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= 028091
(214 letters)
Database: pdbaa
62,578 sequences; 14,973,337 total letters
Searching..................................................done
>pdb|2NN6|B Chain B, Structure Of The Human Rna Exosome Composed Of Rrp41,
Rrp45, Rrp46, Rrp43, Mtr3, Rrp42, Csl4, Rrp4, And Rrp40
Length = 249
Score = 241 bits (615), Expect = 2e-64, Method: Compositional matrix adjust.
Identities = 111/198 (56%), Positives = 155/198 (78%), Gaps = 1/198 (0%)
Query: 1 MEFVSPEGLRLDGRRPTEMRQLRAEIGNVAKADGSAVFEMGNTKVIAAVYGPREVQ-NKS 59
+E +S +G R+DGRR E+R+++A +G A+ADGSA E GNTK +A VYGP E++ +++
Sbjct: 8 LELLSDQGYRVDGRRAGELRKIQARMGVFAQADGSAYIEQGNTKALAVVYGPHEIRGSRA 67
Query: 60 QQMSDQALVRCEYSMANFSTGDRMRKPKGDRRSTEISLVIRQTMEACILTHLMPRSQIDI 119
+ + D+ALV C+YS A FSTG+R R+P GDR+S E+ L +RQT EA ILT L PRSQIDI
Sbjct: 68 RALPDRALVNCQYSSATFSTGERKRRPHGDRKSCEMGLQLRQTFEAAILTQLHPRSQIDI 127
Query: 120 FVQVLQADGGTRSACINAATLALQDAGIPMRDIVTSCSAGYLNSTPLLDLNYVEDSAGGP 179
+VQVLQADGGT +AC+NAATLA+ DAGIPMRD V +CSAG+++ T L DL++VE++AGGP
Sbjct: 128 YVQVLQADGGTYAACVNAATLAVLDAGIPMRDFVCACSAGFVDGTALADLSHVEEAAGGP 187
Query: 180 DVTVGILPTLDKVTLLQV 197
+ + +LP ++ LL++
Sbjct: 188 QLALALLPASGQIALLEM 205
>pdb|2PNZ|A Chain A, Crystal Structure Of The P. Abyssi Exosome Rnase Ph Ring
Complexed With Udp And Gmp
pdb|2PO0|A Chain A, Crystal Structure Of The P. Abyssi Exosome Rnase Ph Ring
Complexed With Adp In Double Conformation
pdb|2PO1|A Chain A, Crystal Structure Of The P. Abyssi Exosome Rnase Ph Ring
Complexed With A Single Stranded 10-Mer Poly(A) Rna
pdb|2PO2|A Chain A, Crystal Structure Of The P. Abyssi Exosome Rnase Ph Ring
Complexed With Cdp
Length = 249
Score = 199 bits (505), Expect = 1e-51, Method: Compositional matrix adjust.
Identities = 96/197 (48%), Positives = 135/197 (68%), Gaps = 1/197 (0%)
Query: 1 MEFVSPEGLRLDGRRPTEMRQLRAEIGNVAKADGSAVFEMGNTKVIAAVYGPREVQNKSQ 60
++ + G R+DGR+ E+R ++ E+G + A+GSA E G K+IAAVYGPRE+ K
Sbjct: 8 LKLIDENGRRIDGRKKYELRPIKMEVGVLKNANGSAYIEWGKNKIIAAVYGPRELHPKHL 67
Query: 61 QMSDQALVRCEYSMANFSTGDRMRKPKGDRRSTEISLVIRQTMEACILTHLMPRSQIDIF 120
Q D+A++R Y+MA FS +R +KP DRRS EIS VI+ +E ++ + PR+ ID+F
Sbjct: 68 QRPDRAILRVRYNMAPFSVEER-KKPGPDRRSIEISKVIKGALEPALILEMFPRTAIDVF 126
Query: 121 VQVLQADGGTRSACINAATLALQDAGIPMRDIVTSCSAGYLNSTPLLDLNYVEDSAGGPD 180
++VLQAD GTR A I AA+LAL DAGIPMRD+V +C+AG + +LDLN ED+ G D
Sbjct: 127 IEVLQADAGTRVAGITAASLALADAGIPMRDLVAACAAGKIEGEIVLDLNKEEDNYGEAD 186
Query: 181 VTVGILPTLDKVTLLQV 197
V V I+P + +TLLQ+
Sbjct: 187 VPVAIMPLKNDITLLQM 203
>pdb|3L7Z|B Chain B, Crystal Structure Of The S. Solfataricus Archaeal Exosome
pdb|3L7Z|E Chain E, Crystal Structure Of The S. Solfataricus Archaeal Exosome
pdb|3L7Z|H Chain H, Crystal Structure Of The S. Solfataricus Archaeal Exosome
Length = 245
Score = 195 bits (495), Expect = 2e-50, Method: Compositional matrix adjust.
Identities = 89/191 (46%), Positives = 131/191 (68%), Gaps = 1/191 (0%)
Query: 7 EGLRLDGRRPTEMRQLRAEIGNVAKADGSAVFEMGNTKVIAAVYGPREVQNKSQQMSDQA 66
+G R DGR+P E+R ++ E+G + ADGSA+FEMGNTK IAAVYGP+E+ + + D+A
Sbjct: 13 DGKRTDGRKPDELRSIKIELGVLKNADGSAIFEMGNTKAIAAVYGPKEMHPRHLSLPDRA 72
Query: 67 LVRCEYSMANFSTGDRMRKPKGDRRSTEISLVIRQTMEACILTHLMPRSQIDIFVQVLQA 126
++R Y M FST +R + P RR E+S VIR+ +E+ +L L PR+ ID+F ++LQA
Sbjct: 73 VLRVRYHMTPFSTDER-KNPAPSRREIELSKVIREALESAVLVELFPRTAIDVFTEILQA 131
Query: 127 DGGTRSACINAATLALQDAGIPMRDIVTSCSAGYLNSTPLLDLNYVEDSAGGPDVTVGIL 186
D G+R + AA+LAL DAGIPMRD++ + G + +LDLN ED G D+ + ++
Sbjct: 132 DAGSRLVSLMAASLALADAGIPMRDLIAGVAVGKADGVIILDLNETEDMWGEADMPIAMM 191
Query: 187 PTLDKVTLLQV 197
P+L++VTL Q+
Sbjct: 192 PSLNQVTLFQL 202
>pdb|2BR2|B Chain B, Rnase Ph Core Of The Archaeal Exosome
pdb|2BR2|D Chain D, Rnase Ph Core Of The Archaeal Exosome
pdb|2BR2|F Chain F, Rnase Ph Core Of The Archaeal Exosome
pdb|2BR2|H Chain H, Rnase Ph Core Of The Archaeal Exosome
pdb|2BR2|J Chain J, Rnase Ph Core Of The Archaeal Exosome
pdb|2BR2|L Chain L, Rnase Ph Core Of The Archaeal Exosome
pdb|2BR2|N Chain N, Rnase Ph Core Of The Archaeal Exosome
pdb|2BR2|P Chain P, Rnase Ph Core Of The Archaeal Exosome
pdb|2BR2|R Chain R, Rnase Ph Core Of The Archaeal Exosome
pdb|2BR2|T Chain T, Rnase Ph Core Of The Archaeal Exosome
pdb|2BR2|V Chain V, Rnase Ph Core Of The Archaeal Exosome
pdb|2BR2|X Chain X, Rnase Ph Core Of The Archaeal Exosome
pdb|2C37|B Chain B, Rnase Ph Core Of The Archaeal Exosome In Complex With U8
Rna
pdb|2C37|D Chain D, Rnase Ph Core Of The Archaeal Exosome In Complex With U8
Rna
pdb|2C37|F Chain F, Rnase Ph Core Of The Archaeal Exosome In Complex With U8
Rna
pdb|2C37|H Chain H, Rnase Ph Core Of The Archaeal Exosome In Complex With U8
Rna
pdb|2C37|J Chain J, Rnase Ph Core Of The Archaeal Exosome In Complex With U8
Rna
pdb|2C37|L Chain L, Rnase Ph Core Of The Archaeal Exosome In Complex With U8
Rna
pdb|2C37|N Chain N, Rnase Ph Core Of The Archaeal Exosome In Complex With U8
Rna
pdb|2C37|P Chain P, Rnase Ph Core Of The Archaeal Exosome In Complex With U8
Rna
pdb|2C37|R Chain R, Rnase Ph Core Of The Archaeal Exosome In Complex With U8
Rna
pdb|2C37|T Chain T, Rnase Ph Core Of The Archaeal Exosome In Complex With U8
Rna
pdb|2C37|V Chain V, Rnase Ph Core Of The Archaeal Exosome In Complex With U8
Rna
pdb|2C37|X Chain X, Rnase Ph Core Of The Archaeal Exosome In Complex With U8
Rna
pdb|2C38|B Chain B, Rnase Ph Core Of The Archaeal Exosome In Complex With A5
Rna
pdb|2C38|D Chain D, Rnase Ph Core Of The Archaeal Exosome In Complex With A5
Rna
pdb|2C38|F Chain F, Rnase Ph Core Of The Archaeal Exosome In Complex With A5
Rna
pdb|2C38|H Chain H, Rnase Ph Core Of The Archaeal Exosome In Complex With A5
Rna
pdb|2C38|J Chain J, Rnase Ph Core Of The Archaeal Exosome In Complex With A5
Rna
pdb|2C38|L Chain L, Rnase Ph Core Of The Archaeal Exosome In Complex With A5
Rna
pdb|2C38|N Chain N, Rnase Ph Core Of The Archaeal Exosome In Complex With A5
Rna
pdb|2C38|P Chain P, Rnase Ph Core Of The Archaeal Exosome In Complex With A5
Rna
pdb|2C38|R Chain R, Rnase Ph Core Of The Archaeal Exosome In Complex With A5
Rna
pdb|2C38|T Chain T, Rnase Ph Core Of The Archaeal Exosome In Complex With A5
Rna
pdb|2C38|V Chain V, Rnase Ph Core Of The Archaeal Exosome In Complex With A5
Rna
pdb|2C38|X Chain X, Rnase Ph Core Of The Archaeal Exosome In Complex With A5
Rna
pdb|2C39|B Chain B, Rnase Ph Core Of The Archaeal Exosome In Complex With Adp
pdb|2C39|D Chain D, Rnase Ph Core Of The Archaeal Exosome In Complex With Adp
pdb|2C39|F Chain F, Rnase Ph Core Of The Archaeal Exosome In Complex With Adp
pdb|2C39|H Chain H, Rnase Ph Core Of The Archaeal Exosome In Complex With Adp
pdb|2C39|J Chain J, Rnase Ph Core Of The Archaeal Exosome In Complex With Adp
pdb|2C39|L Chain L, Rnase Ph Core Of The Archaeal Exosome In Complex With Adp
pdb|2C39|N Chain N, Rnase Ph Core Of The Archaeal Exosome In Complex With Adp
pdb|2C39|P Chain P, Rnase Ph Core Of The Archaeal Exosome In Complex With Adp
pdb|2C39|R Chain R, Rnase Ph Core Of The Archaeal Exosome In Complex With Adp
pdb|2C39|T Chain T, Rnase Ph Core Of The Archaeal Exosome In Complex With Adp
pdb|2C39|V Chain V, Rnase Ph Core Of The Archaeal Exosome In Complex With Adp
pdb|2C39|X Chain X, Rnase Ph Core Of The Archaeal Exosome In Complex With Adp
Length = 248
Score = 194 bits (494), Expect = 2e-50, Method: Compositional matrix adjust.
Identities = 89/191 (46%), Positives = 131/191 (68%), Gaps = 1/191 (0%)
Query: 7 EGLRLDGRRPTEMRQLRAEIGNVAKADGSAVFEMGNTKVIAAVYGPREVQNKSQQMSDQA 66
+G R DGR+P E+R ++ E+G + ADGSA+FEMGNTK IAAVYGP+E+ + + D+A
Sbjct: 16 DGKRTDGRKPDELRSIKIELGVLKNADGSAIFEMGNTKAIAAVYGPKEMHPRHLSLPDRA 75
Query: 67 LVRCEYSMANFSTGDRMRKPKGDRRSTEISLVIRQTMEACILTHLMPRSQIDIFVQVLQA 126
++R Y M FST +R + P RR E+S VIR+ +E+ +L L PR+ ID+F ++LQA
Sbjct: 76 VLRVRYHMTPFSTDER-KNPAPSRREIELSKVIREALESAVLVELFPRTAIDVFTEILQA 134
Query: 127 DGGTRSACINAATLALQDAGIPMRDIVTSCSAGYLNSTPLLDLNYVEDSAGGPDVTVGIL 186
D G+R + AA+LAL DAGIPMRD++ + G + +LDLN ED G D+ + ++
Sbjct: 135 DAGSRLVSLMAASLALADAGIPMRDLIAGVAVGKADGVIILDLNETEDMWGEADMPIAMM 194
Query: 187 PTLDKVTLLQV 197
P+L++VTL Q+
Sbjct: 195 PSLNQVTLFQL 205
>pdb|2JE6|B Chain B, Structure Of A 9-Subunit Archaeal Exosome
pdb|2JEA|B Chain B, Structure Of A 9-Subunit Archaeal Exosome Bound To Rna
pdb|2JEB|B Chain B, Structure Of A 9-Subunit Archaeal Exosome Bound To Mn Ions
pdb|4BA1|B Chain B, Archaeal Exosome (rrp4-rrp41(d182a)-rrp42) Bound To
Inorganic Phosphate
pdb|4BA2|B Chain B, Archaeal Exosome (rrp4-rrp41(d182a)-rrp42) Bound To
Inorganic Phosphate
Length = 250
Score = 191 bits (486), Expect = 2e-49, Method: Compositional matrix adjust.
Identities = 88/191 (46%), Positives = 130/191 (68%), Gaps = 1/191 (0%)
Query: 7 EGLRLDGRRPTEMRQLRAEIGNVAKADGSAVFEMGNTKVIAAVYGPREVQNKSQQMSDQA 66
+G R DGR+P E+R ++ E+G + ADGSA+FEMGNTK IAAVYGP+E+ + + D+A
Sbjct: 18 DGKRTDGRKPDELRSIKIELGVLKNADGSAIFEMGNTKAIAAVYGPKEMHPRHLSLPDRA 77
Query: 67 LVRCEYSMANFSTGDRMRKPKGDRRSTEISLVIRQTMEACILTHLMPRSQIDIFVQVLQA 126
++R Y M FST +R + P RR E+S VIR+ +E+ +L L PR+ ID+F ++LQA
Sbjct: 78 VLRVRYHMTPFSTDER-KNPAPSRREIELSKVIREALESAVLVELFPRTAIDVFTEILQA 136
Query: 127 DGGTRSACINAATLALQDAGIPMRDIVTSCSAGYLNSTPLLDLNYVEDSAGGPDVTVGIL 186
D G+R + AA+LAL DAGIPMRD++ + G + +LDLN E G D+ + ++
Sbjct: 137 DAGSRLVSLMAASLALADAGIPMRDLIAGVAVGKADGVIILDLNETEAMWGEADMPIAMM 196
Query: 187 PTLDKVTLLQV 197
P+L++VTL Q+
Sbjct: 197 PSLNQVTLFQL 207
>pdb|2WNR|B Chain B, The Structure Of Methanothermobacter Thermautotrophicus
Exosome Core Assembly
pdb|2WNR|D Chain D, The Structure Of Methanothermobacter Thermautotrophicus
Exosome Core Assembly
pdb|2WNR|F Chain F, The Structure Of Methanothermobacter Thermautotrophicus
Exosome Core Assembly
Length = 240
Score = 180 bits (457), Expect = 5e-46, Method: Compositional matrix adjust.
Identities = 91/188 (48%), Positives = 125/188 (66%), Gaps = 1/188 (0%)
Query: 9 LRLDGRRPTEMRQLRAEIGNVAKADGSAVFEMGNTKVIAAVYGPREVQNKSQQMSDQALV 68
+R DGR E+R L+ E G + +ADGS+ E G K++ AVYGPRE Q + Q D+A++
Sbjct: 16 VREDGRAFDELRPLKIEAGILERADGSSYLEFGGNKILVAVYGPREAQIRKLQRPDRAVI 75
Query: 69 RCEYSMANFSTGDRMRKPKGDRRSTEISLVIRQTMEACILTHLMPRSQIDIFVQVLQADG 128
RC Y+MA FS +R R P DRRS EIS + + + ++ PRS ID+F++VL+A+G
Sbjct: 76 RCRYNMAPFSVEERKR-PGPDRRSVEISKITAEALRPALILEKFPRSVIDVFIEVLEAEG 134
Query: 129 GTRSACINAATLALQDAGIPMRDIVTSCSAGYLNSTPLLDLNYVEDSAGGPDVTVGILPT 188
GTR A I AA++AL DAGIPMRD+V +C+AG + +LDL+ ED G DV V ILP
Sbjct: 135 GTRCAGITAASVALADAGIPMRDMVVACAAGKVGDQVVLDLSEEEDKEGQADVPVAILPR 194
Query: 189 LDKVTLLQ 196
++TLLQ
Sbjct: 195 TREITLLQ 202
>pdb|2BA0|F Chain F, Archaeal Exosome Core
pdb|2BA0|E Chain E, Archaeal Exosome Core
pdb|2BA0|D Chain D, Archaeal Exosome Core
pdb|2BA1|D Chain D, Archaeal Exosome Core
pdb|2BA1|E Chain E, Archaeal Exosome Core
pdb|2BA1|F Chain F, Archaeal Exosome Core
Length = 258
Score = 174 bits (441), Expect = 4e-44, Method: Compositional matrix adjust.
Identities = 91/194 (46%), Positives = 127/194 (65%), Gaps = 4/194 (2%)
Query: 7 EGLRLDGRRPTEMRQLRAEIGNVAKADGSAVFEMGNTKVIAAVYGPREVQNKSQQMSDQA 66
+GLRLDGR+ E+R ++ E + +ADGS EMG KVIAAV+GPREV + Q +A
Sbjct: 14 DGLRLDGRKFDELRPIKIEASVLKRADGSCYLEMGKNKVIAAVFGPREVHPRHLQDPSKA 73
Query: 67 LVRCEYSMANFSTGDRMRKPKGDRRSTEISLVIRQTMEACILTHLMPRSQIDIFVQVLQA 126
++R Y+MA FS +R R P DRRS EIS V ++ EA I+ L PRS IDIFV+VLQA
Sbjct: 74 IIRYRYNMAPFSVEERKR-PGPDRRSIEISKVSKEAFEAVIMKELFPRSAIDIFVEVLQA 132
Query: 127 DGGTRSACINAATLALQDAGIPMRDIVTSCSAGYLNSTPLLDLNYVEDSAGGPDVTVGIL 186
D G+R+AC+NAA++AL DAG+PM+ ++TS + G + +LD ED+ G D+ L
Sbjct: 133 DAGSRTACLNAASVALVDAGVPMKGMITSVAVGKADGQLVLDPMKEEDNFGEADMPFAFL 192
Query: 187 ---PTLDKVTLLQV 197
++ + LLQ+
Sbjct: 193 IRNGKIESIALLQM 206
>pdb|3M7N|D Chain D, Archaeoglobus Fulgidus Exosome With Rna Bound To The
Active Site
pdb|3M7N|E Chain E, Archaeoglobus Fulgidus Exosome With Rna Bound To The
Active Site
pdb|3M7N|F Chain F, Archaeoglobus Fulgidus Exosome With Rna Bound To The
Active Site
pdb|3M85|D Chain D, Archaeoglobus Fulgidus Exosome Y70a With Rna Bound To The
Active Site
pdb|3M85|E Chain E, Archaeoglobus Fulgidus Exosome Y70a With Rna Bound To The
Active Site
pdb|3M85|F Chain F, Archaeoglobus Fulgidus Exosome Y70a With Rna Bound To The
Active Site
Length = 258
Score = 174 bits (440), Expect = 4e-44, Method: Compositional matrix adjust.
Identities = 91/194 (46%), Positives = 127/194 (65%), Gaps = 4/194 (2%)
Query: 7 EGLRLDGRRPTEMRQLRAEIGNVAKADGSAVFEMGNTKVIAAVYGPREVQNKSQQMSDQA 66
+GLRLDGR+ E+R ++ E + +ADGS EMG KVIAAV+GPREV + Q +A
Sbjct: 14 DGLRLDGRKFDELRPIKIEASVLKRADGSCYLEMGKNKVIAAVFGPREVHPEHLQDPSKA 73
Query: 67 LVRCEYSMANFSTGDRMRKPKGDRRSTEISLVIRQTMEACILTHLMPRSQIDIFVQVLQA 126
++R Y+MA FS +R R P DRRS EIS V ++ EA I+ L PRS IDIFV+VLQA
Sbjct: 74 IIRYRYNMAPFSVEERKR-PGPDRRSIEISKVSKEAFEAVIMKELFPRSAIDIFVEVLQA 132
Query: 127 DGGTRSACINAATLALQDAGIPMRDIVTSCSAGYLNSTPLLDLNYVEDSAGGPDVTVGIL 186
D G+R+AC+NAA++AL DAG+PM+ ++TS + G + +LD ED+ G D+ L
Sbjct: 133 DAGSRTACLNAASVALVDAGVPMKGMITSVAVGKADGQLVLDPMKEEDNFGEADMPFAFL 192
Query: 187 ---PTLDKVTLLQV 197
++ + LLQ+
Sbjct: 193 IRNGKIESIALLQM 206
>pdb|4IFD|B Chain B, Crystal Structure Of An 11-subunit Eukaryotic Exosome
Complex Bound To Rna
Length = 248
Score = 145 bits (366), Expect = 1e-35, Method: Compositional matrix adjust.
Identities = 81/199 (40%), Positives = 121/199 (60%), Gaps = 3/199 (1%)
Query: 1 MEFVSPEGLRLDGRRPTEMRQLRAEIG-NVAKADGSAVFEMGNTKVIAAVYGPREVQNKS 59
+E SPEGLRLDGRR E+R+ + I + ADGS+ E GN K+I V GP+E + KS
Sbjct: 6 LEIYSPEGLRLDGRRWNELRRFESSINTHPHAADGSSYMEQGNNKIITLVKGPKEPRLKS 65
Query: 60 QQMSDQALVRCEYSMANFSTGDRMRKP-KGDRRSTEISLVIRQTMEACILTHLMPRSQID 118
Q + +AL+ ++ FS +R + K +RR EI + + E ++ ++ PR+ ID
Sbjct: 66 QMDTSKALLNVSVNITKFSKFERSKSSHKNERRVLEIQTSLVRMFEKNVMLNIYPRTVID 125
Query: 119 IFVQVLQADGGTRSACINAATLALQDAGIPMRDIVTSCSAGYLNSTPLLDLNYVEDSAGG 178
I + VL+ DGG + IN TLAL DAGI M D ++ S G ++TPLLD N +E++A
Sbjct: 126 IEIHVLEQDGGIMGSLINGITLALIDAGISMFDYISGISVGLYDTTPLLDTNSLEENAMS 185
Query: 179 PDVTVGILPTLDKVTLLQV 197
VT+G++ +K++LL V
Sbjct: 186 T-VTLGVVGKSEKLSLLLV 203
>pdb|2WP8|B Chain B, Yeast Rrp44 Nuclease
Length = 246
Score = 145 bits (366), Expect = 2e-35, Method: Compositional matrix adjust.
Identities = 81/199 (40%), Positives = 121/199 (60%), Gaps = 3/199 (1%)
Query: 1 MEFVSPEGLRLDGRRPTEMRQLRAEIG-NVAKADGSAVFEMGNTKVIAAVYGPREVQNKS 59
+E SPEGLRLDGRR E+R+ + I + ADGS+ E GN K+I V GP+E + KS
Sbjct: 4 LEIYSPEGLRLDGRRWNELRRFESSINTHPHAADGSSYMEQGNNKIITLVKGPKEPRLKS 63
Query: 60 QQMSDQALVRCEYSMANFSTGDRMRKP-KGDRRSTEISLVIRQTMEACILTHLMPRSQID 118
Q + +AL+ ++ FS +R + K +RR EI + + E ++ ++ PR+ ID
Sbjct: 64 QMDTSKALLNVSVNINKFSKFERSKSSHKNERRVLEIQTSLVRMFEKNVMLNIYPRTVID 123
Query: 119 IFVQVLQADGGTRSACINAATLALQDAGIPMRDIVTSCSAGYLNSTPLLDLNYVEDSAGG 178
I + VL+ DGG + IN TLAL DAGI M D ++ S G ++TPLLD N +E++A
Sbjct: 124 IEIHVLEQDGGIMGSLINGITLALIDAGISMFDYISGISVGLYDTTPLLDTNSLEENAMS 183
Query: 179 PDVTVGILPTLDKVTLLQV 197
VT+G++ +K++LL V
Sbjct: 184 T-VTLGVVGKSEKLSLLLV 201
>pdb|1R6M|A Chain A, Crystal Structure Of The Trna Processing Enzyme Rnase Ph
From Pseudomonas Aeruginosa In Complex With Phosphate
Length = 239
Score = 89.4 bits (220), Expect = 2e-18, Method: Compositional matrix adjust.
Identities = 64/193 (33%), Positives = 97/193 (50%), Gaps = 24/193 (12%)
Query: 10 RLDGRRPTEMRQLRAEIGNVAKADGSAVFEMGNTKVIAAVYG----PREVQNKSQQMSDQ 65
R GR ++R +R A+GS + E G+TKVI V PR ++ + Q
Sbjct: 3 RPSGRAADQLRPIRITRHYTKHAEGSVLVEFGDTKVICTVSAESGVPRFLKGQGQ----- 57
Query: 66 ALVRCEYSMANFSTGDRMRKP----KGDRRSTEISLVIRQTMEACILTHLMPRSQIDIFV 121
+ EY M STG+R ++ K R+ EI +I +++ A + + + + I
Sbjct: 58 GWLTAEYGMLPRSTGERNQREASRGKQGGRTLEIQRLIGRSLRAALDLSKLGENTLYIDC 117
Query: 122 QVLQADGGTRSACINAATLALQDA-----------GIPMRDIVTSCSAGYLNSTPLLDLN 170
V+QADGGTR+A I AT+AL DA G P++ +V + S G P+LDL+
Sbjct: 118 DVIQADGGTRTASITGATVALIDALAVLKKRGALKGNPLKQMVAAVSVGIYQGVPVLDLD 177
Query: 171 YVEDSAGGPDVTV 183
Y+EDSA D+ V
Sbjct: 178 YLEDSAAETDLNV 190
>pdb|1R6L|A Chain A, Crystal Structure Of The Trna Processing Enzyme Rnase Ph
From Pseudomonas Aeruginosa
Length = 239
Score = 85.9 bits (211), Expect = 2e-17, Method: Compositional matrix adjust.
Identities = 63/193 (32%), Positives = 95/193 (49%), Gaps = 24/193 (12%)
Query: 10 RLDGRRPTEMRQLRAEIGNVAKADGSAVFEMGNTKVIAAVYG----PREVQNKSQQMSDQ 65
R GR ++R +R A+GS + E G+TKVI V PR ++ + Q
Sbjct: 3 RPSGRAADQLRPIRITRHYTKHAEGSVLVEFGDTKVICTVSAESGVPRFLKGQGQ----- 57
Query: 66 ALVRCEYSMANFSTGDRMRKP----KGDRRSTEISLVIRQTMEACILTHLMPRSQIDIFV 121
+ EY STG+R ++ K R+ EI +I +++ A + + + + I
Sbjct: 58 GWLTAEYGXLPRSTGERNQREASRGKQGGRTLEIQRLIGRSLRAALDLSKLGENTLYIDC 117
Query: 122 QVLQADGGTRSACINAATLALQDA-----------GIPMRDIVTSCSAGYLNSTPLLDLN 170
V+QADGGTR+A I AT+AL DA G P++ V + S G P+LDL+
Sbjct: 118 DVIQADGGTRTASITGATVALIDALAVLKKRGALKGNPLKQXVAAVSVGIYQGVPVLDLD 177
Query: 171 YVEDSAGGPDVTV 183
Y+EDSA D+ V
Sbjct: 178 YLEDSAAETDLNV 190
>pdb|1UDN|A Chain A, Crystal Structure Of The Trna Processing Enzyme Rnase Ph
From Aquifex Aeolicus
Length = 255
Score = 78.2 bits (191), Expect = 3e-15, Method: Compositional matrix adjust.
Identities = 64/191 (33%), Positives = 95/191 (49%), Gaps = 18/191 (9%)
Query: 9 LRLDGRRPTEMRQLRAEIGNVAKADGSAVFEMGNTKVIAAVYGPREVQNKSQQMSDQALV 68
+R DGR+ ++R + + + +GS + G TKVI V N + Q +
Sbjct: 1 MRSDGRKEDQLRPVSIQRDFLEYPEGSCLISFGKTKVICTASVIENVPNWLKGKG-QGWI 59
Query: 69 RCEYSMANFSTGDR-MRKPKGDR---RSTEISLVIRQTMEACI-LTHLMPRSQIDIFVQV 123
EYSM +T R +R+ R R+ EI +I + M + LT + R+ I + V
Sbjct: 60 TAEYSMLPRATQQRTIRESVQGRIGGRTHEIQRMIGRAMRTAVELTKIGERT-IWVDCDV 118
Query: 124 LQADGGTRSACINAATLALQDAGI-----------PMRDIVTSCSAGYLNSTPLLDLNYV 172
+QADGGTR+A I A +A+ DA I P++D V + S G +N LLDLN+
Sbjct: 119 IQADGGTRTAAITGAFVAVADAIIKLHKEGIIEETPIKDFVAAVSVGIVNDRILLDLNFE 178
Query: 173 EDSAGGPDVTV 183
EDSA D+ V
Sbjct: 179 EDSAAQVDMNV 189
>pdb|2NN6|D Chain D, Structure Of The Human Rna Exosome Composed Of Rrp41,
Rrp45, Rrp46, Rrp43, Mtr3, Rrp42, Csl4, Rrp4, And Rrp40
Length = 237
Score = 76.6 bits (187), Expect = 8e-15, Method: Compositional matrix adjust.
Identities = 47/138 (34%), Positives = 75/138 (54%), Gaps = 18/138 (13%)
Query: 19 MRQLRAEIGNVAKADGSAVFEMGNTKVIAAVYGPREVQNKSQQMSDQA----LVRCEYSM 74
+R E +++ DGSA F G+T V+A VYGP EV+ S+++ ++A ++R + +
Sbjct: 30 LRHFACEQNLLSRPDGSASFLQGDTSVLAGVYGPAEVK-VSKEIFNKATLEVILRPKIGL 88
Query: 75 ANFSTGDRMRKPKGDRRSTEISLVIRQTMEACILTHLMPRSQIDIFVQVLQADGGTRSAC 134
+ R R +IR T EA +L L PR+ I + +QV+ G + C
Sbjct: 89 PGVAEKSRER-------------LIRNTCEAVVLGTLHPRTSITVVLQVVSDAGSLLACC 135
Query: 135 INAATLALQDAGIPMRDI 152
+NAA +AL DAG+PMR +
Sbjct: 136 LNAACMALVDAGVPMRAL 153
>pdb|2NN6|F Chain F, Structure Of The Human Rna Exosome Composed Of Rrp41,
Rrp45, Rrp46, Rrp43, Mtr3, Rrp42, Csl4, Rrp4, And Rrp40
Length = 272
Score = 76.6 bits (187), Expect = 9e-15, Method: Compositional matrix adjust.
Identities = 60/194 (30%), Positives = 98/194 (50%), Gaps = 15/194 (7%)
Query: 14 RRPTEMRQLRAEIGNVAKADGSAVFEMGNTKVIAAVYGPREVQNKSQQMSD--------- 64
R PT +R + A G +++A GSA E G TKV+ AV GPR+ + +
Sbjct: 31 RDPTRLRPVYARAGLLSQAKGSAYLEAGGTKVLCAVSGPRQAEGGERGGGPAGAGGEAPA 90
Query: 65 --QALVRCEYSMANFSTGDRMRKPKGDRRSTEISLVIRQTMEACILTHLMPRSQIDIFVQ 122
+ + C++ A F+ G R R P G E++L +++ +E + PR+Q+++
Sbjct: 91 ALRGRLLCDFRRAPFA-GRRRRAPPGGCEERELALALQEALEPAVRLGRYPRAQLEVSAL 149
Query: 123 VLQADGGTRSACINAATLALQDAGIPMRDIVTSCS---AGYLNSTPLLDLNYVEDSAGGP 179
+L+ G +A + AA LAL DAG+ M D+V C A T LLD +E+
Sbjct: 150 LLEDGGSALAAALTAAALALADAGVEMYDLVVGCGLSLAPGPAPTWLLDPTRLEEERAAA 209
Query: 180 DVTVGILPTLDKVT 193
+TV ++P L++V
Sbjct: 210 GLTVALMPVLNQVA 223
>pdb|1UDQ|A Chain A, Crystal Structure Of The Trna Processing Enzyme Rnase Ph
T125a Mutant From Aquifex Aeolicus
Length = 255
Score = 76.3 bits (186), Expect = 1e-14, Method: Compositional matrix adjust.
Identities = 63/191 (32%), Positives = 94/191 (49%), Gaps = 18/191 (9%)
Query: 9 LRLDGRRPTEMRQLRAEIGNVAKADGSAVFEMGNTKVIAAVYGPREVQNKSQQMSDQALV 68
+R DGR+ ++R + + + +GS + G TKVI V N + Q +
Sbjct: 1 MRSDGRKEDQLRPVSIQRDFLEYPEGSCLISFGKTKVICTASVIENVPNWLKGKG-QGWI 59
Query: 69 RCEYSMANFSTGDR-MRKPKGDR---RSTEISLVIRQTMEACI-LTHLMPRSQIDIFVQV 123
EYSM +T R +R+ R R+ EI +I + M + LT + R+ I + V
Sbjct: 60 TAEYSMLPRATQQRTIRESVQGRIGGRTHEIQRMIGRAMRTAVELTKIGERT-IWVDCDV 118
Query: 124 LQADGGTRSACINAATLALQDAGI-----------PMRDIVTSCSAGYLNSTPLLDLNYV 172
+QADGG R+A I A +A+ DA I P++D V + S G +N LLDLN+
Sbjct: 119 IQADGGARTAAITGAFVAVADAIIKLHKEGIIEETPIKDFVAAVSVGIVNDRILLDLNFE 178
Query: 173 EDSAGGPDVTV 183
EDSA D+ V
Sbjct: 179 EDSAAQVDMNV 189
>pdb|1UDO|A Chain A, Crystal Structure Of The Trna Processing Enzyme Rnase Ph
R86a Mutant From Aquifex Aeolicus
Length = 255
Score = 75.9 bits (185), Expect = 2e-14, Method: Compositional matrix adjust.
Identities = 62/191 (32%), Positives = 92/191 (48%), Gaps = 18/191 (9%)
Query: 9 LRLDGRRPTEMRQLRAEIGNVAKADGSAVFEMGNTKVIAAVYGPREVQNKSQQMSDQALV 68
+R DGR+ ++R + + + +GS + G TKVI V N + Q +
Sbjct: 1 MRSDGRKEDQLRPVSIQRDFLEYPEGSCLISFGKTKVICTASVIENVPNWLKGKG-QGWI 59
Query: 69 RCEYSMANFSTGDRMRKPKGDRR----STEISLVIRQTMEACI-LTHLMPRSQIDIFVQV 123
EYSM +T R + R + EI +I + M + LT + R+ I + V
Sbjct: 60 TAEYSMLPRATQQRTIRESVQGRIGGATHEIQRMIGRAMRTAVELTKIGERT-IWVDCDV 118
Query: 124 LQADGGTRSACINAATLALQDAGI-----------PMRDIVTSCSAGYLNSTPLLDLNYV 172
+QADGGTR+A I A +A+ DA I P++D V + S G +N LLDLN+
Sbjct: 119 IQADGGTRTAAITGAFVAVADAIIKLHKEGIIEETPIKDFVAAVSVGIVNDRILLDLNFE 178
Query: 173 EDSAGGPDVTV 183
EDSA D+ V
Sbjct: 179 EDSAAQVDMNV 189
>pdb|1UDS|A Chain A, Crystal Structure Of The Trna Processing Enzyme Rnase Ph
R126a Mutant From Aquifex Aeolicus
Length = 255
Score = 75.1 bits (183), Expect = 3e-14, Method: Compositional matrix adjust.
Identities = 63/191 (32%), Positives = 94/191 (49%), Gaps = 18/191 (9%)
Query: 9 LRLDGRRPTEMRQLRAEIGNVAKADGSAVFEMGNTKVIAAVYGPREVQNKSQQMSDQALV 68
+R DGR+ ++R + + + +GS + G TKVI V N + Q +
Sbjct: 1 MRSDGRKEDQLRPVSIQRDFLEYPEGSCLISFGKTKVICTASVIENVPNWLKGKG-QGWI 59
Query: 69 RCEYSMANFSTGDR-MRKPKGDR---RSTEISLVIRQTMEACI-LTHLMPRSQIDIFVQV 123
EYSM +T R +R+ R R+ EI +I + M + LT + R+ I + V
Sbjct: 60 TAEYSMLPRATQQRTIRESVQGRIGGRTHEIQRMIGRAMRTAVELTKIGERT-IWVDCDV 118
Query: 124 LQADGGTRSACINAATLALQDAGI-----------PMRDIVTSCSAGYLNSTPLLDLNYV 172
+QADGGT +A I A +A+ DA I P++D V + S G +N LLDLN+
Sbjct: 119 IQADGGTATAAITGAFVAVADAIIKLHKEGIIEETPIKDFVAAVSVGIVNDRILLDLNFE 178
Query: 173 EDSAGGPDVTV 183
EDSA D+ V
Sbjct: 179 EDSAAQVDMNV 189
>pdb|3DD6|A Chain A, Crystal Structure Of Rph, An Exoribonuclease From Bacillus
Anthracis At 1.7 A Resolution
Length = 255
Score = 75.1 bits (183), Expect = 3e-14, Method: Compositional matrix adjust.
Identities = 57/191 (29%), Positives = 91/191 (47%), Gaps = 17/191 (8%)
Query: 9 LRLDGRRPTEMRQLRAEIGNVAKADGSAVFEMGNTKVIAAVYGPREVQNKSQQMSDQALV 68
+R+DGR TE+R + + +GS + E+G+TKVI + V + + V
Sbjct: 11 MRVDGREKTELRHIHIHTNYLKHPEGSVLIEVGDTKVICSATIEERVP-PFMRGEGKGWV 69
Query: 69 RCEYSMANFSTGDRM----RKPKGDRRSTEISLVIRQTMEACILTHLMPRSQIDIFVQVL 124
EY+M +T R K K R+ EI +I + + A + + + I V+
Sbjct: 70 TAEYAMIPRATEQRTIRESSKGKVTGRTMEIQRLIGRALRAVVDLEALGERTVWIDCDVI 129
Query: 125 QADGGTRSACINAATLAL-----------QDAGIPMRDIVTSCSAGYLNSTP-LLDLNYV 172
QADGGTR+A I A +A+ + + IP++D + + S G + +LDLNY
Sbjct: 130 QADGGTRTASITGAYVAMVLAFEKLLQAEKVSKIPVKDYLAATSVGIVEEQGVVLDLNYA 189
Query: 173 EDSAGGPDVTV 183
EDS D+ V
Sbjct: 190 EDSKADVDMNV 200
>pdb|3HKM|A Chain A, Crystal Structure Of Rice(Oryza Sativa) Rrp46
pdb|3HKM|B Chain B, Crystal Structure Of Rice(Oryza Sativa) Rrp46
pdb|3HKM|C Chain C, Crystal Structure Of Rice(Oryza Sativa) Rrp46
Length = 246
Score = 69.7 bits (169), Expect = 1e-12, Method: Compositional matrix adjust.
Identities = 46/169 (27%), Positives = 80/169 (47%), Gaps = 11/169 (6%)
Query: 7 EGLRLDGRRPTEMRQLRAEIGNVAKADGSAVFEMGNTKVIAAVYGPREVQNKSQQMSDQA 66
E R DGR P ++R + +A GSA + G+T V+AAVYGP+ K + ++A
Sbjct: 2 EESRADGRNPNQLRPFSCTRNPLDRAHGSARWAQGDTIVLAAVYGPKPGTRKGEN-PEKA 60
Query: 67 LVRCEYSMANFSTGDRMRKPKGDRRSTEISLVIRQTMEACILTHLMPRSQIDIFVQVLQA 126
+ + G ++ E + +++T+++ L + P + + +QV+
Sbjct: 61 SIEVVWKPMTGQIG---------KQEKEYEMTLKRTLQSICLLTVHPNTTTSVILQVVGN 111
Query: 127 DGGTRSACINAATLALQDAGIPMRDIVTSCSAGYL-NSTPLLDLNYVED 174
DG INA AL AGIP++ + + G L + +LD N E+
Sbjct: 112 DGSLLPCAINACCAALVFAGIPLKHLAVAIGCGVLEDGEVILDTNKAEE 160
>pdb|1OYP|A Chain A, Crystal Structure Of The Phosphorolytic Exoribonuclease
Rnase Ph From Bacillus Subtilis
pdb|1OYP|B Chain B, Crystal Structure Of The Phosphorolytic Exoribonuclease
Rnase Ph From Bacillus Subtilis
pdb|1OYP|C Chain C, Crystal Structure Of The Phosphorolytic Exoribonuclease
Rnase Ph From Bacillus Subtilis
pdb|1OYP|D Chain D, Crystal Structure Of The Phosphorolytic Exoribonuclease
Rnase Ph From Bacillus Subtilis
pdb|1OYP|E Chain E, Crystal Structure Of The Phosphorolytic Exoribonuclease
Rnase Ph From Bacillus Subtilis
pdb|1OYP|F Chain F, Crystal Structure Of The Phosphorolytic Exoribonuclease
Rnase Ph From Bacillus Subtilis
pdb|1OYR|A Chain A, Crystal Structure Of The Phosphorolytic Exoribonuclease
Rnase Ph From Bacillus Subtilis
pdb|1OYR|B Chain B, Crystal Structure Of The Phosphorolytic Exoribonuclease
Rnase Ph From Bacillus Subtilis
pdb|1OYR|C Chain C, Crystal Structure Of The Phosphorolytic Exoribonuclease
Rnase Ph From Bacillus Subtilis
pdb|1OYR|D Chain D, Crystal Structure Of The Phosphorolytic Exoribonuclease
Rnase Ph From Bacillus Subtilis
pdb|1OYR|E Chain E, Crystal Structure Of The Phosphorolytic Exoribonuclease
Rnase Ph From Bacillus Subtilis
pdb|1OYR|F Chain F, Crystal Structure Of The Phosphorolytic Exoribonuclease
Rnase Ph From Bacillus Subtilis
Length = 245
Score = 68.2 bits (165), Expect = 3e-12, Method: Compositional matrix adjust.
Identities = 61/194 (31%), Positives = 90/194 (46%), Gaps = 23/194 (11%)
Query: 9 LRLDGRRPTEMRQLRAEIGNVAKADGSAVFEMGNTKVIAAVYGPREVQNKSQQM---SDQ 65
+R DGR+ E+R + ++ ++ +GS + GNTKVI V+++ +
Sbjct: 1 MRHDGRQHDELRPITFDLDFISHPEGSVLITAGNTKVICNA----SVEDRVPPFLRGGGK 56
Query: 66 ALVRCEYSMANFSTGDRM----RKPKGDRRSTEISLVIRQTMEACILTHLMPRSQIDIFV 121
+ EYSM +T R K K R+ EI +I + + A + + I I
Sbjct: 57 GWITAEYSMLPRATNQRTIRESSKGKISGRTMEIQRLIGRALRAVVDLEKLGERTIWIDC 116
Query: 122 QVLQADGGTRSACINAATLA-------LQDAGI----PMRDIVTSCSAGYLNSTP-LLDL 169
V+QADGGTR+A I A LA L AG P+ D + + S G LLDL
Sbjct: 117 DVIQADGGTRTASITGAFLAMAIAIGKLIKAGTIKTNPITDFLAAISVGIDKEQGILLDL 176
Query: 170 NYVEDSAGGPDVTV 183
NY EDS+ D+ V
Sbjct: 177 NYEEDSSAEVDMNV 190
>pdb|1OYS|A Chain A, Crystal Structure Of The Phosphorolytic Exoribonuclease
Rnase Ph From Bacillus Subtilis
Length = 245
Score = 67.8 bits (164), Expect = 5e-12, Method: Compositional matrix adjust.
Identities = 61/194 (31%), Positives = 89/194 (45%), Gaps = 23/194 (11%)
Query: 9 LRLDGRRPTEMRQLRAEIGNVAKADGSAVFEMGNTKVIAAVYGPREVQNKSQQM---SDQ 65
+R DGR+ E+R + ++ ++ +GS + GNTKVI V+++ +
Sbjct: 1 MRHDGRQHDELRPITFDLDFISHPEGSVLITAGNTKVICNA----SVEDRVPPFLRGGGK 56
Query: 66 ALVRCEYSM----ANFSTGDRMRKPKGDRRSTEISLVIRQTMEACILTHLMPRSQIDIFV 121
+ EYSM N T K K R+ EI +I + + A + + I I
Sbjct: 57 GWITAEYSMLPQATNQQTIQESSKGKISGRTMEIQRLIGRALRAVVDLEKLGERTIWIDC 116
Query: 122 QVLQADGGTRSACINAATLA-------LQDAGI----PMRDIVTSCSAGYLNSTP-LLDL 169
V+QADGGTR+A I A LA L AG P+ D + + S G LLDL
Sbjct: 117 DVIQADGGTRTASITGAFLAMAIAIGKLIKAGTIKTNPITDFLAAISVGIDKEQGILLDL 176
Query: 170 NYVEDSAGGPDVTV 183
NY EDS+ D+ V
Sbjct: 177 NYEEDSSAEVDMNV 190
>pdb|3B4T|A Chain A, Crystal Structure Of Mycobacterium Tuberculosis Rnase Ph,
The Mycobacterium Tuberculosis Structural Genomics
Consortium Target Rv1340
pdb|3B4T|B Chain B, Crystal Structure Of Mycobacterium Tuberculosis Rnase Ph,
The Mycobacterium Tuberculosis Structural Genomics
Consortium Target Rv1340
pdb|3B4T|C Chain C, Crystal Structure Of Mycobacterium Tuberculosis Rnase Ph,
The Mycobacterium Tuberculosis Structural Genomics
Consortium Target Rv1340
pdb|3B4T|D Chain D, Crystal Structure Of Mycobacterium Tuberculosis Rnase Ph,
The Mycobacterium Tuberculosis Structural Genomics
Consortium Target Rv1340
pdb|3B4T|E Chain E, Crystal Structure Of Mycobacterium Tuberculosis Rnase Ph,
The Mycobacterium Tuberculosis Structural Genomics
Consortium Target Rv1340
pdb|3B4T|F Chain F, Crystal Structure Of Mycobacterium Tuberculosis Rnase Ph,
The Mycobacterium Tuberculosis Structural Genomics
Consortium Target Rv1340
Length = 262
Score = 66.6 bits (161), Expect = 9e-12, Method: Compositional matrix adjust.
Identities = 59/190 (31%), Positives = 88/190 (46%), Gaps = 17/190 (8%)
Query: 10 RLDGRRPTEMRQLRAEIGNVAKADGSAVFEMGNTKVIAAVYGPREVQNKSQQMSDQALVR 69
R DGR E+R + G GS + E G+TKV+ V + ++ + +
Sbjct: 7 REDGRLDHELRPVIITRGFTENPAGSVLIEFGHTKVLCTASVTEGVP-RWRKATGLGWLT 65
Query: 70 CEYSM---ANFSTGDRMR-KPKGDRRSTEISLVIRQTMEACILTHLMPRSQIDIFVQVLQ 125
EY+M A S DR + + R+ EIS +I +++ ACI + + I I VLQ
Sbjct: 66 AEYAMLPSATHSRSDRESVRGRLSGRTQEISRLIGRSLRACIDLAALGENTIAIDCDVLQ 125
Query: 126 ADGGTRSACINAATLALQDAGI------------PMRDIVTSCSAGYLNSTPLLDLNYVE 173
ADGGTR+A I A +AL DA P+ + + S G ++ +DL Y E
Sbjct: 126 ADGGTRTAAITGAYVALADAVTYLSAAGKLSDPRPLSCAIAAVSVGVVDGRIRVDLPYEE 185
Query: 174 DSAGGPDVTV 183
DS D+ V
Sbjct: 186 DSRAEVDMNV 195
>pdb|3KRN|A Chain A, Crystal Structure Of C. Elegans Cell-Death-Related
Nuclease 5(Crn-5)
pdb|3KRN|B Chain B, Crystal Structure Of C. Elegans Cell-Death-Related
Nuclease 5(Crn-5)
Length = 222
Score = 65.1 bits (157), Expect = 3e-11, Method: Compositional matrix adjust.
Identities = 39/134 (29%), Positives = 63/134 (47%), Gaps = 12/134 (8%)
Query: 19 MRQLRAEIGNVAKADGSAVFEMGNTKVIAAVYGPREVQNKSQQMSDQALVRCEYSMANFS 78
+R++R E+ + ADGSA F G T + A+ GP +V + + SD+A+ +
Sbjct: 5 LREMRCELSFLKNADGSACFSQGATCIWASCSGPGDVH--ASKASDEAM----------T 52
Query: 79 TGDRMRKPKGDRRSTEISLVIRQTMEACILTHLMPRSQIDIFVQVLQADGGTRSACINAA 138
R GD + ++ +I T+ I L P + I + V +Q DG + IN A
Sbjct: 53 LDISYRANCGDNKFNVLNNIIHSTLSNAINLELFPHTTISVTVHGIQDDGSMGAVAINGA 112
Query: 139 TLALQDAGIPMRDI 152
AL D G+P +
Sbjct: 113 CFALLDNGMPFETV 126
>pdb|4IFD|D Chain D, Crystal Structure Of An 11-subunit Eukaryotic Exosome
Complex Bound To Rna
Length = 245
Score = 58.2 bits (139), Expect = 4e-09, Method: Compositional matrix adjust.
Identities = 50/165 (30%), Positives = 78/165 (47%), Gaps = 23/165 (13%)
Query: 10 RLDGRRPTEMRQLRAEIGNVAKADGSAVFEMGNTKVIAAVYGPREVQNKSQ---QMSDQA 66
RLD + ++AEIG + DGS+ F +TKVI +V GP E + + + Q++ +
Sbjct: 13 RLDSAEKKKKMSVQAEIGILDHVDGSSEFVSQDTKVICSVTGPIEPKARQELPTQLALEI 72
Query: 67 LVRCEYSMANFSTGDRMRKPKGDRRSTEISLVIRQTMEACILTHLMPRSQIDIFVQVL-- 124
+VR +A +T +++ + K +R + I H PR I Q+L
Sbjct: 73 IVRPAKGVA--TTREKVLEDK-----------LRAVLTPLITRHCYPRQLCQITCQILES 119
Query: 125 ---QADGGTR--SACINAATLALQDAGIPMRDIVTSCSAGYLNST 164
+A+ R S CINAA LAL DAGI + + S + T
Sbjct: 120 GEDEAEFSLRELSCCINAAFLALVDAGIALNSMCASIPIAIIKDT 164
>pdb|1E3P|A Chain A, Tungstate Derivative Of Streptomyces Antibioticus Pnpase
Gpsi Enzyme
Length = 757
Score = 52.0 bits (123), Expect = 2e-07, Method: Compositional matrix adjust.
Identities = 53/209 (25%), Positives = 93/209 (44%), Gaps = 17/209 (8%)
Query: 2 EFVSPEGLRLDGRRPTEMRQLRAEIGNVAKADGSAVFEMGNTKVIAAVYGPREVQNKSQQ 61
E V E R+DGR T++R L AE+ + + GSA+FE G T+++ + QQ
Sbjct: 348 ERVIAEKKRIDGRGVTDIRTLAAEVEAIPRVHGSALFERGETQILGVTT--LNMLRMEQQ 405
Query: 62 MSDQALVRCEYSMAN-----FSTGDRMRKPKGDRRSTEISLVIRQTMEACILTHLMPRSQ 116
+ + V + M N +S G+ R RR + + + + T
Sbjct: 406 LDTLSPVTRKRYMHNYNFPPYSVGETGRVGSPKRREIGHGALAERAIVPVLPTREEFPYA 465
Query: 117 IDIFVQVLQADGGTRSACINAATLALQDAGIPMRDIVTSCSAGYL--------NSTPLLD 168
I + L ++G T + A+T++L +AG+P++ V + G + + L D
Sbjct: 466 IRQVSEALGSNGSTSMGSVCASTMSLLNAGVPLKAPVAGIAMGLISQEINGETHYVALTD 525
Query: 169 LNYVEDSAGGPDVTVGILPTLDKVTLLQV 197
+ ED+ G D+ + T + VT LQ+
Sbjct: 526 ILGAEDAFG--DMDFKVAGTKEFVTALQL 552
>pdb|4AM3|A Chain A, Crystal Structure Of C. Crescentus Pnpase Bound To Rna
pdb|4AM3|B Chain B, Crystal Structure Of C. Crescentus Pnpase Bound To Rna
pdb|4AM3|C Chain C, Crystal Structure Of C. Crescentus Pnpase Bound To Rna
Length = 717
Score = 47.8 bits (112), Expect = 4e-06, Method: Composition-based stats.
Identities = 36/157 (22%), Positives = 71/157 (45%), Gaps = 3/157 (1%)
Query: 8 GLRLDGRRPTEMRQLRAEIGNVAKADGSAVFEMGNTKVIAAV---YGPREVQNKSQQMSD 64
GLR+DGR +R + E+G + + GSA+F G T+ I G E + + +
Sbjct: 320 GLRIDGRDVKTVRPILGEVGILPRTHGSALFTRGETQAIVVATLGTGDDEQFIDALEGTY 379
Query: 65 QALVRCEYSMANFSTGDRMRKPKGDRRSTEISLVIRQTMEACILTHLMPRSQIDIFVQVL 124
+ Y+ +S G+ R RR + + + + T I + ++
Sbjct: 380 KESFLLHYNFPPYSVGETGRMGSPGRREIGHGKLAWRALRPMLPTKEDFPYTIRLVSEIT 439
Query: 125 QADGGTRSACINAATLALQDAGIPMRDIVTSCSAGYL 161
+++G + A + ++LA+ DAG+P+ V+ + G +
Sbjct: 440 ESNGSSSMATVCGSSLAMMDAGVPLVRPVSGIAMGLI 476
>pdb|4AID|A Chain A, Crystal Structure Of C. Crescentus Pnpase Bound To Rnase E
Recognition Peptide
pdb|4AID|B Chain B, Crystal Structure Of C. Crescentus Pnpase Bound To Rnase E
Recognition Peptide
pdb|4AID|C Chain C, Crystal Structure Of C. Crescentus Pnpase Bound To Rnase E
Recognition Peptide
Length = 726
Score = 47.0 bits (110), Expect = 7e-06, Method: Compositional matrix adjust.
Identities = 40/159 (25%), Positives = 72/159 (45%), Gaps = 7/159 (4%)
Query: 8 GLRLDGRRPTEMRQLRAEIGNVAKADGSAVFEMGNTKVIAAV---YGPREVQNKSQQMSD 64
GLR+DGR +R + E+G + + GSA+F G T+ I G E + + +
Sbjct: 329 GLRIDGRDVKTVRPILGEVGILPRTHGSALFTRGETQAIVVATLGTGDDEQFIDALEGTY 388
Query: 65 QALVRCEYSMANFSTGD--RMRKPKGDRRSTEISLVIRQTMEACILTHLMPRSQIDIFVQ 122
+ Y+ +S G+ RM P G R L R P + I + +
Sbjct: 389 KESFLLHYNFPPYSVGETGRMGSP-GRREIGHGKLAWRALRPMLPTKEDFPYT-IRLVSE 446
Query: 123 VLQADGGTRSACINAATLALQDAGIPMRDIVTSCSAGYL 161
+ +++G + A + ++LA+ DAG+P+ V+ + G +
Sbjct: 447 ITESNGSSSMATVCGSSLAMMDAGVPLVRPVSGIAMGLI 485
>pdb|4AIM|A Chain A, Crystal Structure Of C. Crescentus Pnpase Bound To Rnase E
Recognition Peptide
Length = 726
Score = 47.0 bits (110), Expect = 8e-06, Method: Compositional matrix adjust.
Identities = 36/157 (22%), Positives = 71/157 (45%), Gaps = 3/157 (1%)
Query: 8 GLRLDGRRPTEMRQLRAEIGNVAKADGSAVFEMGNTKVIAAV---YGPREVQNKSQQMSD 64
GLR+DGR +R + E+G + + GSA+F G T+ I G E + + +
Sbjct: 329 GLRIDGRDVKTVRPILGEVGILPRTHGSALFTRGETQAIVVATLGTGDDEQFIDALEGTY 388
Query: 65 QALVRCEYSMANFSTGDRMRKPKGDRRSTEISLVIRQTMEACILTHLMPRSQIDIFVQVL 124
+ Y+ +S G+ R RR + + + + T I + ++
Sbjct: 389 KESFLLHYNFPPYSVGETGRMGSPGRREIGHGKLAWRALRPMLPTKEDFPYTIRLVSEIT 448
Query: 125 QADGGTRSACINAATLALQDAGIPMRDIVTSCSAGYL 161
+++G + A + ++LA+ DAG+P+ V+ + G +
Sbjct: 449 ESNGSSSMATVCGSSLAMMDAGVPLVRPVSGIAMGLI 485
>pdb|3H1C|A Chain A, Crystal Structure Of Polynucleotide Phosphorylase (Pnpase)
Core Bound To Rnase E And Tungstate
pdb|3H1C|B Chain B, Crystal Structure Of Polynucleotide Phosphorylase (Pnpase)
Core Bound To Rnase E And Tungstate
pdb|3H1C|C Chain C, Crystal Structure Of Polynucleotide Phosphorylase (Pnpase)
Core Bound To Rnase E And Tungstate
pdb|3H1C|G Chain G, Crystal Structure Of Polynucleotide Phosphorylase (Pnpase)
Core Bound To Rnase E And Tungstate
pdb|3H1C|I Chain I, Crystal Structure Of Polynucleotide Phosphorylase (Pnpase)
Core Bound To Rnase E And Tungstate
pdb|3H1C|K Chain K, Crystal Structure Of Polynucleotide Phosphorylase (Pnpase)
Core Bound To Rnase E And Tungstate
pdb|3H1C|M Chain M, Crystal Structure Of Polynucleotide Phosphorylase (Pnpase)
Core Bound To Rnase E And Tungstate
pdb|3H1C|O Chain O, Crystal Structure Of Polynucleotide Phosphorylase (Pnpase)
Core Bound To Rnase E And Tungstate
pdb|3H1C|R Chain R, Crystal Structure Of Polynucleotide Phosphorylase (Pnpase)
Core Bound To Rnase E And Tungstate
pdb|3H1C|T Chain T, Crystal Structure Of Polynucleotide Phosphorylase (Pnpase)
Core Bound To Rnase E And Tungstate
pdb|3H1C|V Chain V, Crystal Structure Of Polynucleotide Phosphorylase (Pnpase)
Core Bound To Rnase E And Tungstate
pdb|3H1C|X Chain X, Crystal Structure Of Polynucleotide Phosphorylase (Pnpase)
Core Bound To Rnase E And Tungstate
Length = 549
Score = 46.2 bits (108), Expect = 1e-05, Method: Compositional matrix adjust.
Identities = 46/195 (23%), Positives = 87/195 (44%), Gaps = 9/195 (4%)
Query: 10 RLDGRRPTEMRQLRAEIGNVAKADGSAVFEMGNTK--VIAAVYGPREVQNKSQQMSDQA- 66
R+DGR +R L G + + GSA+F G T+ V A + R+ Q + M ++
Sbjct: 315 RIDGREKDMIRGLDVRTGVLPRTHGSALFTRGETQALVTATLGTARDAQVLDELMGERTD 374
Query: 67 LVRCEYSMANFSTGDRMRKPKGDRRSTEISLVIRQTMEACILTHLMPRSQIDIFVQVLQA 126
Y+ +S G+ RR + ++ + A + + + ++ ++
Sbjct: 375 TFLFHYNFPPYSVGETGMVGSPKRREIGHGRLAKRGVLAVMPDMDKFPYTVRVVSEITES 434
Query: 127 DGGTRSACINAATLALQDAGIPMRDIVTSCSAGYL----NSTPLLDLNYVEDSAGGPDVT 182
+G + A + A+LAL DAG+P++ V + G + N L D+ ED G D+
Sbjct: 435 NGSSSMASVCGASLALMDAGVPIKAAVAGIAMGLVKEGDNYVVLSDILGDEDHLG--DMD 492
Query: 183 VGILPTLDKVTLLQV 197
+ + D ++ LQ+
Sbjct: 493 FKVAGSRDGISALQM 507
>pdb|3GCM|A Chain A, Crystal Structure Of E. Coli Polynucleotide Phosphorylase
Bound To Rna And Rnase E
pdb|3GCM|B Chain B, Crystal Structure Of E. Coli Polynucleotide Phosphorylase
Bound To Rna And Rnase E
pdb|3GCM|C Chain C, Crystal Structure Of E. Coli Polynucleotide Phosphorylase
Bound To Rna And Rnase E
pdb|3GLL|A Chain A, Crystal Structure Of Polynucleotide Phosphorylase (Pnpase)
Core
pdb|3GME|A Chain A, Crystal Structure Of Polynucleotide Phosphorylase In
Complex With Rnase E And Manganese
Length = 549
Score = 46.2 bits (108), Expect = 1e-05, Method: Compositional matrix adjust.
Identities = 46/195 (23%), Positives = 87/195 (44%), Gaps = 9/195 (4%)
Query: 10 RLDGRRPTEMRQLRAEIGNVAKADGSAVFEMGNTK--VIAAVYGPREVQNKSQQMSDQA- 66
R+DGR +R L G + + GSA+F G T+ V A + R+ Q + M ++
Sbjct: 315 RIDGREKDMIRGLDVRTGVLPRTHGSALFTRGETQALVTATLGTARDAQVLDELMGERTD 374
Query: 67 LVRCEYSMANFSTGDRMRKPKGDRRSTEISLVIRQTMEACILTHLMPRSQIDIFVQVLQA 126
Y+ +S G+ RR + ++ + A + + + ++ ++
Sbjct: 375 TFLFHYNFPPYSVGETGMVGSPKRREIGHGRLAKRGVLAVMPDMDKFPYTVRVVSEITES 434
Query: 127 DGGTRSACINAATLALQDAGIPMRDIVTSCSAGYL----NSTPLLDLNYVEDSAGGPDVT 182
+G + A + A+LAL DAG+P++ V + G + N L D+ ED G D+
Sbjct: 435 NGSSSMASVCGASLALMDAGVPIKAAVAGIAMGLVKEGDNYVVLSDILGDEDHLG--DMD 492
Query: 183 VGILPTLDKVTLLQV 197
+ + D ++ LQ+
Sbjct: 493 FKVAGSRDGISALQM 507
>pdb|3CDJ|A Chain A, Crystal Structure Of The E. Coli KhS1 DOMAIN TRUNCATED
Pnpase
Length = 559
Score = 46.2 bits (108), Expect = 1e-05, Method: Compositional matrix adjust.
Identities = 46/195 (23%), Positives = 87/195 (44%), Gaps = 9/195 (4%)
Query: 10 RLDGRRPTEMRQLRAEIGNVAKADGSAVFEMGNTK--VIAAVYGPREVQNKSQQMSDQA- 66
R+DGR +R L G + + GSA+F G T+ V A + R+ Q + M ++
Sbjct: 321 RIDGREKDMIRGLDVRTGVLPRTHGSALFTRGETQALVTATLGTARDAQVLDELMGERTD 380
Query: 67 LVRCEYSMANFSTGDRMRKPKGDRRSTEISLVIRQTMEACILTHLMPRSQIDIFVQVLQA 126
Y+ +S G+ RR + ++ + A + + + ++ ++
Sbjct: 381 TFLFHYNFPPYSVGETGMVGSPKRREIGHGRLAKRGVLAVMPDMDKFPYTVRVVSEITES 440
Query: 127 DGGTRSACINAATLALQDAGIPMRDIVTSCSAGYL----NSTPLLDLNYVEDSAGGPDVT 182
+G + A + A+LAL DAG+P++ V + G + N L D+ ED G D+
Sbjct: 441 NGSSSMASVCGASLALMDAGVPIKAAVAGIAMGLVKEGDNYVVLSDILGDEDHLG--DMD 498
Query: 183 VGILPTLDKVTLLQV 197
+ + D ++ LQ+
Sbjct: 499 FKVAGSRDGISALQM 513
>pdb|1E3H|A Chain A, Semet Derivative Of Streptomyces Antibioticus PnpaseGPSI
Enzyme
Length = 757
Score = 45.8 bits (107), Expect = 2e-05, Method: Composition-based stats.
Identities = 53/208 (25%), Positives = 92/208 (44%), Gaps = 15/208 (7%)
Query: 2 EFVSPEGLRLDGRRPTEMRQLRAEIGNVAKADGSAVFEMGNTKVIAAVYGPREVQNKSQQ 61
E V E R+DGR T++R L AE+ + + GSA+FE G T+++ V ++ + Q
Sbjct: 348 ERVIAEKKRIDGRGVTDIRTLAAEVEAIPRVHGSALFERGETQIL-GVTTLNXLRXEQQL 406
Query: 62 MSDQALVRCE----YSMANFSTGDRMRKPKGDRRSTEISLVIRQTMEACILTHLMPRSQI 117
+ + R Y+ +S G+ R RR + + + + T I
Sbjct: 407 DTLSPVTRKRYXHNYNFPPYSVGETGRVGSPKRREIGHGALAERAIVPVLPTREEFPYAI 466
Query: 118 DIFVQVLQADGGTRSACINAATLALQDAGIPMRDIVTSCSAGYLNS--------TPLLDL 169
+ L ++G T + A+T +L +AG+P++ V + G ++ L D+
Sbjct: 467 RQVSEALGSNGSTSXGSVCASTXSLLNAGVPLKAPVAGIAXGLISQEINGETHYVALTDI 526
Query: 170 NYVEDSAGGPDVTVGILPTLDKVTLLQV 197
ED+ G D V T + VT LQ+
Sbjct: 527 LGAEDAFGDXDFKVA--GTKEFVTALQL 552
>pdb|3CDI|A Chain A, Crystal Structure Of E. Coli Pnpase
Length = 723
Score = 45.4 bits (106), Expect = 2e-05, Method: Compositional matrix adjust.
Identities = 46/195 (23%), Positives = 87/195 (44%), Gaps = 9/195 (4%)
Query: 10 RLDGRRPTEMRQLRAEIGNVAKADGSAVFEMGNTK--VIAAVYGPREVQNKSQQMSDQA- 66
R+DGR +R L G + + GSA+F G T+ V A + R+ Q + M ++
Sbjct: 321 RIDGREKDMIRGLDVRTGVLPRTHGSALFTRGETQALVTATLGTARDAQVLDELMGERTD 380
Query: 67 LVRCEYSMANFSTGDRMRKPKGDRRSTEISLVIRQTMEACILTHLMPRSQIDIFVQVLQA 126
Y+ +S G+ RR + ++ + A + + + ++ ++
Sbjct: 381 TFLFHYNFPPYSVGETGMVGSPKRREIGHGRLAKRGVLAVMPDMDKFPYTVRVVSEITES 440
Query: 127 DGGTRSACINAATLALQDAGIPMRDIVTSCSAGYL----NSTPLLDLNYVEDSAGGPDVT 182
+G + A + A+LAL DAG+P++ V + G + N L D+ ED G D+
Sbjct: 441 NGSSSMASVCGASLALMDAGVPIKAAVAGIAMGLVKEGDNYVVLSDILGDEDHLG--DMD 498
Query: 183 VGILPTLDKVTLLQV 197
+ + D ++ LQ+
Sbjct: 499 FKVAGSRDGISALQM 513
>pdb|3U1K|A Chain A, Crystal Structure Of Human Pnpase
pdb|3U1K|C Chain C, Crystal Structure Of Human Pnpase
pdb|3U1K|B Chain B, Crystal Structure Of Human Pnpase
pdb|3U1K|D Chain D, Crystal Structure Of Human Pnpase
Length = 630
Score = 45.1 bits (105), Expect = 3e-05, Method: Compositional matrix adjust.
Identities = 53/212 (25%), Positives = 88/212 (41%), Gaps = 30/212 (14%)
Query: 7 EGLRLDGRRPTEMRQLRAEIGNVAKADGSAVFEMGNTKVIAAV-YGPREVQNKSQQ---- 61
E R DGR T +R + E+ GSA+F+ G T+V+ V + E KS Q
Sbjct: 316 EYKRCDGRDLTSLRNVSCEVDMFKTLHGSALFQRGQTQVLCTVTFDSLESGIKSDQVITA 375
Query: 62 ---MSDQALVRCEYSMANFSTGDRMRKPKGDRRSTEISLVIRQTMEACILTHLMPRS--- 115
+ D+ + Y ++T + + +RR + + + I PR
Sbjct: 376 INGIKDKNFM-LHYEFPPYATNEIGKVTGLNRRELGHGALAEKALYPVI-----PRDFPF 429
Query: 116 QIDIFVQVLQADGGTRSACINAATLALQDAGIPMRDIVTSCSAGYLNSTP---------- 165
I + +VL+++G + A +LAL D+G+P+ V + G + T
Sbjct: 430 TIRVTSEVLESNGSSSMASACGGSLALMDSGVPISSAVAGVAIGLVTKTDPEKGEIEDYR 489
Query: 166 -LLDLNYVEDSAGGPDVTVGILPTLDKVTLLQ 196
L D+ +ED G D+ I T +T LQ
Sbjct: 490 LLTDILGIEDYNG--DMDFKIAGTNKGITALQ 519
>pdb|2NN6|C Chain C, Structure Of The Human Rna Exosome Composed Of Rrp41,
Rrp45, Rrp46, Rrp43, Mtr3, Rrp42, Csl4, Rrp4, And Rrp40
Length = 278
Score = 43.1 bits (100), Expect = 1e-04, Method: Compositional matrix adjust.
Identities = 41/151 (27%), Positives = 58/151 (38%), Gaps = 13/151 (8%)
Query: 7 EGLRLDGRRPTEMRQLRAEIGNVAKADGSAVFEMGNTKVIAAVYGPREVQNKSQQMSDQA 66
E R DGR E R IG+++ ADGSA+ ++GNT VI V E S D+
Sbjct: 22 ENCRPDGRELGEFRTTTVNIGSISTADGSALVKLGNTTVICGVKA--EFAAPSTDAPDKG 79
Query: 67 LVRCEYSMANFSTGDRMRKPKGDRRSTEISLV--------IRQTMEACILT-HLMPRSQI 117
V + + P G+ + I Q + CI L+
Sbjct: 80 YVVPNVDLPPLCSSRFRSGPPGEEAQVASQFIADVIENSQIIQKEDLCISPGKLVWVLYC 139
Query: 118 DIFVQVLQADGGTRSACINAATLALQDAGIP 148
D+ L DG AC A AL++ +P
Sbjct: 140 DLI--CLDYDGNILDACTFALLAALKNVQLP 168
>pdb|3L7Z|A Chain A, Crystal Structure Of The S. Solfataricus Archaeal Exosome
pdb|3L7Z|D Chain D, Crystal Structure Of The S. Solfataricus Archaeal Exosome
pdb|3L7Z|G Chain G, Crystal Structure Of The S. Solfataricus Archaeal Exosome
Length = 271
Score = 41.6 bits (96), Expect = 3e-04, Method: Compositional matrix adjust.
Identities = 41/154 (26%), Positives = 70/154 (45%), Gaps = 21/154 (13%)
Query: 7 EGLRLDGRRPTEMRQLRAEIGNVAKADGSAVFEMGNTKVIAA----VYGPRE-VQNKSQQ 61
+G+R DGR+ T+ R L + KADGSA+ ++G T V+A + P E N+
Sbjct: 25 KGIRQDGRKLTDYRPLSITLDYAKKADGSALVKLGTTMVLAGTKLEIDKPYEDTPNQGNL 84
Query: 62 MSDQALVRCEYSMANFSTGDRMRKPKGDRRSTEISLVIRQTM---EACILTHLMPRSQID 118
+ + L+ Y+ F G D + E++ V+ +++ +A LT L+
Sbjct: 85 IVNVELLPLAYT--TFEPG------PPDENAIELARVVDRSLRDSKALDLTKLVIEPGKS 136
Query: 119 IF-----VQVLQADGGTRSACINAATLALQDAGI 147
++ V VL G AC A+ AL + +
Sbjct: 137 VWTVWLDVYVLDYGGNVLDACTLASVAALYNTKV 170
>pdb|2BR2|A Chain A, Rnase Ph Core Of The Archaeal Exosome
pdb|2BR2|C Chain C, Rnase Ph Core Of The Archaeal Exosome
pdb|2BR2|E Chain E, Rnase Ph Core Of The Archaeal Exosome
pdb|2BR2|G Chain G, Rnase Ph Core Of The Archaeal Exosome
pdb|2BR2|I Chain I, Rnase Ph Core Of The Archaeal Exosome
pdb|2BR2|K Chain K, Rnase Ph Core Of The Archaeal Exosome
pdb|2BR2|M Chain M, Rnase Ph Core Of The Archaeal Exosome
pdb|2BR2|O Chain O, Rnase Ph Core Of The Archaeal Exosome
pdb|2BR2|Q Chain Q, Rnase Ph Core Of The Archaeal Exosome
pdb|2BR2|S Chain S, Rnase Ph Core Of The Archaeal Exosome
pdb|2BR2|U Chain U, Rnase Ph Core Of The Archaeal Exosome
pdb|2BR2|W Chain W, Rnase Ph Core Of The Archaeal Exosome
pdb|2C37|A Chain A, Rnase Ph Core Of The Archaeal Exosome In Complex With U8
Rna
pdb|2C37|C Chain C, Rnase Ph Core Of The Archaeal Exosome In Complex With U8
Rna
pdb|2C37|E Chain E, Rnase Ph Core Of The Archaeal Exosome In Complex With U8
Rna
pdb|2C37|G Chain G, Rnase Ph Core Of The Archaeal Exosome In Complex With U8
Rna
pdb|2C37|I Chain I, Rnase Ph Core Of The Archaeal Exosome In Complex With U8
Rna
pdb|2C37|K Chain K, Rnase Ph Core Of The Archaeal Exosome In Complex With U8
Rna
pdb|2C37|M Chain M, Rnase Ph Core Of The Archaeal Exosome In Complex With U8
Rna
pdb|2C37|O Chain O, Rnase Ph Core Of The Archaeal Exosome In Complex With U8
Rna
pdb|2C37|Q Chain Q, Rnase Ph Core Of The Archaeal Exosome In Complex With U8
Rna
pdb|2C37|S Chain S, Rnase Ph Core Of The Archaeal Exosome In Complex With U8
Rna
pdb|2C37|U Chain U, Rnase Ph Core Of The Archaeal Exosome In Complex With U8
Rna
pdb|2C37|W Chain W, Rnase Ph Core Of The Archaeal Exosome In Complex With U8
Rna
pdb|2C38|A Chain A, Rnase Ph Core Of The Archaeal Exosome In Complex With A5
Rna
pdb|2C38|E Chain E, Rnase Ph Core Of The Archaeal Exosome In Complex With A5
Rna
pdb|2C38|G Chain G, Rnase Ph Core Of The Archaeal Exosome In Complex With A5
Rna
pdb|2C38|I Chain I, Rnase Ph Core Of The Archaeal Exosome In Complex With A5
Rna
pdb|2C38|K Chain K, Rnase Ph Core Of The Archaeal Exosome In Complex With A5
Rna
pdb|2C38|M Chain M, Rnase Ph Core Of The Archaeal Exosome In Complex With A5
Rna
pdb|2C38|O Chain O, Rnase Ph Core Of The Archaeal Exosome In Complex With A5
Rna
pdb|2C38|Q Chain Q, Rnase Ph Core Of The Archaeal Exosome In Complex With A5
Rna
pdb|2C38|S Chain S, Rnase Ph Core Of The Archaeal Exosome In Complex With A5
Rna
pdb|2C38|U Chain U, Rnase Ph Core Of The Archaeal Exosome In Complex With A5
Rna
pdb|2C39|A Chain A, Rnase Ph Core Of The Archaeal Exosome In Complex With Adp
pdb|2C39|C Chain C, Rnase Ph Core Of The Archaeal Exosome In Complex With Adp
pdb|2C39|E Chain E, Rnase Ph Core Of The Archaeal Exosome In Complex With Adp
pdb|2C39|G Chain G, Rnase Ph Core Of The Archaeal Exosome In Complex With Adp
pdb|2C39|I Chain I, Rnase Ph Core Of The Archaeal Exosome In Complex With Adp
pdb|2C39|K Chain K, Rnase Ph Core Of The Archaeal Exosome In Complex With Adp
pdb|2C39|M Chain M, Rnase Ph Core Of The Archaeal Exosome In Complex With Adp
pdb|2C39|O Chain O, Rnase Ph Core Of The Archaeal Exosome In Complex With Adp
pdb|2C39|Q Chain Q, Rnase Ph Core Of The Archaeal Exosome In Complex With Adp
pdb|2C39|S Chain S, Rnase Ph Core Of The Archaeal Exosome In Complex With Adp
pdb|2C39|U Chain U, Rnase Ph Core Of The Archaeal Exosome In Complex With Adp
pdb|2C39|W Chain W, Rnase Ph Core Of The Archaeal Exosome In Complex With Adp
pdb|2C38|C Chain C, Rnase Ph Core Of The Archaeal Exosome In Complex With A5
Rna
pdb|2C38|W Chain W, Rnase Ph Core Of The Archaeal Exosome In Complex With A5
Rna
Length = 275
Score = 40.8 bits (94), Expect = 6e-04, Method: Compositional matrix adjust.
Identities = 41/154 (26%), Positives = 69/154 (44%), Gaps = 21/154 (13%)
Query: 7 EGLRLDGRRPTEMRQLRAEIGNVAKADGSAVFEMGNTKVIAA----VYGPRE-VQNKSQQ 61
+G+R DGR+ T+ R L + KADGSA+ ++G T V+A + P E N+
Sbjct: 25 KGIRQDGRKLTDYRPLSITLDYAKKADGSALVKLGTTMVLAGTKLEIDKPYEDTPNQGNL 84
Query: 62 MSDQALVRCEYSMANFSTGDRMRKPKGDRRSTEISLVIRQTM---EACILTHLMPRSQID 118
+ + L+ Y F G D + E++ V+ +++ +A LT L+
Sbjct: 85 IVNVELLPLAYE--TFEPG------PPDENAIELARVVDRSLRDSKALDLTKLVIEPGKS 136
Query: 119 IF-----VQVLQADGGTRSACINAATLALQDAGI 147
++ V VL G AC A+ AL + +
Sbjct: 137 VWTVWLDVYVLDYGGNVLDACTLASVAALYNTKV 170
>pdb|2JE6|A Chain A, Structure Of A 9-Subunit Archaeal Exosome
pdb|2JEA|A Chain A, Structure Of A 9-Subunit Archaeal Exosome Bound To Rna
pdb|2JEB|A Chain A, Structure Of A 9-Subunit Archaeal Exosome Bound To Mn Ions
pdb|4BA1|A Chain A, Archaeal Exosome (rrp4-rrp41(d182a)-rrp42) Bound To
Inorganic Phosphate
pdb|4BA2|A Chain A, Archaeal Exosome (rrp4-rrp41(d182a)-rrp42) Bound To
Inorganic Phosphate
Length = 277
Score = 40.8 bits (94), Expect = 6e-04, Method: Compositional matrix adjust.
Identities = 41/154 (26%), Positives = 69/154 (44%), Gaps = 21/154 (13%)
Query: 7 EGLRLDGRRPTEMRQLRAEIGNVAKADGSAVFEMGNTKVIAA----VYGPRE-VQNKSQQ 61
+G+R DGR+ T+ R L + KADGSA+ ++G T V+A + P E N+
Sbjct: 27 KGIRQDGRKLTDYRPLSITLDYAKKADGSALVKLGTTMVLAGTKLEIDKPYEDTPNQGNL 86
Query: 62 MSDQALVRCEYSMANFSTGDRMRKPKGDRRSTEISLVIRQTM---EACILTHLMPRSQID 118
+ + L+ Y F G D + E++ V+ +++ +A LT L+
Sbjct: 87 IVNVELLPLAYE--TFEPG------PPDENAIELARVVDRSLRDSKALDLTKLVIEPGKS 138
Query: 119 IF-----VQVLQADGGTRSACINAATLALQDAGI 147
++ V VL G AC A+ AL + +
Sbjct: 139 VWTVWLDVYVLDYGGNVLDACTLASVAALYNTKV 172
>pdb|2WNR|A Chain A, The Structure Of Methanothermobacter Thermautotrophicus
Exosome Core Assembly
pdb|2WNR|C Chain C, The Structure Of Methanothermobacter Thermautotrophicus
Exosome Core Assembly
pdb|2WNR|E Chain E, The Structure Of Methanothermobacter Thermautotrophicus
Exosome Core Assembly
Length = 271
Score = 39.7 bits (91), Expect = 0.001, Method: Compositional matrix adjust.
Identities = 17/40 (42%), Positives = 27/40 (67%)
Query: 10 RLDGRRPTEMRQLRAEIGNVAKADGSAVFEMGNTKVIAAV 49
R+DGR E R + E G ++KA+GS+ ++GNT++I V
Sbjct: 25 RIDGRSLHEFRDISIETGVISKAEGSSRVKLGNTQIIVGV 64
>pdb|4IFD|F Chain F, Crystal Structure Of An 11-subunit Eukaryotic Exosome
Complex Bound To Rna
Length = 250
Score = 39.3 bits (90), Expect = 0.002, Method: Compositional matrix adjust.
Identities = 41/169 (24%), Positives = 68/169 (40%), Gaps = 37/169 (21%)
Query: 20 RQLRAEIGNVAKADGSAVFE---MGN-TKVIAAVYGPREVQNKSQQMSDQALVRCEYSMA 75
++L G + +GSA+ E +G+ T +I+AVYGPR ++ + Q + +
Sbjct: 44 QELSLHTGFIENCNGSALVEARSLGHQTSLISAVYGPRSIRGS---FTSQGTISIQLK-- 98
Query: 76 NFSTGDRMRKPKGDRRSTEISLVIRQTMEACILTHLMPRSQIDIFVQVLQADGGTRS--- 132
+ + + E+S + + + P+S IDIFV + T +
Sbjct: 99 -----NGLLEKYNTNELKEVSSFLMGIFNSVVNLSRYPKSGIDIFVYLTYDKDLTNNPQD 153
Query: 133 -----------------ACINAATLALQDAGIPMRDIVTSCSAGYLNST 164
CI + TLAL DAGI + D+ AG N T
Sbjct: 154 DDSQSKMTSSQISSLIPHCITSITLALADAGIELVDMA---GAGEANGT 199
>pdb|2PNZ|B Chain B, Crystal Structure Of The P. Abyssi Exosome Rnase Ph Ring
Complexed With Udp And Gmp
pdb|2PO0|B Chain B, Crystal Structure Of The P. Abyssi Exosome Rnase Ph Ring
Complexed With Adp In Double Conformation
pdb|2PO1|B Chain B, Crystal Structure Of The P. Abyssi Exosome Rnase Ph Ring
Complexed With A Single Stranded 10-Mer Poly(A) Rna
pdb|2PO2|B Chain B, Crystal Structure Of The P. Abyssi Exosome Rnase Ph Ring
Complexed With Cdp
Length = 277
Score = 37.0 bits (84), Expect = 0.008, Method: Compositional matrix adjust.
Identities = 16/43 (37%), Positives = 29/43 (67%)
Query: 7 EGLRLDGRRPTEMRQLRAEIGNVAKADGSAVFEMGNTKVIAAV 49
EG R+D R + R + E+G + KA+GSA+ ++G+T+V+ +
Sbjct: 24 EGKRIDDRGFEDYRPIEIEVGVIEKAEGSALVKLGSTQVLVGI 66
>pdb|2BA0|I Chain I, Archaeal Exosome Core
pdb|2BA0|H Chain H, Archaeal Exosome Core
pdb|2BA0|G Chain G, Archaeal Exosome Core
pdb|2BA1|G Chain G, Archaeal Exosome Core
pdb|2BA1|H Chain H, Archaeal Exosome Core
pdb|2BA1|I Chain I, Archaeal Exosome Core
pdb|3M7N|G Chain G, Archaeoglobus Fulgidus Exosome With Rna Bound To The
Active Site
pdb|3M7N|H Chain H, Archaeoglobus Fulgidus Exosome With Rna Bound To The
Active Site
pdb|3M7N|I Chain I, Archaeoglobus Fulgidus Exosome With Rna Bound To The
Active Site
Length = 259
Score = 32.7 bits (73), Expect = 0.14, Method: Compositional matrix adjust.
Identities = 15/40 (37%), Positives = 26/40 (65%)
Query: 10 RLDGRRPTEMRQLRAEIGNVAKADGSAVFEMGNTKVIAAV 49
R+DGR E R++ + KA+GSA+ ++G+T+V+ V
Sbjct: 23 RIDGRGFDEFRKVEIIPNVIEKAEGSALVKLGDTQVVVGV 62
>pdb|3M85|G Chain G, Archaeoglobus Fulgidus Exosome Y70a With Rna Bound To
The Active Site
pdb|3M85|H Chain H, Archaeoglobus Fulgidus Exosome Y70a With Rna Bound To
The Active Site
pdb|3M85|I Chain I, Archaeoglobus Fulgidus Exosome Y70a With Rna Bound To
The Active Site
Length = 259
Score = 32.7 bits (73), Expect = 0.15, Method: Compositional matrix adjust.
Identities = 15/40 (37%), Positives = 26/40 (65%)
Query: 10 RLDGRRPTEMRQLRAEIGNVAKADGSAVFEMGNTKVIAAV 49
R+DGR E R++ + KA+GSA+ ++G+T+V+ V
Sbjct: 23 RIDGRGFDEFRKVEIIPNVIEKAEGSALVKLGDTQVVVGV 62
>pdb|2NN6|E Chain E, Structure Of The Human Rna Exosome Composed Of Rrp41,
Rrp45, Rrp46, Rrp43, Mtr3, Rrp42, Csl4, Rrp4, And Rrp40
Length = 305
Score = 30.4 bits (67), Expect = 0.75, Method: Compositional matrix adjust.
Identities = 15/43 (34%), Positives = 24/43 (55%)
Query: 7 EGLRLDGRRPTEMRQLRAEIGNVAKADGSAVFEMGNTKVIAAV 49
E LR+DGR + R + E V+ GSA ++G+T ++ V
Sbjct: 34 EDLRVDGRGCEDYRCVEVETDVVSNTSGSARVKLGHTDILVGV 76
>pdb|2NN6|A Chain A, Structure Of The Human Rna Exosome Composed Of Rrp41,
Rrp45, Rrp46, Rrp43, Mtr3, Rrp42, Csl4, Rrp4, And Rrp40
Length = 358
Score = 28.5 bits (62), Expect = 2.5, Method: Compositional matrix adjust.
Identities = 15/43 (34%), Positives = 22/43 (51%), Gaps = 3/43 (6%)
Query: 7 EGLRLDGRRPTEMRQLRAEIGNVAKADGSAVFEMGNTKVIAAV 49
E RLDGR+ + R +R G G + E+G T+V+ V
Sbjct: 37 EKKRLDGRQTYDYRNIRISFGT---DYGCCIVELGKTRVLGQV 76
>pdb|3NRK|A Chain A, The Crystal Structure Of The Leptospiral Hypothetical
Protein Lic12922
Length = 325
Score = 26.9 bits (58), Expect = 8.3, Method: Compositional matrix adjust.
Identities = 11/25 (44%), Positives = 16/25 (64%)
Query: 9 LRLDGRRPTEMRQLRAEIGNVAKAD 33
L+++G+RPT M LR I N+ D
Sbjct: 259 LKIEGKRPTPMENLRGGIQNILYRD 283
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
0.319 0.133 0.379
Lambda K H
0.267 0.0410 0.140
Matrix: BLOSUM62
Gap Penalties: Existence: 11, Extension: 1
Number of Hits to DB: 5,607,827
Number of Sequences: 62578
Number of extensions: 204364
Number of successful extensions: 519
Number of sequences better than 100.0: 47
Number of HSP's better than 100.0 without gapping: 45
Number of HSP's successfully gapped in prelim test: 2
Number of HSP's that attempted gapping in prelim test: 418
Number of HSP's gapped (non-prelim): 52
length of query: 214
length of database: 14,973,337
effective HSP length: 95
effective length of query: 119
effective length of database: 9,028,427
effective search space: 1074382813
effective search space used: 1074382813
T: 11
A: 40
X1: 16 ( 7.4 bits)
X2: 38 (14.6 bits)
X3: 64 (24.7 bits)
S1: 41 (21.8 bits)
S2: 49 (23.5 bits)