unit Is Deposited As 3i8f (50s) And 3i8g
(30s).
pdb|3I9C|P Chain P, Initiation Complex Of 70s Ribosome With Two Trnas And
Mrna. 3i9c Contains 50s Ribosomal Subunit Of Molecule B.
The 30s Subunit Can Be Found In Pdb Entry 3i9b. Molecule
A In The S Asymmetric Unit Is Deposited As 3i9d (30s)
And 3i9e (50s)
pdb|3I9E|P Chain P, Initiation Complex Of 70s Ribosome With Two Trnas And
Mrna. 3i9e Contains 50s Ribosomal Subunit Of Molecule A.
The 30s Subunit Can Be Found In Pdb Entry 3i9d. Molecule
B In The S Asymmetric Unit Is Deposited As 3i9b (30s)
And 3i9c (50s)
pdb|2X9S|Q Chain Q, Structure Of The 70s Ribosome Bound To Release Factor 2
And A Substrate Analog Provides Insights Into Catalysis
Of Peptide Release
pdb|2X9U|Q Chain Q, Structure Of The 70s Ribosome Bound To Release Factor 2
And A Substrate Analog Provides Insights Into Catalysis
Of Peptide Release
pdb|2XG0|Q Chain Q, Structure Of Cytotoxic Domain Of Colicin E3 Bound To The
70s Ribosome (Part 2 Of 4)
pdb|2XG2|Q Chain Q, Structure Of Cytotoxic Domain Of Colicin E3 Bound To The
70s Ribosome (Part 4 Of 4)
pdb|3OH5|Q Chain Q, Structure Of The Thermus Thermophilus 70s Ribosome
Complexed With Chloramphenicol. This File Contains The
50s Subunit Of One 70s Ribosome. The Entire Crystal
Structure Contains Two 70s Ribosomes.
pdb|3OH7|Q Chain Q, Structure Of The Thermus Thermophilus 70s Ribosome
Complexed With Chloramphenicol. This File Contains The
50s Subunit Of One 70s Ribosome. The Entire Crystal
Structure Contains Two 70s Ribosomes.
pdb|3OHJ|Q Chain Q, Structure Of The Thermus Thermophilus Ribosome Complexed
With Erythromycin. This File Contains The 50s Subunit Of
One 70s Ribosome. The Entire Crystal Structure Contains
Two 70s Ribosomes.
pdb|3OHK|Q Chain Q, Structure Of The Thermus Thermophilus Ribosome Complexed
With Erythromycin. This File Contains The 50s Subunit Of
One 70s Ribosome. The Entire Crystal Structure Contains
Two 70s Ribosomes.
pdb|3OHZ|Q Chain Q, Structure Of The Thermus Thermophilus 70s Ribosome
Complexed With Azithromycin. This File Contains The 50s
Subunit Of One 70s Ribosome. The Entire Crystal
Structure Contains Two 70s Ribosomes.
pdb|3OI1|Q Chain Q, Structure Of The Thermus Thermophilus 70s Ribosome
Complexed With Azithromycin. This File Contains The 50s
Subunit Of One 70s Ribosome. The Entire Crystal
Structure Contains Two 70s Ribosomes.
pdb|3OI3|Q Chain Q, Structure Of The Thermus Thermophilus 70s Ribosome
Complexed With Telithromycin. This File Contains The 50s
Subunit Of One 70s Ribosome. The Entire Crystal
Structure Contains Two 70s Ribosomes.
pdb|3OI5|Q Chain Q, Structure Of The Thermus Thermophilus 70s Ribosome
Complexed With Telithromycin. This File Contains The 50s
Subunit Of One 70s Ribosome. The Entire Crystal
Structure Contains Two 70s Ribosomes.
pdb|2XQE|Q Chain Q, The Structure Of Ef-Tu And Aminoacyl-Trna Bound To The 70s
Ribosome With A Gtp Analog
pdb|2XTG|Q Chain Q, Trna Tranlocation On The 70s Ribosome: The Pre-
Translocational Translocation Intermediate Ti(Pre)
pdb|2XUX|Q Chain Q, Trna Translocation On The 70s Ribosome: The Post-
Translocational Translocation Intermediate Ti(Post)
pdb|2Y0V|Q Chain Q, The Crystal Structure Of Ef-Tu And A9c-Trna-Trp Bound To A
Near-Cognate Codon On The 70s Ribosome
pdb|2Y0X|Q Chain Q, The Crystal Structure Of Ef-Tu And A9c-Trna-Trp Bound To A
Near-Cognate Codon On The 70s Ribosome
pdb|2Y0Z|Q Chain Q, The Crystal Structure Of Ef-Tu And G24a-Trna-Trp Bound To
A Near-Cognate Codon On The 70s Ribosome
pdb|2Y11|Q Chain Q, The Crystal Structure Of Ef-Tu And Trp-Trna-Trp Bound To A
Cognate Codon On The 70s Ribosome.
pdb|2Y13|Q Chain Q, The Crystal Structure Of Ef-Tu And G24a-Trna-Trp Bound To
A Near-Cognate Codon On The 70s Ribosome
pdb|2Y15|Q Chain Q, The Crystal Structure Of Ef-Tu And G24a-Trna-Trp Bound To
A Cognate Codon On The 70s Ribosome.
pdb|2Y17|Q Chain Q, Ef-Tu Complex 3
pdb|2Y19|Q Chain Q, The Crystal Structure Of Ef-Tu And Trp-Trna-Trp Bound To A
Cognate Codon On The 70s Ribosome.
pdb|3ZVP|Q Chain Q, Crystal Structure Of The Hybrid State Of Ribosome In
Complex With The Guanosine Triphosphatase Release Factor
3
pdb|3UXQ|Q Chain Q, The Structure Of Thermorubin In Complex With The 70s
Ribosome From Thermus Thermophilus. This File Contains
The 50s Subunit Of One 70s Ribosome. The Entire Crystal
Structure Contains Two 70s Ribosomes.
pdb|3UXR|Q Chain Q, The Structure Of Thermorubin In Complex With The 70s
Ribosome From Thermus Thermophilus. This File Contains
The 50s Subunit Of One 70s Ribosome. The Entire Crystal
Structure Contains Two 70s Ribosomes.
pdb|3TVE|P Chain P, Crystal Structure Analysis Of Ribosomal Decoding. This
Entry Contains The 50s Ribosomal Subunit Of The First
70s Molecule In The Asymmetric Unit For The Cognate
Trna-Leu Complex
pdb|3TVH|P Chain P, Crystal Structure Analysis Of Ribosomal Decoding. This
Entry Contains The 50s Ribosomal Subunit Of The Second
70s Molecule In The Asymmetric Unit For The Cognate
Trna-Leu Complex
pdb|3UYE|P Chain P, Crystal Structure Analysis Of Ribosomal Decoding. This
Entry Contains The 50s Ribosomal Subunit Of The First
70s Molecule In The Asymmetric Unit For The Near-Cognate
Trna-Leu Complex
pdb|3UYG|P Chain P, Crystal Structure Analysis Of Ribosomal Decoding. This
Entry Contains The 50s Ribosomal Subunit Of The First
70s Molecule In The Asymmetric Unit For The Near-Cognate
Trna-Leu Complex
pdb|3UZ1|P Chain P, Crystal Structure Analysis Of Ribosomal Decoding. This
Entry Contains The 50s Ribosomal Subunit Of The First
70s Molecule In The Asymmetric Unit For The Near-Cognate
Trna-Leu Complex With Paromomycin
pdb|3UZ2|P Chain P, Crystal Structure Analysis Of Ribosomal Decoding. This
Entry Contains The 50s Ribosomal Subunit Of The Second
70s Molecule In The Asymmetric Unit For The Near-Cognate
Trna-Leu Complex With Paromomycin.
pdb|3UZ8|P Chain P, Crystal Structure Analysis Of Ribosomal Decoding. This
Entry Contains The 50s Ribosomal Subunit Of The Second
70s Molecule In The Asymmetric Unit For The Cognate
Trna-Tyr Complex.
pdb|3UZ9|P Chain P, Crystal Structure Analysis Of Ribosomal Decoding. This
Entry Contains The 50s Ribosomal Subunit Of The First
70s Molecule In The Asymmetric Unit For The Cognate
Trna-Tyr Complex.
pdb|3UZF|P Chain P, Crystal Structure Analysis Of Ribosomal Decoding. This
Entry Contains The 50s Ribosomal Subunit Of The First
70s Molecule In The Asymmetric Unit For The Near-Cognate
Trna-Tyr Complex
pdb|3UZH|P Chain P, Crystal Structure Analysis Of Ribosomal Decoding. This
Entry Contains The 50s Ribosomal Subunit Of The Second
70s Molecule In The Asymmetric Unit For The Near-Cognate
Trna-Tyr Complex.
pdb|3UZK|P Chain P, Crystal Structure Analysis Of Ribosomal Decoding. This
Entry Contains The 50s Ribosomal Subunit Of The First
70s Molecule In The Asymmetric Unit For The Near-Cognate
Trna-Tyr Complex With Paromomycin
pdb|3UZN|P Chain P, Crystal Structure Analysis Of Ribosomal Decoding. This
Entry Contains The 50s Ribosomal Subunit Of The Second
70s Molecule In The Asymmetric Unit For The Near-cognate
Trna-tyr Complex With Paromomycin
pdb|4ABS|Q Chain Q, Complex Of Smpb, A Tmrna Fragment And Ef-Tu-Gdp-Kirromycin
With The 70s Ribosome
pdb|4DHA|Q Chain Q, Crystal Structure Of Yaej Bound To The 70s Ribosome
pdb|4DHC|Q Chain Q, Crystal Structure Of Yaej Bound To The 70s Ribosome
pdb|3V23|Q Chain Q, Crystal Structure Of Rmf Bound To The 70s Ribosome. This
Pdb Entry Contains Coordinates For The 50s Subunit Of
The 1st Ribosome In The Asu
pdb|3V25|Q Chain Q, Crystal Structure Of Rmf Bound To The 70s Ribosome. This
Pdb Entry Contains Coordinates For The 50s Subunit Of
The 2nd Ribosome In The Asu
pdb|3V27|Q Chain Q, Crystal Structure Of Hpf Bound To The 70s Ribosome. This
Pdb Entry Contains Coordinates For The 50s Subunit Of
The 1st Ribosome In The Asu
pdb|3V29|Q Chain Q, Crystal Structure Of Hpf Bound To The 70s Ribosome. This
Entry Contains The 50s Subunit Of The 2nd Molecule In
The Asu.
pdb|3V2D|Q Chain Q, Crystal Structure Of Yfia Bound To The 70s Ribosome. This
Pdb Entry Contains Coordinates For The 50s Subunit Of
The 1st Ribosome In The Asu
pdb|3V2F|Q Chain Q, Crystal Structure Of Yfia Bound To The 70s Ribosome. This
Pdb Entry Contains Coordinates For The 50s Subunit Of
The 2nd Ribosome In The Asu
pdb|4G5L|P Chain P, Crystal Structure Of The 70s Ribosome With Tetracycline.
This Entry Contains The 50s Subunit Of Molecule A.
pdb|4G5N|P Chain P, Crystal Structure Of The 70s Ribosome With Tetracycline.
This Entry Contains The 50s Subunit Of Molecule B.
pdb|4G5U|P Chain P, Crystal Structure Of The 70s Ribosome With Tigecycline.
This Entry Contains The 50s Subunit Of Molecule A.
pdb|4G5W|P Chain P, Crystal Structure Of The 70s Ribosome With Tigecycline.
This Entry Contains The 50s Subunit Of Molecule B
Length = 141
Score = 29.6 bits (65), Expect = 1.4, Method: Compositional matrix adjust.
Identities = 36/127 (28%), Positives = 57/127 (44%), Gaps = 17/127 (13%)
Query: 41 KGVDEFPFCVH-LVSWEKENVSSEALEAARIACNKYMAKFAGKDAFHLRVRVHPFHVLRI 99
KG D F + LV+ E ++++ +EAAR+A ++ + G F +R+ P
Sbjct: 22 KGGDYVAFGDYGLVALEPAWITAQQIEAARVAMVRHFRR--GGKIF---IRIFP------ 70
Query: 100 NKMLSCAGADRLQTGMRGAFGKPQGTCARVAIGQVLLSVRCKDSNSLHAQEALRRAKFKF 159
+K + L+ M G +G A V G+V+ V A EALR A K
Sbjct: 71 DKPYT---KKPLEVRMGKGKGNVEGYVAVVKPGRVMFEV--AGVTEEQAMEALRIAGHKL 125
Query: 160 PGRQKII 166
P + KI+
Sbjct: 126 PIKTKIV 132
>pdb|3FIN|Q Chain Q, T. Thermophilus 70s Ribosome In Complex With Mrna, Trnas
And Ef- Tu.Gdp.Kirromycin Ternary Complex, Fitted To A
6.4 A Cryo-Em Map. This File Contains The 50s Subunit
Length = 136
Score = 29.6 bits (65), Expect = 1.5, Method: Compositional matrix adjust.
Identities = 36/127 (28%), Positives = 58/127 (45%), Gaps = 17/127 (13%)
Query: 41 KGVDEFPFCVH-LVSWEKENVSSEALEAARIACNKYMAKFAGKDAFHLRVRVHPFHVLRI 99
KG D F + LV+ E ++++ +EAAR+A ++ + GK + +R+ P
Sbjct: 17 KGGDYVAFGDYGLVALEPAWITAQQIEAARVAMVRHFRR-GGK----IFIRIFP------ 65
Query: 100 NKMLSCAGADRLQTGMRGAFGKPQGTCARVAIGQVLLSVRCKDSNSLHAQEALRRAKFKF 159
+K + L+ M G +G A V G+V+ V A EALR A K
Sbjct: 66 DKPYT---KKPLEVRMGKGKGNVEGYVAVVKPGRVMFEV--AGVTEEQAMEALRIAGHKL 120
Query: 160 PGRQKII 166
P + KI+
Sbjct: 121 PIKTKIV 127
>pdb|1VSA|K Chain K, Crystal Structure Of A 70s Ribosome-Trna Complex Reveals
Functional Interactions And Rearrangements. This File,
1vsa, Contains The 50s Ribosome Subunit. 30s Ribosome
Subunit Is In The File 2ow8
pdb|1VSP|K Chain K, Interactions And Dynamics Of The Shine-Dalgarno Helix In
The 70s Ribosome. This File, 1vsp, Contains The 50s
Ribosome Subunit. 30s Ribosome Subunit Is In The File
2qnh
pdb|3D5B|Q Chain Q, Structural Basis For Translation Termination On The 70s
Ribosome. This File Contains The 50s Subunit Of One 70s
Ribosome. The Entire Crystal Structure Contains Two 70s
Ribosomes As Described In Remark 400.
pdb|3D5D|Q Chain Q, Structural Basis For Translation Termination On The 70s
Ribosome. This File Contains The 50s Subunit Of The
Second 70s Ribosome. The Entire Crystal Structure
Contains Two 70s Ribosomes As Described In Remark 400.
pdb|3F1F|Q Chain Q, Crystal Structure Of A Translation Termination Complex
Formed With Release Factor Rf2. This File Contains The
50s Subunit Of One 70s Ribosome. The Entire Crystal
Structure Contains Two 70s Ribosomes As Described In
Remark 400.
pdb|3F1H|Q Chain Q, Crystal Structure Of A Translation Termination Complex
Formed With Release Factor Rf2. This File Contains The
50s Subunit Of The Second 70s Ribosome. The Entire
Crystal Structure Contains Two 70s Ribosomes As
Described In Remark 400.
pdb|3MRZ|M Chain M, Recognition Of The Amber Stop Codon By Release Factor Rf1.
This Entry 3mrz Contains 50s Ribosomal Subunit. The 30s
Ribosomal Subunit Can Be Found In Pdb Entry 3ms0.
Molecule A In The Same Asymmetric Unit Is Deposited As
3mr8 (50s) And 3ms1 (30s).
pdb|3MS1|M Chain M, Recognition Of The Amber Stop Codon By Release Factor Rf1.
This Entry 3ms1 Contains 50s Ribosomal Subunit. The 30s
Ribosomal Subunit Can Be Found In Pdb Entry 3mr8.
Molecule B In The Same Asymmetric Unit Is Deposited As
3mrz (50s) And 3ms0 (30s)
Length = 141
Score = 28.9 bits (63), Expect = 2.4, Method: Compositional matrix adjust.
Identities = 36/127 (28%), Positives = 57/127 (44%), Gaps = 17/127 (13%)
Query: 41 KGVDEFPFC-VHLVSWEKENVSSEALEAARIACNKYMAKFAGKDAFHLRVRVHPFHVLRI 99
KG D F LV+ E ++++ +EAAR+A ++ + GK + +R+ P
Sbjct: 22 KGGDYVAFGDFGLVALEPAWITAQQIEAARVAMVRHFRR-GGK----IFIRIFP------ 70
Query: 100 NKMLSCAGADRLQTGMRGAFGKPQGTCARVAIGQVLLSVRCKDSNSLHAQEALRRAKFKF 159
+K + L+ M G +G A V G+V+ V A EALR A K
Sbjct: 71 DKPYT---KKPLEVRMGKGKGNVEGYVAVVKPGRVMFEV--AGVTEEQAMEALRIAGHKL 125
Query: 160 PGRQKII 166
P + KI+
Sbjct: 126 PIKTKIV 132
>pdb|3PYO|M Chain M, Crystal Structure Of A Complex Containing Domain 3 From
The Psiv Igr Ires Rna Bound To The 70s Ribosome. This
File Contains The 50s Subunit Of The First 70s Ribosome.
pdb|3PYR|M Chain M, Crystal Structure Of A Complex Containing Domain 3 From
The Psiv Igr Ires Rna Bound To The 70s Ribosome. This
File Contains The 50s Subunit Of The Second 70s
Ribosome.
pdb|3PYT|M Chain M, Crystal Structure Of A Complex Containing Domain 3 Of Crpv
Igr Ires Rna Bound To The 70s Ribosome. This File
Contains The 50s Subunit Of The First 70s Ribosome.
pdb|3PYV|M Chain M, Crystal Structure Of A Complex Containing Domain 3 Of Crpv
Igr Ires Rna Bound To The 70s Ribosome. This File
Contains The 50s Subunit Of The Second 70s Ribosome
Length = 136
Score = 28.5 bits (62), Expect = 2.7, Method: Compositional matrix adjust.
Identities = 36/127 (28%), Positives = 57/127 (44%), Gaps = 17/127 (13%)
Query: 41 KGVDEFPFC-VHLVSWEKENVSSEALEAARIACNKYMAKFAGKDAFHLRVRVHPFHVLRI 99
KG D F LV+ E ++++ +EAAR+A ++ + GK + +R+ P
Sbjct: 17 KGGDYVAFGDFGLVALEPAWITAQQIEAARVAMVRHFRR-GGK----IFIRIFP------ 65
Query: 100 NKMLSCAGADRLQTGMRGAFGKPQGTCARVAIGQVLLSVRCKDSNSLHAQEALRRAKFKF 159
+K + L+ M G +G A V G+V+ V A EALR A K
Sbjct: 66 DKPYT---KKPLEVRMGKGKGNVEGYVAVVKPGRVMFEV--AGVTEEQAMEALRIAGHKL 120
Query: 160 PGRQKII 166
P + KI+
Sbjct: 121 PIKTKIV 127
>pdb|3IVB|A Chain A, Structures Of Spop-Substrate Complexes: Insights Into
Architectures Of Btb-Cul3 Ubiquitin Ligases: Spopmath-
Macroh2asbcpep1
pdb|3IVQ|A Chain A, Structures Of Spop-Substrate Complexes: Insights Into
Molecular Architectures Of Btb-Cul3 Ubiquitin Ligases:
Spopmath-Cisbc2
pdb|3IVQ|B Chain B, Structures Of Spop-Substrate Complexes: Insights Into
Molecular Architectures Of Btb-Cul3 Ubiquitin Ligases:
Spopmath-Cisbc2
pdb|3IVV|A Chain A, Structures Of Spop-Substrate Complexes: Insights Into
Molecular Architectures Of Btb-Cul3 Ubiquitin Ligases:
Spopmath-Pucsbc1_pep1
Length = 145
Score = 28.5 bits (62), Expect = 3.1, Method: Compositional matrix adjust.
Identities = 15/59 (25%), Positives = 29/59 (49%), Gaps = 12/59 (20%)
Query: 135 LLSVRCKDSNSLHAQEALRRAKFKFPGRQKIIVSRKWGFTKFSRSDYLRFKSENRIVPD 193
+L+ + +++ ++ +Q A R + + WGF KF R D+L N ++PD
Sbjct: 85 ILNAKGEETKAMESQRAYR-----------FVQGKDWGFKKFIRRDFL-LDEANGLLPD 131
>pdb|2CR2|A Chain A, Solution Structure Of N-Terminal Domain Of Speckle-Type
Poz Protein
Length = 159
Score = 28.5 bits (62), Expect = 3.3, Method: Compositional matrix adjust.
Identities = 15/59 (25%), Positives = 29/59 (49%), Gaps = 12/59 (20%)
Query: 135 LLSVRCKDSNSLHAQEALRRAKFKFPGRQKIIVSRKWGFTKFSRSDYLRFKSENRIVPD 193
+L+ + +++ ++ +Q A R + + WGF KF R D+L N ++PD
Sbjct: 86 ILNAKGEETKAMESQRAYR-----------FVQGKDWGFKKFIRRDFL-LDEANGLLPD 132
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
0.326 0.138 0.436
Lambda K H
0.267 0.0410 0.140
Matrix: BLOSUM62
Gap Penalties: Existence: 11, Extension: 1
Number of Hits to DB: 6,462,719
Number of Sequences: 62578
Number of extensions: 244683
Number of successful extensions: 607
Number of sequences better than 100.0: 25
Number of HSP's better than 100.0 without gapping: 17
Number of HSP's successfully gapped in prelim test: 8
Number of HSP's that attempted gapping in prelim test: 577
Number of HSP's gapped (non-prelim): 25
length of query: 220
length of database: 14,973,337
effective HSP length: 95
effective length of query: 125
effective length of database: 9,028,427
effective search space: 1128553375
effective search space used: 1128553375
T: 11
A: 40
X1: 15 ( 7.0 bits)
X2: 38 (14.6 bits)
X3: 64 (24.7 bits)
S1: 40 (21.6 bits)
S2: 49 (23.5 bits)