Citrus Sinensis ID: 015559
Local Sequence Feature Prediction
| Prediction and (Method) | Result |
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Close Homologs for Annotation Transfer
Close Homologs in SWISS-PROT Database Detected by BLAST 
Original result of BLAST against SWISS-PROT Database
| ID | Alignment graph | Length |
Definition |
RBH(Q2H) |
RBH(H2Q) |
Q cover |
H cover |
Identity |
E-value |
| Query | 404 | 2.2.26 [Sep-21-2011] | |||||||
| P55034 | 386 | 26S proteasome non-ATPase | yes | no | 0.948 | 0.992 | 0.656 | 1e-137 | |
| P55035 | 396 | 26S proteasome non-ATPase | yes | no | 0.891 | 0.909 | 0.413 | 6e-73 | |
| O35226 | 376 | 26S proteasome non-ATPase | yes | no | 0.861 | 0.925 | 0.411 | 8e-68 | |
| P55036 | 377 | 26S proteasome non-ATPase | yes | no | 0.851 | 0.912 | 0.393 | 7e-67 | |
| Q58DA0 | 382 | 26S proteasome non-ATPase | yes | no | 0.851 | 0.900 | 0.393 | 7e-67 | |
| Q553E0 | 349 | 26S proteasome non-ATPase | yes | no | 0.772 | 0.893 | 0.403 | 1e-66 | |
| O94444 | 243 | 26S proteasome regulatory | yes | no | 0.599 | 0.995 | 0.490 | 2e-64 | |
| O17453 | 420 | 26S proteasome non-ATPase | N/A | no | 0.851 | 0.819 | 0.344 | 4e-58 | |
| P38886 | 268 | 26S proteasome regulatory | yes | no | 0.579 | 0.873 | 0.497 | 1e-57 | |
| A2A3N6 | 862 | Putative PIP5K1A and PSMD | no | no | 0.878 | 0.411 | 0.388 | 2e-55 |
| >sp|P55034|PSMD4_ARATH 26S proteasome non-ATPase regulatory subunit 4 OS=Arabidopsis thaliana GN=MBP1 PE=1 SV=1 | Back alignment and function desciption |
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Score = 488 bits (1256), Expect = e-137, Method: Compositional matrix adjust.
Identities = 267/407 (65%), Positives = 325/407 (79%), Gaps = 24/407 (5%)
Query: 1 MVLEATLICIDNSEWMRNGDYAPSRFQAQTEAANLICGAKTQLNPENTVGVMTMAGKGVR 60
MVLEAT+ICIDNSEWMRNGDY+PSR QAQTEA NL+CGAKTQ NPENTVG++TMAGKGVR
Sbjct: 1 MVLEATMICIDNSEWMRNGDYSPSRLQAQTEAVNLLCGAKTQSNPENTVGILTMAGKGVR 60
Query: 61 VLVTPTSDLGKILACMHGLEIGGELNLAAGIQVAQLALKHRQNKKQQQRIIVFVGSPIKH 120
VL TPTSDLGKILACMHGL++GGE+NL A IQ+AQLALKHRQNK Q+QRIIVF GSPIK+
Sbjct: 61 VLTTPTSDLGKILACMHGLDVGGEINLTAAIQIAQLALKHRQNKNQRQRIIVFAGSPIKY 120
Query: 121 EKKVLEMIGRKLKKNSVALDIVNFGE-DDEGNTEKLEALLAAVNNNDSSHLVHVPPGPNA 179
EKK LE++G++LKKNSV+LDIVNFGE DDE +KLEALL AVNNND SH+VHVP G NA
Sbjct: 121 EKKALEIVGKRLKKNSVSLDIVNFGEDDDEEKPQKLEALLTAVNNNDGSHIVHVPSGANA 180
Query: 180 LSDVLLSTPIFTGDGEGGSGFAAAAAAAAASGASGYEFGVDPNLDPELALALRVSMEEER 239
LSDVLLSTP+FTGD EG SG+ +AAAAAAA+G ++FGVDPN+DPELALALRVSMEEER
Sbjct: 181 LSDVLLSTPVFTGD-EGASGYVSAAAAAAAAGGD-FDFGVDPNIDPELALALRVSMEEER 238
Query: 240 ARQEAAAKRAAEEAAKKEKQGEQQSSSQDVT--MTDQDSVPASEADDKKKTTKHDEGLLQ 297
ARQEAAAK+AA+EA +K+K G+ S+SQ+ TD+++ P E D LL
Sbjct: 239 ARQEAAAKKAADEAGQKDKDGDTASASQETVARTTDKNAEPMDE----------DSALLD 288
Query: 298 EAIAMSSTPSYPSGRDTNMSEVAEDDPELALALQLSMQDGTKDAPSHSDMSQLLADQAFV 357
+AIAMS D NMSE A++D +LALALQ+SM G + + + + LL +QAF+
Sbjct: 289 QAIAMSVG-------DVNMSEAADEDQDLALALQMSMS-GEESSEATGAGNNLLGNQAFI 340
Query: 358 SSILASLPGVDPEDPSVKDVLTSMQNQSEPQEKKDEDKVSKEEEEKK 404
SS+L+SLPGVDP DP+VK++L S+ ++S+ E ++E K E+EKK
Sbjct: 341 SSVLSSLPGVDPNDPAVKELLASLPDESKRTE-EEESSSKKGEDEKK 386
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Binds and presumably selects ubiquitin-conjugates for destruction. Prefers multiubiquitin chains rather than single ubiquitins. Plays a role in the growth and development via the proteasome-dependent degradation of the ABA-signaling protein ABI5/DPBF1. Arabidopsis thaliana (taxid: 3702) |
| >sp|P55035|PSMD4_DROME 26S proteasome non-ATPase regulatory subunit 4 OS=Drosophila melanogaster GN=Pros54 PE=1 SV=2 | Back alignment and function description |
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| >sp|O35226|PSMD4_MOUSE 26S proteasome non-ATPase regulatory subunit 4 OS=Mus musculus GN=Psmd4 PE=1 SV=1 | Back alignment and function description |
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| >sp|P55036|PSMD4_HUMAN 26S proteasome non-ATPase regulatory subunit 4 OS=Homo sapiens GN=PSMD4 PE=1 SV=1 | Back alignment and function description |
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| >sp|Q58DA0|PSMD4_BOVIN 26S proteasome non-ATPase regulatory subunit 4 OS=Bos taurus GN=PSMD4 PE=2 SV=1 | Back alignment and function description |
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| >sp|Q553E0|PSMD4_DICDI 26S proteasome non-ATPase regulatory subunit 4 OS=Dictyostelium discoideum GN=psmD4 PE=2 SV=1 | Back alignment and function description |
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| >sp|O94444|RPN10_SCHPO 26S proteasome regulatory subunit rpn10 OS=Schizosaccharomyces pombe (strain 972 / ATCC 24843) GN=rpn10 PE=1 SV=1 | Back alignment and function description |
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| >sp|O17453|PSMD4_SCHMA 26S proteasome non-ATPase regulatory subunit 4 OS=Schistosoma mansoni PE=2 SV=2 | Back alignment and function description |
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| >sp|P38886|RPN10_YEAST 26S proteasome regulatory subunit RPN10 OS=Saccharomyces cerevisiae (strain ATCC 204508 / S288c) GN=RPN10 PE=1 SV=3 | Back alignment and function description |
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| >sp|A2A3N6|PIPSL_HUMAN Putative PIP5K1A and PSMD4-like protein OS=Homo sapiens GN=PIPSL PE=5 SV=1 | Back alignment and function description |
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Close Homologs in the Non-Redundant Database Detected by BLAST
Original result of BLAST against Nonredundant Database
| GI | Alignment Graph | Length |
Definition |
Q cover |
H cover |
Identity |
E-value |
| Query | 404 | ||||||
| 356502795 | 397 | PREDICTED: 26S proteasome non-ATPase reg | 0.977 | 0.994 | 0.8 | 1e-172 | |
| 356559272 | 398 | PREDICTED: 26S proteasome non-ATPase reg | 0.977 | 0.992 | 0.778 | 1e-171 | |
| 356502793 | 405 | PREDICTED: 26S proteasome non-ATPase reg | 0.995 | 0.992 | 0.802 | 1e-170 | |
| 356559274 | 390 | PREDICTED: 26S proteasome non-ATPase reg | 0.960 | 0.994 | 0.777 | 1e-170 | |
| 356496629 | 405 | PREDICTED: 26S proteasome non-ATPase reg | 0.995 | 0.992 | 0.807 | 1e-167 | |
| 225431100 | 404 | PREDICTED: 26S proteasome non-ATPase reg | 0.995 | 0.995 | 0.779 | 1e-164 | |
| 363807696 | 405 | uncharacterized protein LOC100803975 [Gl | 0.995 | 0.992 | 0.793 | 1e-163 | |
| 449434144 | 403 | PREDICTED: 26S proteasome non-ATPase reg | 0.985 | 0.987 | 0.776 | 1e-161 | |
| 388490844 | 403 | unknown [Lotus japonicus] | 0.987 | 0.990 | 0.793 | 1e-161 | |
| 255580000 | 403 | 26S proteasome non-atpase regulatory sub | 0.990 | 0.992 | 0.799 | 1e-161 |
| >gi|356502795|ref|XP_003520201.1| PREDICTED: 26S proteasome non-ATPase regulatory subunit 4-like isoform 2 [Glycine max] | Back alignment and taxonomy information |
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Score = 609 bits (1570), Expect = e-172, Method: Compositional matrix adjust.
Identities = 324/405 (80%), Positives = 361/405 (89%), Gaps = 10/405 (2%)
Query: 1 MVLEATLICIDNSEWMRNGDYAPSRFQAQTEAANLICGAKTQLNPENTVGVMTMAGKGVR 60
MVLEAT+ICIDNSEWMRNGDY+PSRFQAQT+A NLICGAKTQ NPENTVGV+TMAGKGVR
Sbjct: 1 MVLEATMICIDNSEWMRNGDYSPSRFQAQTDAVNLICGAKTQSNPENTVGVLTMAGKGVR 60
Query: 61 VLVTPTSDLGKILACMHGLEIGGELNLAAGIQVAQLALKHRQNKKQQQRIIVFVGSPIKH 120
VLVTPTSDLGKILACMHGLEIGGE+NLAAGIQVAQLALKHRQNKKQQQRIIVF G P+KH
Sbjct: 61 VLVTPTSDLGKILACMHGLEIGGEMNLAAGIQVAQLALKHRQNKKQQQRIIVFAGGPVKH 120
Query: 121 EKKVLEMIGRKLKKNSVALDIVNFGEDDEGNTEKLEALLAAVNNNDSSHLVHVPPGPNAL 180
EKK+LEMIGRKLKKNSVALDIVNFGE+DEG TEKLEALL+AVNNND+SH+VHVP GPNAL
Sbjct: 121 EKKMLEMIGRKLKKNSVALDIVNFGEEDEGKTEKLEALLSAVNNNDTSHIVHVPSGPNAL 180
Query: 181 SDVLLSTPIFTGDGEGGSGFAAAAAAAAASGASGYEFGVDPNLDPELALALRVSMEEERA 240
SDVL+STPIFTGDGEGGSGFAAAAAAAAA G SG+EFGVDPNLDPELALALRVSMEEERA
Sbjct: 181 SDVLISTPIFTGDGEGGSGFAAAAAAAAAGGVSGFEFGVDPNLDPELALALRVSMEEERA 240
Query: 241 RQEAAAKRAAEEAAKKEKQGEQQSSSQDVTMTDQDSVPASEADDKKKTTKHDEGLLQEAI 300
RQEAAAK+A+E+A+K+EK GEQQ+S QD TMT+ S ASE DD+ LLQ+A+
Sbjct: 241 RQEAAAKKASEDASKQEKDGEQQASPQDTTMTEGASAAASEQDDEN-------ALLQQAL 293
Query: 301 AMS-STPSYPSG-RDTNMSEVAEDDPELALALQLSMQDGTKDAPSHSDMSQLLADQAFVS 358
AMS P+ RDT+MSE A +DPELALALQLS++D +KD+ S SD+S+LLADQ+FVS
Sbjct: 294 AMSMDDPTINHEVRDTDMSEAAAEDPELALALQLSVEDSSKDSASQSDVSKLLADQSFVS 353
Query: 359 SILASLPGVDPEDPSVKDVLTSMQNQSEPQEKKDEDKVSKEEEEK 403
SILASLPGVDP DPSVKD+L SMQNQSEPQ+ K+EDK EEE+K
Sbjct: 354 SILASLPGVDPNDPSVKDLLASMQNQSEPQQ-KNEDKPPNEEEKK 397
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Source: Glycine max Species: Glycine max Genus: Glycine Family: Fabaceae Order: Fabales Class: Phylum: Streptophyta Superkingdom: Eukaryota |
| >gi|356559272|ref|XP_003547924.1| PREDICTED: 26S proteasome non-ATPase regulatory subunit 4-like isoform 1 [Glycine max] | Back alignment and taxonomy information |
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| >gi|356502793|ref|XP_003520200.1| PREDICTED: 26S proteasome non-ATPase regulatory subunit 4-like isoform 1 [Glycine max] | Back alignment and taxonomy information |
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| >gi|356559274|ref|XP_003547925.1| PREDICTED: 26S proteasome non-ATPase regulatory subunit 4-like isoform 2 [Glycine max] | Back alignment and taxonomy information |
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| >gi|356496629|ref|XP_003517168.1| PREDICTED: 26S proteasome non-ATPase regulatory subunit 4-like [Glycine max] | Back alignment and taxonomy information |
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| >gi|225431100|ref|XP_002264558.1| PREDICTED: 26S proteasome non-ATPase regulatory subunit 4 [Vitis vinifera] gi|297734994|emb|CBI17356.3| unnamed protein product [Vitis vinifera] | Back alignment and taxonomy information |
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| >gi|363807696|ref|NP_001242422.1| uncharacterized protein LOC100803975 [Glycine max] gi|255641336|gb|ACU20945.1| unknown [Glycine max] | Back alignment and taxonomy information |
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| >gi|449434144|ref|XP_004134856.1| PREDICTED: 26S proteasome non-ATPase regulatory subunit 4-like [Cucumis sativus] gi|449491330|ref|XP_004158863.1| PREDICTED: 26S proteasome non-ATPase regulatory subunit 4-like [Cucumis sativus] | Back alignment and taxonomy information |
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| >gi|388490844|gb|AFK33488.1| unknown [Lotus japonicus] | Back alignment and taxonomy information |
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| >gi|255580000|ref|XP_002530834.1| 26S proteasome non-atpase regulatory subunit, putative [Ricinus communis] gi|223529598|gb|EEF31547.1| 26S proteasome non-atpase regulatory subunit, putative [Ricinus communis] | Back alignment and taxonomy information |
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Prediction of Gene Ontology (GO) Terms
Close Homologs with Gene Ontology terms Detected by BLAST
Original result of BLAST against Gene Ontology (AMIGO)
| ID |
Alignment graph |
Length |
Definition |
Q cover |
H cover |
Identity |
E-value |
| Query | 404 | ||||||
| TAIR|locus:2121269 | 386 | RPN10 "regulatory particle non | 0.779 | 0.816 | 0.614 | 1.2e-99 | |
| ZFIN|ZDB-GENE-050417-96 | 372 | psmd4b "proteasome (prosome, m | 0.549 | 0.596 | 0.506 | 3.7e-70 | |
| UNIPROTKB|F1PRW0 | 377 | PSMD4 "Uncharacterized protein | 0.549 | 0.588 | 0.502 | 1.2e-69 | |
| UNIPROTKB|Q58DA0 | 382 | PSMD4 "26S proteasome non-ATPa | 0.549 | 0.581 | 0.502 | 2.6e-69 | |
| UNIPROTKB|P55036 | 377 | PSMD4 "26S proteasome non-ATPa | 0.549 | 0.588 | 0.502 | 2.6e-69 | |
| UNIPROTKB|Q32YV9 | 377 | PSMD4 "Uncharacterized protein | 0.549 | 0.588 | 0.502 | 2.6e-69 | |
| MGI|MGI:1201670 | 376 | Psmd4 "proteasome (prosome, ma | 0.549 | 0.590 | 0.502 | 1.8e-68 | |
| RGD|621109 | 377 | Psmd4 "proteasome (prosome, ma | 0.549 | 0.588 | 0.502 | 1.8e-68 | |
| UNIPROTKB|Q5VWC4 | 380 | PSMD4 "26S proteasome non-ATPa | 0.549 | 0.584 | 0.502 | 2.3e-68 | |
| DICTYBASE|DDB_G0275775 | 349 | psmD4 "ubiquitin interacting m | 0.480 | 0.555 | 0.566 | 1.5e-66 |
| TAIR|locus:2121269 RPN10 "regulatory particle non-ATPase 10" [Arabidopsis thaliana (taxid:3702)] | Back alignment and assigned GO terms |
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Score = 989 (353.2 bits), Expect = 1.2e-99, P = 1.2e-99
Identities = 207/337 (61%), Positives = 239/337 (70%)
Query: 1 MVLEATLICIDNSEWMRNGDYAPSRFQAQTEAANLICGAKTQLNPENTVGVMTMAGKGVR 60
MVLEAT+ICIDNSEWMRNGDY+PSR QAQTEA NL+CGAKTQ NPENTVG++TMAGKGVR
Sbjct: 1 MVLEATMICIDNSEWMRNGDYSPSRLQAQTEAVNLLCGAKTQSNPENTVGILTMAGKGVR 60
Query: 61 VLVTPTSDLGKILACMHGLEIGGELNLAAGIQVAQLALKHRQNKKQQQRIIVFVGSPIKH 120
VL TPTSDLGKILACMHGL++GGE+NL A IQ+AQLALKHRQNK Q+QRIIVF GSPIK+
Sbjct: 61 VLTTPTSDLGKILACMHGLDVGGEINLTAAIQIAQLALKHRQNKNQRQRIIVFAGSPIKY 120
Query: 121 EKKVLEMIGRKLKKNSVALDIVNFGEDD-EGNTEKLEALLAAVNNNDSSHLVHVPPGPNA 179
EKK LE++G++LKKNSV+LDIVNFGEDD E +KLEALL AVNNND SH+VHVP G NA
Sbjct: 121 EKKALEIVGKRLKKNSVSLDIVNFGEDDDEEKPQKLEALLTAVNNNDGSHIVHVPSGANA 180
Query: 180 LSDVLLSTPIFTGDGEXXXXXXXXXXXXXXXXXXXYEFGVDPNLDPELALALRVSMXXXX 239
LSDVLLSTP+FTGD ++FGVDPN+DPELALALRVSM
Sbjct: 181 LSDVLLSTPVFTGD--EGASGYVSAAAAAAAAGGDFDFGVDPNIDPELALALRVSMEEER 238
Query: 240 XXXXXXXXXXXXXXXXXXXXXXXXSSSQDVTM--TDQDSVPASEADDKKKTTKHDEGLLQ 297
S+SQ+ TD+++ P E D LL
Sbjct: 239 ARQEAAAKKAADEAGQKDKDGDTASASQETVARTTDKNAEPMDE----------DSALLD 288
Query: 298 EAIAMSSTPSYPSGRDTNMSEVAEDDPELALALQLSM 334
+AIAMS G D NMSE A++D +LALALQ+SM
Sbjct: 289 QAIAMSV------G-DVNMSEAADEDQDLALALQMSM 318
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| ZFIN|ZDB-GENE-050417-96 psmd4b "proteasome (prosome, macropain) 26S subunit, non-ATPase, 4b" [Danio rerio (taxid:7955)] | Back alignment and assigned GO terms |
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| UNIPROTKB|F1PRW0 PSMD4 "Uncharacterized protein" [Canis lupus familiaris (taxid:9615)] | Back alignment and assigned GO terms |
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| UNIPROTKB|Q58DA0 PSMD4 "26S proteasome non-ATPase regulatory subunit 4" [Bos taurus (taxid:9913)] | Back alignment and assigned GO terms |
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| UNIPROTKB|P55036 PSMD4 "26S proteasome non-ATPase regulatory subunit 4" [Homo sapiens (taxid:9606)] | Back alignment and assigned GO terms |
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| UNIPROTKB|Q32YV9 PSMD4 "Uncharacterized protein" [Sus scrofa (taxid:9823)] | Back alignment and assigned GO terms |
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| MGI|MGI:1201670 Psmd4 "proteasome (prosome, macropain) 26S subunit, non-ATPase, 4" [Mus musculus (taxid:10090)] | Back alignment and assigned GO terms |
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| RGD|621109 Psmd4 "proteasome (prosome, macropain) 26S subunit, non-ATPase, 4" [Rattus norvegicus (taxid:10116)] | Back alignment and assigned GO terms |
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| UNIPROTKB|Q5VWC4 PSMD4 "26S proteasome non-ATPase regulatory subunit 4" [Homo sapiens (taxid:9606)] | Back alignment and assigned GO terms |
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| DICTYBASE|DDB_G0275775 psmD4 "ubiquitin interacting motif (UIM) domain-containing protein" [Dictyostelium discoideum (taxid:44689)] | Back alignment and assigned GO terms |
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Prediction of Enzyme Commission (EC) Number
EC Number Prediction by Annotation Transfer from SWISS-PROT Entries
Original result of BLAST against SWISS-PROT
| ID | Name | Annotated EC number | Identity | Query coverage | Hit coverage | RBH(Q2H) | RBH(H2Q) |
| P55035 | PSMD4_DROME | No assigned EC number | 0.4139 | 0.8910 | 0.9090 | yes | no |
| P55034 | PSMD4_ARATH | No assigned EC number | 0.6560 | 0.9480 | 0.9922 | yes | no |
| P55036 | PSMD4_HUMAN | No assigned EC number | 0.3935 | 0.8514 | 0.9124 | yes | no |
| Q58DA0 | PSMD4_BOVIN | No assigned EC number | 0.3935 | 0.8514 | 0.9005 | yes | no |
| O35226 | PSMD4_MOUSE | No assigned EC number | 0.4116 | 0.8613 | 0.9255 | yes | no |
EC Number Prediction by Ezypred Server
Original result from Ezypred Server
Fail to connect to Ezypred Server
EC Number Prediction by EFICAz Software
No EC number assignment, probably not an enzyme!
Prediction of Functionally Associated Proteins
Functionally Associated Proteins Detected by STRING
Original result from the STRING server
Fail to connect to STRING server
Conserved Domains and Related Protein Families
Conserved Domains Detected by RPS-BLAST
Original result of RPS-BLAST against CDD database part I
| ID | Alignment Graph | Length |
Definition |
E-value |
| Query | 404 | |||
| cd01452 | 187 | cd01452, VWA_26S_proteasome_subunit, 26S proteasom | 1e-109 | |
| COG5148 | 243 | COG5148, RPN10, 26S proteasome regulatory complex, | 6e-78 | |
| smart00327 | 175 | smart00327, VWA, von Willebrand factor (vWF) type | 4e-12 | |
| cd01465 | 170 | cd01465, vWA_subgroup, VWA subgroup: Von Willebran | 8e-08 | |
| pfam13519 | 172 | pfam13519, VWA_2, von Willebrand factor type A dom | 3e-06 | |
| cd00198 | 161 | cd00198, vWFA, Von Willebrand factor type A (vWA) | 3e-06 |
| >gnl|CDD|238729 cd01452, VWA_26S_proteasome_subunit, 26S proteasome plays a major role in eukaryotic protein breakdown, especially for ubiquitin-tagged proteins | Back alignment and domain information |
|---|
Score = 317 bits (814), Expect = e-109
Identities = 121/188 (64%), Positives = 149/188 (79%), Gaps = 1/188 (0%)
Query: 1 MVLEATLICIDNSEWMRNGDYAPSRFQAQTEAANLICGAKTQLNPENTVGVMTMAGKGVR 60
MVLEAT+ICIDNSE+MRNGDY P+RFQAQ +A NLIC AKT+ NPEN VG+MTMAG
Sbjct: 1 MVLEATMICIDNSEYMRNGDYPPTRFQAQADAVNLICQAKTRSNPENNVGLMTMAGNSPE 60
Query: 61 VLVTPTSDLGKILACMHGLEIGGELNLAAGIQVAQLALKHRQNKKQQQRIIVFVGSPIKH 120
VLVT T+D GKIL+ +H ++ G+ N GIQ+AQLALKHRQNK Q+QRI+ FVGSPI+
Sbjct: 61 VLVTLTNDQGKILSKLHDVQPKGKANFITGIQIAQLALKHRQNKNQKQRIVAFVGSPIEE 120
Query: 121 EKKVLEMIGRKLKKNSVALDIVNFGEDDEGNTEKLEALLAAVNNNDSSHLVHVPPGPNAL 180
++K L + ++LKKN+V++DI+NFGE D+ NTEKL A + AVN D SHLV VPPG N L
Sbjct: 121 DEKDLVKLAKRLKKNNVSVDIINFGEIDD-NTEKLTAFIDAVNGKDGSHLVSVPPGENLL 179
Query: 181 SDVLLSTP 188
SD LLS+P
Sbjct: 180 SDALLSSP 187
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It is an ATP-dependent protease responsible for the bulk of non-lysosomal proteolysis in eukaryotes, often using covalent modification of proteins by ubiquitylation. It consists of a 20S proteolytic core particle (CP) and a 19S regulatory particle (RP). The CP is an ATP independent peptidase consisting of hydrolyzing activities. One or both ends of CP carry the RP that confers both ubiquitin and ATP dependence to the 26S proteosome. The RP's proposed functions include recognition of substrates and translocation of these to CP for proteolysis. The RP can dissociate into a stable lid and base subcomplexes. The base is composed of three non-ATPase subunits (Rpn 1, 2 and 10). A single residue in the vWA domain of Rpn10 has been implicated to be responsible for stabilizing the lid-base association. Length = 187 |
| >gnl|CDD|227477 COG5148, RPN10, 26S proteasome regulatory complex, subunit RPN10/PSMD4 [Posttranslational modification, protein turnover, chaperones] | Back alignment and domain information |
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| >gnl|CDD|214621 smart00327, VWA, von Willebrand factor (vWF) type A domain | Back alignment and domain information |
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| >gnl|CDD|238742 cd01465, vWA_subgroup, VWA subgroup: Von Willebrand factor type A (vWA) domain was originally found in the blood coagulation protein von Willebrand factor (vWF) | Back alignment and domain information |
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| >gnl|CDD|222192 pfam13519, VWA_2, von Willebrand factor type A domain | Back alignment and domain information |
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| >gnl|CDD|238119 cd00198, vWFA, Von Willebrand factor type A (vWA) domain was originally found in the blood coagulation protein von Willebrand factor (vWF) | Back alignment and domain information |
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Conserved Domains Detected by HHsearch
Original result of HHsearch against CDD database
| ID | Alignment Graph | Length |
Definition |
Probability |
| Query | 404 | |||
| KOG2884 | 259 | consensus 26S proteasome regulatory complex, subun | 100.0 | |
| COG5148 | 243 | RPN10 26S proteasome regulatory complex, subunit R | 100.0 | |
| cd01452 | 187 | VWA_26S_proteasome_subunit 26S proteasome plays a | 100.0 | |
| PF04056 | 193 | Ssl1: Ssl1-like; InterPro: IPR007198 Ssl1-like pro | 100.0 | |
| KOG2807 | 378 | consensus RNA polymerase II transcription initiati | 99.97 | |
| cd01453 | 183 | vWA_transcription_factor_IIH_type Transcription fa | 99.97 | |
| COG5151 | 421 | SSL1 RNA polymerase II transcription initiation/nu | 99.94 | |
| PRK13685 | 326 | hypothetical protein; Provisional | 99.81 | |
| PF13519 | 172 | VWA_2: von Willebrand factor type A domain; PDB: 3 | 99.78 | |
| cd01467 | 180 | vWA_BatA_type VWA BatA type: Von Willebrand factor | 99.74 | |
| cd01465 | 170 | vWA_subgroup VWA subgroup: Von Willebrand factor t | 99.72 | |
| cd01451 | 178 | vWA_Magnesium_chelatase Magnesium chelatase: Mg-ch | 99.69 | |
| cd01458 | 218 | vWA_ku Ku70/Ku80 N-terminal domain. The Ku78 heter | 99.65 | |
| cd01472 | 164 | vWA_collagen von Willebrand factor (vWF) type A do | 99.65 | |
| cd01466 | 155 | vWA_C3HC4_type VWA C3HC4-type: Von Willebrand fact | 99.63 | |
| cd01480 | 186 | vWA_collagen_alpha_1-VI-type VWA_collagen alpha(VI | 99.63 | |
| cd01456 | 206 | vWA_ywmD_type VWA ywmD type:Von Willebrand factor | 99.62 | |
| cd00198 | 161 | vWFA Von Willebrand factor type A (vWA) domain was | 99.6 | |
| TIGR03436 | 296 | acidobact_VWFA VWFA-related Acidobacterial domain. | 99.6 | |
| smart00327 | 177 | VWA von Willebrand factor (vWF) type A domain. VWA | 99.58 | |
| cd01470 | 198 | vWA_complement_factors Complement factors B and C2 | 99.57 | |
| cd01471 | 186 | vWA_micronemal_protein Micronemal proteins: The To | 99.57 | |
| cd01450 | 161 | vWFA_subfamily_ECM Von Willebrand factor type A (v | 99.56 | |
| cd01461 | 171 | vWA_interalpha_trypsin_inhibitor vWA_interalpha tr | 99.56 | |
| cd01463 | 190 | vWA_VGCC_like VWA Voltage gated Calcium channel li | 99.56 | |
| cd01482 | 164 | vWA_collagen_alphaI-XII-like Collagen: The extrace | 99.55 | |
| cd01469 | 177 | vWA_integrins_alpha_subunit Integrins are a class | 99.55 | |
| PRK13406 | 584 | bchD magnesium chelatase subunit D; Provisional | 99.54 | |
| cd01474 | 185 | vWA_ATR ATR (Anthrax Toxin Receptor): Anthrax toxi | 99.53 | |
| cd01460 | 266 | vWA_midasin VWA_Midasin: Midasin is a member of th | 99.53 | |
| cd01477 | 193 | vWA_F09G8-8_type VWA F09G8.8 type: Von Willebrand | 99.52 | |
| cd01476 | 163 | VWA_integrin_invertebrates VWA_integrin (invertebr | 99.47 | |
| cd01473 | 192 | vWA_CTRP CTRP for CS protein-TRAP-related protein: | 99.46 | |
| cd01454 | 174 | vWA_norD_type norD type: Denitrifying bacteria con | 99.44 | |
| TIGR00868 | 863 | hCaCC calcium-activated chloride channel protein 1 | 99.44 | |
| cd01464 | 176 | vWA_subfamily VWA subfamily: Von Willebrand factor | 99.44 | |
| cd01475 | 224 | vWA_Matrilin VWA_Matrilin: In cartilaginous plate, | 99.43 | |
| cd01462 | 152 | VWA_YIEM_type VWA YIEM type: Von Willebrand factor | 99.41 | |
| TIGR02031 | 589 | BchD-ChlD magnesium chelatase ATPase subunit D. Th | 99.41 | |
| PF00092 | 178 | VWA: von Willebrand factor type A domain; InterPro | 99.36 | |
| cd01455 | 191 | vWA_F11C1-5a_type Von Willebrand factor type A (vW | 99.36 | |
| TIGR02442 | 633 | Cob-chelat-sub cobaltochelatase subunit. A number | 99.36 | |
| PTZ00441 | 576 | sporozoite surface protein 2 (SSP2); Provisional | 99.29 | |
| PF13768 | 155 | VWA_3: von Willebrand factor type A domain | 99.28 | |
| cd01481 | 165 | vWA_collagen_alpha3-VI-like VWA_collagen alpha 3(V | 99.28 | |
| cd01457 | 199 | vWA_ORF176_type VWA ORF176 type: Von Willebrand fa | 99.26 | |
| COG1240 | 261 | ChlD Mg-chelatase subunit ChlD [Coenzyme metabolis | 99.25 | |
| TIGR03788 | 596 | marine_srt_targ marine proteobacterial sortase tar | 99.12 | |
| TIGR00627 | 279 | tfb4 transcription factor tfb4. This family is bas | 98.87 | |
| PF03731 | 224 | Ku_N: Ku70/Ku80 N-terminal alpha/beta domain; Inte | 98.72 | |
| TIGR00578 | 584 | ku70 ATP-dependent DNA helicase ii, 70 kDa subunit | 98.59 | |
| PRK10997 | 487 | yieM hypothetical protein; Provisional | 98.43 | |
| cd01479 | 244 | Sec24-like Sec24-like: Protein and membrane traffi | 98.39 | |
| PF10138 | 200 | vWA-TerF-like: vWA found in TerF C terminus ; Inte | 98.35 | |
| cd01468 | 239 | trunk_domain trunk domain. COPII-coated vesicles c | 98.32 | |
| PF04811 | 243 | Sec23_trunk: Sec23/Sec24 trunk domain; InterPro: I | 98.24 | |
| cd01478 | 267 | Sec23-like Sec23-like: Protein and membrane traffi | 98.23 | |
| COG4245 | 207 | TerY Uncharacterized protein encoded in toxicity p | 98.11 | |
| PF03850 | 276 | Tfb4: Transcription factor Tfb4; InterPro: IPR0046 | 98.09 | |
| PLN00162 | 761 | transport protein sec23; Provisional | 97.76 | |
| PF05762 | 222 | VWA_CoxE: VWA domain containing CoxE-like protein; | 97.67 | |
| COG2425 | 437 | Uncharacterized protein containing a von Willebran | 97.56 | |
| KOG2487 | 314 | consensus RNA polymerase II transcription initiati | 97.33 | |
| PF11265 | 226 | Med25_VWA: Mediator complex subunit 25 von Willebr | 97.3 | |
| COG2304 | 399 | Uncharacterized protein containing a von Willebran | 97.14 | |
| PTZ00395 | 1560 | Sec24-related protein; Provisional | 97.07 | |
| smart00187 | 423 | INB Integrin beta subunits (N-terminal portion of | 96.87 | |
| COG5242 | 296 | TFB4 RNA polymerase II transcription initiation/nu | 96.59 | |
| COG4867 | 652 | Uncharacterized protein with a von Willebrand fact | 96.19 | |
| PF06707 | 205 | DUF1194: Protein of unknown function (DUF1194); In | 96.13 | |
| cd01459 | 254 | vWA_copine_like VWA Copine: Copines are phospholip | 95.81 | |
| KOG1984 | 1007 | consensus Vesicle coat complex COPII, subunit SFB3 | 95.1 | |
| KOG2326 | 669 | consensus DNA-binding subunit of a DNA-dependent p | 94.81 | |
| PF02809 | 18 | UIM: Ubiquitin interaction motif; InterPro: IPR003 | 94.8 | |
| PF02809 | 18 | UIM: Ubiquitin interaction motif; InterPro: IPR003 | 94.45 | |
| smart00726 | 26 | UIM Ubiquitin-interacting motif. Present in protea | 94.28 | |
| KOG1986 | 745 | consensus Vesicle coat complex COPII, subunit SEC2 | 94.0 | |
| COG1721 | 416 | Uncharacterized conserved protein (some members co | 94.0 | |
| PF07002 | 146 | Copine: Copine; InterPro: IPR010734 This represent | 93.28 | |
| KOG2353 | 1104 | consensus L-type voltage-dependent Ca2+ channel, a | 92.72 | |
| PF00362 | 426 | Integrin_beta: Integrin, beta chain; InterPro: IPR | 92.46 | |
| COG5028 | 861 | Vesicle coat complex COPII, subunit SEC24/subunit | 92.43 | |
| smart00726 | 26 | UIM Ubiquitin-interacting motif. Present in protea | 91.87 | |
| PF11775 | 219 | CobT_C: Cobalamin biosynthesis protein CobT VWA do | 90.92 | |
| TIGR01651 | 600 | CobT cobaltochelatase, CobT subunit. This model de | 90.14 | |
| PF11443 | 534 | DUF2828: Domain of unknown function (DUF2828); Int | 89.55 | |
| PF09967 | 126 | DUF2201: VWA-like domain (DUF2201); InterPro: IPR0 | 86.17 | |
| PF10221 | 695 | DUF2151: Cell cycle and development regulator; Int | 84.1 | |
| COG4548 | 637 | NorD Nitric oxide reductase activation protein [In | 81.83 | |
| cd03811 | 353 | GT1_WabH_like This family is most closely related | 81.53 | |
| cd03819 | 355 | GT1_WavL_like This family is most closely related | 81.0 | |
| PF03853 | 169 | YjeF_N: YjeF-related protein N-terminus; InterPro: | 80.23 |
| >KOG2884 consensus 26S proteasome regulatory complex, subunit RPN10/PSMD4 [Posttranslational modification, protein turnover, chaperones] | Back alignment and domain information |
|---|
Probab=100.00 E-value=2.8e-85 Score=612.26 Aligned_cols=240 Identities=63% Similarity=0.973 Sum_probs=227.5
Q ss_pred CCcceEEEEEeCChhhhCCCCCCCHHHHHHHHHHHHHHHhccCCcCCeEEEEEecCCccEEEECCCCCHHHHHHHhcCcc
Q 015559 1 MVLEATLICIDNSEWMRNGDYAPSRFQAQTEAANLICGAKTQLNPENTVGVMTMAGKGVRVLVTPTSDLGKILACMHGLE 80 (404)
Q Consensus 1 m~lEa~vIvIDnSesMrngD~~PtRl~Aq~dAv~~fv~~k~~~NPesqVGLVtmag~~a~VLvtlT~D~~kils~L~~l~ 80 (404)
||||+||||||||+|||||||.||||+||+++|+.+|+.|+++||||+||||+|++..++||+|||+|+++|+++||.++
T Consensus 1 MvlEatmi~iDNse~mrNgDy~PtRf~aQ~daVn~v~~~K~~snpEntvGiitla~a~~~vLsT~T~d~gkils~lh~i~ 80 (259)
T KOG2884|consen 1 MVLEATMICIDNSEYMRNGDYLPTRFQAQKDAVNLVCQAKLRSNPENTVGIITLANASVQVLSTLTSDRGKILSKLHGIQ 80 (259)
T ss_pred CCcceEEEEEeChHHhhcCCCChHHHHHHHHHHHHHHHhhhcCCcccceeeEeccCCCceeeeeccccchHHHHHhcCCC
Confidence 99999999999999999999999999999999999999999999999999999999889999999999999999999999
Q ss_pred ccCCCcHHHHHHHHHHHhhhcCCCCCCeEEEEEEcCCCCCChhHHHHHHHHHHhCCceEEEEEeCCCCCCcHHHHHHHHH
Q 015559 81 IGGELNLAAGIQVAQLALKHRQNKKQQQRIIVFVGSPIKHEKKVLEMIGRKLKKNSVALDIVNFGEDDEGNTEKLEALLA 160 (404)
Q Consensus 81 ~~G~~sL~~gL~iA~lALKhr~~k~~~~RIVlFvgSp~~~d~~~l~~~ak~LKknnI~VdiI~fG~e~~~n~~~L~~~~~ 160 (404)
++|+++|.+||++|+++||||++|+|++|||+|||||+.+++++|+++||+|||++|.||||.||+.. +|+++|.+|++
T Consensus 81 ~~g~~~~~~~i~iA~lalkhRqnk~~~~riVvFvGSpi~e~ekeLv~~akrlkk~~Vaidii~FGE~~-~~~e~l~~fid 159 (259)
T KOG2884|consen 81 PHGKANFMTGIQIAQLALKHRQNKNQKQRIVVFVGSPIEESEKELVKLAKRLKKNKVAIDIINFGEAE-NNTEKLFEFID 159 (259)
T ss_pred cCCcccHHHHHHHHHHHHHhhcCCCcceEEEEEecCcchhhHHHHHHHHHHHHhcCeeEEEEEecccc-ccHHHHHHHHH
Confidence 99999999999999999999999999999999999999999999999999999999999999999999 78999999999
Q ss_pred HhcC-CCCcEEEEeCCCCchhhhhhhcCccccCCCCCCCchhHhHHHhhhcCCCCCccCCCCCCCHHHHHHHHhcHHHHH
Q 015559 161 AVNN-NDSSHLVHVPPGPNALSDVLLSTPIFTGDGEGGSGFAAAAAAAAASGASGYEFGVDPNLDPELALALRVSMEEER 239 (404)
Q Consensus 161 ~vn~-~d~Shlv~vp~g~~lLsD~l~sspi~~g~~~~~~~~~~~~~~~~~~~~~~~efgvDp~~DPELa~ALr~SlEEe~ 239 (404)
++|+ +++||+|+||||+ +|+|+|++|||+.||+ |+++ ++.++.|..|+|||||++|||||||||+||||||
T Consensus 160 a~N~~~~gshlv~Vppg~-~L~d~l~ssPii~ge~-g~a~------~~~~a~g~~f~fgvdp~~DPELAlALRlSMEEer 231 (259)
T KOG2884|consen 160 ALNGKGDGSHLVSVPPGP-LLSDALLSSPIIQGED-GGAA------AGLGANGMDFEFGVDPEDDPELALALRLSMEEER 231 (259)
T ss_pred HhcCCCCCceEEEeCCCc-cHHHHhhcCceeccCc-cccc------ccccccccccccCCCcccCHHHHHHHHhhHHHHH
Confidence 9999 7899999999999 8999999999999987 2222 2244556689999999999999999999999999
Q ss_pred HHHHHHHHHH
Q 015559 240 ARQEAAAKRA 249 (404)
Q Consensus 240 ~rq~~~~~~~ 249 (404)
+|||++++++
T Consensus 232 ~rQe~aa~~~ 241 (259)
T KOG2884|consen 232 ARQERAAQKA 241 (259)
T ss_pred HHHHHHhhhc
Confidence 9999776553
|
|
| >COG5148 RPN10 26S proteasome regulatory complex, subunit RPN10/PSMD4 [Posttranslational modification, protein turnover, chaperones] | Back alignment and domain information |
|---|
| >cd01452 VWA_26S_proteasome_subunit 26S proteasome plays a major role in eukaryotic protein breakdown, especially for ubiquitin-tagged proteins | Back alignment and domain information |
|---|
| >PF04056 Ssl1: Ssl1-like; InterPro: IPR007198 Ssl1-like proteins are 40 kDa subunits of the transcription factor II H complex | Back alignment and domain information |
|---|
| >KOG2807 consensus RNA polymerase II transcription initiation/nucleotide excision repair factor TFIIH, subunit SSL1 [Transcription; Replication, recombination and repair] | Back alignment and domain information |
|---|
| >cd01453 vWA_transcription_factor_IIH_type Transcription factors IIH type: TFIIH is a multiprotein complex that is one of the five general transcription factors that binds RNA polymerase II holoenzyme | Back alignment and domain information |
|---|
| >COG5151 SSL1 RNA polymerase II transcription initiation/nucleotide excision repair factor TFIIH, subunit SSL1 [Transcription / DNA replication, recombination, and repair] | Back alignment and domain information |
|---|
| >PRK13685 hypothetical protein; Provisional | Back alignment and domain information |
|---|
| >PF13519 VWA_2: von Willebrand factor type A domain; PDB: 3IBS_B 3RAG_B 2X5N_A | Back alignment and domain information |
|---|
| >cd01467 vWA_BatA_type VWA BatA type: Von Willebrand factor type A (vWA) domain was originally found in the blood coagulation protein von Willebrand factor (vWF) | Back alignment and domain information |
|---|
| >cd01465 vWA_subgroup VWA subgroup: Von Willebrand factor type A (vWA) domain was originally found in the blood coagulation protein von Willebrand factor (vWF) | Back alignment and domain information |
|---|
| >cd01451 vWA_Magnesium_chelatase Magnesium chelatase: Mg-chelatase catalyses the insertion of Mg into protoporphyrin IX (Proto) | Back alignment and domain information |
|---|
| >cd01458 vWA_ku Ku70/Ku80 N-terminal domain | Back alignment and domain information |
|---|
| >cd01472 vWA_collagen von Willebrand factor (vWF) type A domain; equivalent to the I-domain of integrins | Back alignment and domain information |
|---|
| >cd01466 vWA_C3HC4_type VWA C3HC4-type: Von Willebrand factor type A (vWA) domain was originally found in the blood coagulation protein von Willebrand factor (vWF) | Back alignment and domain information |
|---|
| >cd01480 vWA_collagen_alpha_1-VI-type VWA_collagen alpha(VI) type: The extracellular matrix represents a complex alloy of variable members of diverse protein families defining structural integrity and various physiological functions | Back alignment and domain information |
|---|
| >cd01456 vWA_ywmD_type VWA ywmD type:Von Willebrand factor type A (vWA) domain was originally found in the blood coagulation protein von Willebrand factor (vWF) | Back alignment and domain information |
|---|
| >cd00198 vWFA Von Willebrand factor type A (vWA) domain was originally found in the blood coagulation protein von Willebrand factor (vWF) | Back alignment and domain information |
|---|
| >TIGR03436 acidobact_VWFA VWFA-related Acidobacterial domain | Back alignment and domain information |
|---|
| >smart00327 VWA von Willebrand factor (vWF) type A domain | Back alignment and domain information |
|---|
| >cd01470 vWA_complement_factors Complement factors B and C2 are two critical proteases for complement activation | Back alignment and domain information |
|---|
| >cd01471 vWA_micronemal_protein Micronemal proteins: The Toxoplasma lytic cycle begins when the parasite actively invades a target cell | Back alignment and domain information |
|---|
| >cd01450 vWFA_subfamily_ECM Von Willebrand factor type A (vWA) domain was originally found in the blood coagulation protein von Willebrand factor (vWF) | Back alignment and domain information |
|---|
| >cd01461 vWA_interalpha_trypsin_inhibitor vWA_interalpha trypsin inhibitor (ITI): ITI is a glycoprotein composed of three polypeptides- two heavy chains and one light chain (bikunin) | Back alignment and domain information |
|---|
| >cd01463 vWA_VGCC_like VWA Voltage gated Calcium channel like: Voltage-gated calcium channels are a complex of five proteins: alpha 1, beta 1, gamma, alpha 2 and delta | Back alignment and domain information |
|---|
| >cd01482 vWA_collagen_alphaI-XII-like Collagen: The extracellular matrix represents a complex alloy of variable members of diverse protein families defining structural integrity and various physiological functions | Back alignment and domain information |
|---|
| >cd01469 vWA_integrins_alpha_subunit Integrins are a class of adhesion receptors that link the extracellular matrix to the cytoskeleton and cooperate with growth factor receptors to promote celll survival, cell cycle progression and cell migration | Back alignment and domain information |
|---|
| >PRK13406 bchD magnesium chelatase subunit D; Provisional | Back alignment and domain information |
|---|
| >cd01474 vWA_ATR ATR (Anthrax Toxin Receptor): Anthrax toxin is a key virulence factor for Bacillus anthracis, the causative agent of anthrax | Back alignment and domain information |
|---|
| >cd01460 vWA_midasin VWA_Midasin: Midasin is a member of the AAA ATPase family | Back alignment and domain information |
|---|
| >cd01477 vWA_F09G8-8_type VWA F09G8 | Back alignment and domain information |
|---|
| >cd01476 VWA_integrin_invertebrates VWA_integrin (invertebrates): Integrins are a family of cell surface receptors that have diverse functions in cell-cell and cell-extracellular matrix interactions | Back alignment and domain information |
|---|
| >cd01473 vWA_CTRP CTRP for CS protein-TRAP-related protein: Adhesion of Plasmodium to host cells is an important phenomenon in parasite invasion and in malaria associated pathology | Back alignment and domain information |
|---|
| >cd01454 vWA_norD_type norD type: Denitrifying bacteria contain both membrane bound and periplasmic nitrate reductases | Back alignment and domain information |
|---|
| >TIGR00868 hCaCC calcium-activated chloride channel protein 1 | Back alignment and domain information |
|---|
| >cd01464 vWA_subfamily VWA subfamily: Von Willebrand factor type A (vWA) domain was originally found in the blood coagulation protein von Willebrand factor (vWF) | Back alignment and domain information |
|---|
| >cd01475 vWA_Matrilin VWA_Matrilin: In cartilaginous plate, extracellular matrix molecules mediate cell-matrix and matrix-matrix interactions thereby providing tissue integrity | Back alignment and domain information |
|---|
| >cd01462 VWA_YIEM_type VWA YIEM type: Von Willebrand factor type A (vWA) domain was originally found in the blood coagulation protein von Willebrand factor (vWF) | Back alignment and domain information |
|---|
| >TIGR02031 BchD-ChlD magnesium chelatase ATPase subunit D | Back alignment and domain information |
|---|
| >PF00092 VWA: von Willebrand factor type A domain; InterPro: IPR002035 The von Willebrand factor is a large multimeric glycoprotein found in blood plasma | Back alignment and domain information |
|---|
| >cd01455 vWA_F11C1-5a_type Von Willebrand factor type A (vWA) domain was originally found in the blood coagulation protein von Willebrand factor (vWF) | Back alignment and domain information |
|---|
| >TIGR02442 Cob-chelat-sub cobaltochelatase subunit | Back alignment and domain information |
|---|
| >PTZ00441 sporozoite surface protein 2 (SSP2); Provisional | Back alignment and domain information |
|---|
| >PF13768 VWA_3: von Willebrand factor type A domain | Back alignment and domain information |
|---|
| >cd01481 vWA_collagen_alpha3-VI-like VWA_collagen alpha 3(VI) like: The extracellular matrix represents a complex alloy of variable members of diverse protein families defining structural integrity and various physiological functions | Back alignment and domain information |
|---|
| >cd01457 vWA_ORF176_type VWA ORF176 type: Von Willebrand factor type A (vWA) domain was originally found in the blood coagulation protein von Willebrand factor (vWF) | Back alignment and domain information |
|---|
| >COG1240 ChlD Mg-chelatase subunit ChlD [Coenzyme metabolism] | Back alignment and domain information |
|---|
| >TIGR03788 marine_srt_targ marine proteobacterial sortase target protein | Back alignment and domain information |
|---|
| >TIGR00627 tfb4 transcription factor tfb4 | Back alignment and domain information |
|---|
| >PF03731 Ku_N: Ku70/Ku80 N-terminal alpha/beta domain; InterPro: IPR005161 The Ku heterodimer (composed of Ku70 P12956 from SWISSPROT and Ku80 P13010 from SWISSPROT) contributes to genomic integrity through its ability to bind DNA double-strand breaks and facilitate repair by the non-homologous end-joining pathway | Back alignment and domain information |
|---|
| >TIGR00578 ku70 ATP-dependent DNA helicase ii, 70 kDa subunit (ku70) | Back alignment and domain information |
|---|
| >PRK10997 yieM hypothetical protein; Provisional | Back alignment and domain information |
|---|
| >cd01479 Sec24-like Sec24-like: Protein and membrane traffic in eukaryotes is mediated by at least in part by the budding and fusion of intracellular transport vesicles that selectively carry cargo proteins and lipids from donor to acceptor organelles | Back alignment and domain information |
|---|
| >PF10138 vWA-TerF-like: vWA found in TerF C terminus ; InterPro: IPR019303 This entry represents the N-terminal domain of a family of proteins that confer resistance to the metalloid element tellurium and its salts | Back alignment and domain information |
|---|
| >cd01468 trunk_domain trunk domain | Back alignment and domain information |
|---|
| >PF04811 Sec23_trunk: Sec23/Sec24 trunk domain; InterPro: IPR006896 COPII (coat protein complex II)-coated vesicles carry proteins from the endoplasmic reticulum (ER) to the Golgi complex [] | Back alignment and domain information |
|---|
| >cd01478 Sec23-like Sec23-like: Protein and membrane traffic in eukaryotes is mediated by at least in part by the budding and fusion of intracellular transport vesicles that selectively carry cargo proteins and lipids from donor to acceptor organelles | Back alignment and domain information |
|---|
| >COG4245 TerY Uncharacterized protein encoded in toxicity protection region of plasmid R478, contains von Willebrand factor (vWF) domain [General function prediction only] | Back alignment and domain information |
|---|
| >PF03850 Tfb4: Transcription factor Tfb4; InterPro: IPR004600 Members of this family are part of the TFIIH complex which is involved in the initiation of transcription and nucleotide excision repair | Back alignment and domain information |
|---|
| >PLN00162 transport protein sec23; Provisional | Back alignment and domain information |
|---|
| >PF05762 VWA_CoxE: VWA domain containing CoxE-like protein; InterPro: IPR008912 This group of proteins contains a VWA type domain and the function of this family is unknown | Back alignment and domain information |
|---|
| >COG2425 Uncharacterized protein containing a von Willebrand factor type A (vWA) domain [General function prediction only] | Back alignment and domain information |
|---|
| >KOG2487 consensus RNA polymerase II transcription initiation/nucleotide excision repair factor TFIIH, subunit TFB4 [Transcription; Replication, recombination and repair] | Back alignment and domain information |
|---|
| >PF11265 Med25_VWA: Mediator complex subunit 25 von Willebrand factor type A; InterPro: IPR021419 The overall function of the full-length Med25 is efficiently to coordinate the transcriptional activation of RAR/RXR (retinoic acid receptor/retinoic X receptor) in higher eukaryotic cells | Back alignment and domain information |
|---|
| >COG2304 Uncharacterized protein containing a von Willebrand factor type A (vWA) domain [General function prediction only] | Back alignment and domain information |
|---|
| >PTZ00395 Sec24-related protein; Provisional | Back alignment and domain information |
|---|
| >smart00187 INB Integrin beta subunits (N-terminal portion of extracellular region) | Back alignment and domain information |
|---|
| >COG5242 TFB4 RNA polymerase II transcription initiation/nucleotide excision repair factor TFIIH, subunit TFB4 [Transcription / DNA replication, recombination, and repair] | Back alignment and domain information |
|---|
| >COG4867 Uncharacterized protein with a von Willebrand factor type A (vWA) domain [General function prediction only] | Back alignment and domain information |
|---|
| >PF06707 DUF1194: Protein of unknown function (DUF1194); InterPro: IPR010607 This family consists of several hypothetical Rhizobiales specific proteins of around 270 residues in length | Back alignment and domain information |
|---|
| >cd01459 vWA_copine_like VWA Copine: Copines are phospholipid-binding proteins originally identified in paramecium | Back alignment and domain information |
|---|
| >KOG1984 consensus Vesicle coat complex COPII, subunit SFB3 [Intracellular trafficking, secretion, and vesicular transport] | Back alignment and domain information |
|---|
| >KOG2326 consensus DNA-binding subunit of a DNA-dependent protein kinase (Ku80 autoantigen) [Replication, recombination and repair] | Back alignment and domain information |
|---|
| >PF02809 UIM: Ubiquitin interaction motif; InterPro: IPR003903 The Ubiquitin Interacting Motif (UIM), or 'LALAL-motif', is a stretch of about 20 amino acid residues, which was first described in the 26S proteasome subunit PSD4/RPN-10 that is known to recognise ubiquitin [,] | Back alignment and domain information |
|---|
| >PF02809 UIM: Ubiquitin interaction motif; InterPro: IPR003903 The Ubiquitin Interacting Motif (UIM), or 'LALAL-motif', is a stretch of about 20 amino acid residues, which was first described in the 26S proteasome subunit PSD4/RPN-10 that is known to recognise ubiquitin [,] | Back alignment and domain information |
|---|
| >smart00726 UIM Ubiquitin-interacting motif | Back alignment and domain information |
|---|
| >KOG1986 consensus Vesicle coat complex COPII, subunit SEC23 [Intracellular trafficking, secretion, and vesicular transport] | Back alignment and domain information |
|---|
| >COG1721 Uncharacterized conserved protein (some members contain a von Willebrand factor type A (vWA) domain) [General function prediction only] | Back alignment and domain information |
|---|
| >PF07002 Copine: Copine; InterPro: IPR010734 This represents a conserved region approximately 180 residues long within eukaryotic copines | Back alignment and domain information |
|---|
| >KOG2353 consensus L-type voltage-dependent Ca2+ channel, alpha2/delta subunit [Inorganic ion transport and metabolism; Signal transduction mechanisms] | Back alignment and domain information |
|---|
| >PF00362 Integrin_beta: Integrin, beta chain; InterPro: IPR002369 Integrins are the major metazoan receptors for cell adhesion to extracellular matrix proteins and, in vertebrates, also play important roles in certain cell-cell adhesions, make transmembrane connections to the cytoskeleton and activate many intracellular signalling pathways [, ] | Back alignment and domain information |
|---|
| >COG5028 Vesicle coat complex COPII, subunit SEC24/subunit SFB2/subunit SFB3 [Intracellular trafficking and secretion] | Back alignment and domain information |
|---|
| >smart00726 UIM Ubiquitin-interacting motif | Back alignment and domain information |
|---|
| >PF11775 CobT_C: Cobalamin biosynthesis protein CobT VWA domain | Back alignment and domain information |
|---|
| >TIGR01651 CobT cobaltochelatase, CobT subunit | Back alignment and domain information |
|---|
| >PF11443 DUF2828: Domain of unknown function (DUF2828); InterPro: IPR024553 This uncharacterised domain is found in eukaryotic, bacterial and viral proteins | Back alignment and domain information |
|---|
| >PF09967 DUF2201: VWA-like domain (DUF2201); InterPro: IPR018698 This family of various hypothetical bacterial proteins has no known function | Back alignment and domain information |
|---|
| >PF10221 DUF2151: Cell cycle and development regulator; InterPro: IPR019355 This entry represents the cell cycle regulator Mat89b, which plays an evolutionarily conserved role as a crucial regulator of both cell cycle and development [] | Back alignment and domain information |
|---|
| >COG4548 NorD Nitric oxide reductase activation protein [Inorganic ion transport and metabolism] | Back alignment and domain information |
|---|
| >cd03811 GT1_WabH_like This family is most closely related to the GT1 family of glycosyltransferases | Back alignment and domain information |
|---|
| >cd03819 GT1_WavL_like This family is most closely related to the GT1 family of glycosyltransferases | Back alignment and domain information |
|---|
| >PF03853 YjeF_N: YjeF-related protein N-terminus; InterPro: IPR004443 The YjeF N-terminal domains occur either as single proteins or fusions with other domains and are commonly associated with enzymes | Back alignment and domain information |
|---|
Homologous Structure Templates
Structure Templates Detected by BLAST
Original result of BLAST against Protein Data Bank
| ID | Alignment Graph | Length |
Definition |
E-value | |
| Query | 404 | ||||
| 4b4t_W | 268 | Near-Atomic Resolution Structural Model Of The Yeas | 1e-57 | ||
| 2x5n_A | 192 | Crystal Structure Of The Sprpn10 Vwa Domain Length | 6e-49 | ||
| 2kde_A | 111 | Nmr Structure Of Major S5a (196-306):k48 Linked Diu | 3e-04 | ||
| 1yx4_A | 132 | Structure Of S5a Bound To Monoubiquitin Provides A | 3e-04 |
| >pdb|4B4T|W Chain W, Near-Atomic Resolution Structural Model Of The Yeast 26s Proteasome Length = 268 | Back alignment and structure |
|
| >pdb|2X5N|A Chain A, Crystal Structure Of The Sprpn10 Vwa Domain Length = 192 | Back alignment and structure |
| >pdb|2KDE|A Chain A, Nmr Structure Of Major S5a (196-306):k48 Linked Diubiquitin Species Length = 111 | Back alignment and structure |
| >pdb|1YX4|A Chain A, Structure Of S5a Bound To Monoubiquitin Provides A Model For Polyubiquitin Recognition Length = 132 | Back alignment and structure |
Structure Templates Detected by RPS-BLAST
Original result of RPS-BLAST against PDB70 database
| >2x5n_A SPRPN10, 26S proteasome regulatory subunit RPN10; nuclear protein, nucleus, ubiquitin; 1.30A {Schizosaccharomyces pombe} Length = 192 | Back alignment and structure |
|---|
Score = 238 bits (608), Expect = 6e-78
Identities = 95/193 (49%), Positives = 128/193 (66%), Gaps = 2/193 (1%)
Query: 2 VLEATLICIDNSEWMRNGDYAPSRFQAQTEAANLICGAKTQLNPENTVGVMTMAGKGVRV 61
VLEAT+I IDNSEWM NGDY P+RF+AQ + ++I K NPEN G+MT+ +V
Sbjct: 1 VLEATMILIDNSEWMINGDYIPTRFEAQKDTVHMIFNQKINDNPENMCGLMTIGDNSPQV 60
Query: 62 LVTPTSDLGKILACMHGLEIGGELNLAAGIQVAQLALKHRQNKKQQQRIIVFVGSPIKHE 121
L T T D GK L+ MH L + G GIQ+AQLALKHR+NK Q+QRI+ FVGSPI +
Sbjct: 61 LSTLTRDYGKFLSAMHDLPVRGNAKFGDGIQIAQLALKHRENKIQRQRIVAFVGSPIVED 120
Query: 122 KKVLEMIGRKLKKNSVALDIVNFGEDDEGNTEKLEALLAAVNNNDSSHLVHVPPGPNALS 181
+K L + +++KKN+VA+DI++ GE N L+ + A N++DS HLV +PP P LS
Sbjct: 121 EKNLIRLAKRMKKNNVAIDIIHIGELQ--NESALQHFIDAANSSDSCHLVSIPPSPQLLS 178
Query: 182 DVLLSTPIFTGDG 194
D++ +PI G
Sbjct: 179 DLVNQSPIGQGVV 191
|
| >1yx4_A 26S proteasome non-ATPase regulatory subunit 4; polyubiquitin, UIM, hydrolase; NMR {Homo sapiens} PDB: 1yx5_A 1yx6_A 2kde_A 2kdf_A Length = 132 | Back alignment and structure |
|---|
| >1vt4_I APAF-1 related killer DARK; drosophila apoptosome, apoptosis, programmed cell death; HET: DTP; 6.90A {Drosophila melanogaster} PDB: 3iz8_A* Length = 1221 | Back alignment and structure |
|---|
| >1vt4_I APAF-1 related killer DARK; drosophila apoptosome, apoptosis, programmed cell death; HET: DTP; 6.90A {Drosophila melanogaster} PDB: 3iz8_A* Length = 1221 | Back alignment and structure |
|---|
| >2x31_A Magnesium-chelatase 60 kDa subunit; ligase, bacteriochlorophyll biosynthesis, photosynthesis; 7.50A {Rhodobacter capsulatus} Length = 189 | Back alignment and structure |
|---|
Structure Templates Detected by HHsearch
Original result of HHsearch against PDB70 database
| ID | Alignment Graph | Length |
Definition |
Probability |
| Query | 404 | |||
| 4b4t_W | 268 | RPN10, 26S proteasome regulatory subunit RPN10; hy | 100.0 | |
| 2x5n_A | 192 | SPRPN10, 26S proteasome regulatory subunit RPN10; | 100.0 | |
| 1yx4_A | 132 | 26S proteasome non-ATPase regulatory subunit 4; po | 99.94 | |
| 1jey_B | 565 | KU80; double-strand DNA break repair, non-homologo | 99.85 | |
| 3ibs_A | 218 | Conserved hypothetical protein BATB; structural ge | 99.83 | |
| 1atz_A | 189 | VON willebrand factor; collagen-binding, hemostasi | 99.67 | |
| 1q0p_A | 223 | Complement factor B; VON willebrand factor, MAC-1, | 99.67 | |
| 1shu_X | 182 | Anthrax toxin receptor 2; alpha/beta rossmann fold | 99.66 | |
| 1ijb_A | 202 | VON willebrand factor; dinucleotide-binding fold, | 99.66 | |
| 2xgg_A | 178 | Microneme protein 2; A/I domain, cell adhesion, hy | 99.63 | |
| 1jey_A | 609 | KU70; double-strand DNA break repair, non-homologo | 99.62 | |
| 4hqo_A | 266 | Sporozoite surface protein 2; malaria, gliding mot | 99.62 | |
| 3n2n_F | 185 | Anthrax toxin receptor 1; rossmann fold; 1.80A {Ho | 99.61 | |
| 4fx5_A | 464 | VON willebrand factor type A; structural genomics, | 99.6 | |
| 1mf7_A | 194 | Integrin alpha M; cell adhesion; 1.25A {Homo sapie | 99.6 | |
| 4hqf_A | 281 | Thrombospondin-related anonymous protein, trap; ma | 99.59 | |
| 1v7p_C | 200 | Integrin alpha-2; snake venom, C-type lectin, anta | 99.58 | |
| 1n3y_A | 198 | Integrin alpha-X; alpha/beta rossmann fold, cell a | 99.58 | |
| 2b2x_A | 223 | Integrin alpha-1; computational design, antibody-a | 99.58 | |
| 2x31_A | 189 | Magnesium-chelatase 60 kDa subunit; ligase, bacter | 99.54 | |
| 1pt6_A | 213 | Integrin alpha-1; cell adhesion; 1.87A {Homo sapie | 99.54 | |
| 1rrk_A | 497 | Complement factor B; BB, hydrolase; 2.00A {Homo sa | 99.52 | |
| 2odp_A | 509 | Complement C2; C3/C5 convertase, complement serin | 99.47 | |
| 3hrz_D | 741 | Complement factor B; serine protease, glycosilated | 99.4 | |
| 3zqk_A | 199 | VON willebrand factor; blood clotting, adamts-13, | 99.37 | |
| 1mjn_A | 179 | Integrin alpha-L; rossmann fold, immune system; 1. | 99.26 | |
| 3k6s_A | 1095 | Integrin alpha-X; cell receptor, adhesion molecule | 99.18 | |
| 1yvr_A | 538 | RO autoantigen, 60-kDa SS-A/RO ribonucleoprotein, | 98.83 | |
| 2ww8_A | 893 | RRGA, cell WALL surface anchor family protein; IGG | 98.74 | |
| 2nvo_A | 535 | RO sixty-related protein, RSR; alpha helical repea | 98.54 | |
| 3rag_A | 242 | Uncharacterized protein; structural genomics, PSI- | 98.53 | |
| 2nut_A | 769 | Protein transport protein SEC23A; human copii SEC2 | 98.51 | |
| 2iue_A | 212 | Pactolus I-domain; membrane protein, CD, ITC, limb | 98.31 | |
| 1pcx_A | 810 | Protein transport protein SEC24; 2.50A {Saccharomy | 98.25 | |
| 1m2o_A | 768 | SEC23, protein transport protein SEC23, SEC23P; zi | 98.13 | |
| 1m2v_B | 926 | SEC24, protein transport protein SEC24, SEC24P, SE | 98.13 | |
| 3eh2_A | 766 | Protein transport protein SEC24C; copii-coat prote | 97.71 | |
| 3eh1_A | 751 | Protein transport protein SEC24B; copii coat prote | 97.67 | |
| 3efo_B | 770 | SEC24 related gene family, member D; copii, coat p | 97.62 | |
| 3fcs_B | 690 | Integrin beta-3; beta propeller, rossmann fold, EG | 97.58 | |
| 2klz_A | 52 | Ataxin-3; UIM, ubiquitin-binding, hydrolase, neuro | 97.48 | |
| 3k6s_B | 687 | Integrin beta-2; cell receptor, adhesion molecule, | 97.25 | |
| 1p9c_A | 45 | 26S proteasome non-ATPase regulatory subunit 4; al | 97.11 | |
| 3vi3_B | 454 | Integrin beta-1; beta propeller fold, rossman fold | 97.09 | |
| 3t3p_B | 472 | Integrin beta-3; integrin, cell adhesion, blood cl | 96.88 | |
| 3rag_A | 242 | Uncharacterized protein; structural genomics, PSI- | 96.79 | |
| 3v4v_B | 503 | Integrin beta-7; cell adhesion, madcam-1, membrane | 96.76 | |
| 1q0v_A | 81 | Hydrophilic protein; has cysteine rich putative zi | 91.5 | |
| 1q0v_A | 81 | Hydrophilic protein; has cysteine rich putative zi | 91.49 | |
| 1yx4_A | 132 | 26S proteasome non-ATPase regulatory subunit 4; po | 89.72 | |
| 3qhp_A | 166 | Type 1 capsular polysaccharide biosynthesis prote | 85.68 | |
| 2klz_A | 52 | Ataxin-3; UIM, ubiquitin-binding, hydrolase, neuro | 85.31 | |
| 2rr9_C | 46 | Putative uncharacterized protein UIMC1; Lys63-link | 84.81 | |
| 3a1q_C | 45 | Ubiquitin interaction motif-containing protein 1; | 84.3 | |
| 3a1q_C | 45 | Ubiquitin interaction motif-containing protein 1; | 82.73 | |
| 2rr9_C | 46 | Putative uncharacterized protein UIMC1; Lys63-link | 82.11 |
| >4b4t_W RPN10, 26S proteasome regulatory subunit RPN10; hydrolase, AAA-atpases, protein degradation, ubiquitin-prote pathway; 7.40A {Saccharomyces cerevisiae} | Back alignment and structure |
|---|
Probab=100.00 E-value=1.2e-78 Score=588.71 Aligned_cols=251 Identities=49% Similarity=0.770 Sum_probs=190.1
Q ss_pred CCcceEEEEEeCChhhhCCCCCCCHHHHHHHHHHHHHHHhccCCcCCeEEEEEecCCccEEEECCCCCHHHHHHHhcCcc
Q 015559 1 MVLEATLICIDNSEWMRNGDYAPSRFQAQTEAANLICGAKTQLNPENTVGVMTMAGKGVRVLVTPTSDLGKILACMHGLE 80 (404)
Q Consensus 1 m~lEa~vIvIDnSesMrngD~~PtRl~Aq~dAv~~fv~~k~~~NPesqVGLVtmag~~a~VLvtlT~D~~kils~L~~l~ 80 (404)
|||||||||||+|.||+++||.||||++|++|++.|++.|+++||+++||||+|+|+.+.|++|||+|+.+|+.+|+.++
T Consensus 1 m~lEAtViviD~S~SM~~~D~~PsRl~a~k~Av~~li~~~~~~nPed~VGLVtfag~~~~vl~plT~D~~~il~aL~~l~ 80 (268)
T 4b4t_W 1 MVLEATVLVIDNSEYSRNGDFPRTRFEAQIDSVEFIFQAKRNSNPENTVGLISGAGANPRVLSTFTAEFGKILAGLHDTQ 80 (268)
T ss_dssp CCCEEEEEEECCSSTTSSTTSSSCHHHHHHHHHHHHHHHHHHHCTTCEEEEEECCTTSCEEEEEEESCHHHHHHHHTTCC
T ss_pred CCceeEEEEEECCHHHhCCCCCCcHHHHHHHHHHHHHHHHhhCCCcceEEEEEecCCcceeccCCcchHHHHHHHhhhcC
Confidence 99999999999999999999999999999999999999999999999999999999989999999999999999999999
Q ss_pred ccCCCcHHHHHHHHHHHhhhcCCCCCCeEEEEEEcCCCCCChhHHHHHHHHHHhCCceEEEEEeCCCCCCcHHHHHHHHH
Q 015559 81 IGGELNLAAGIQVAQLALKHRQNKKQQQRIIVFVGSPIKHEKKVLEMIGRKLKKNSVALDIVNFGEDDEGNTEKLEALLA 160 (404)
Q Consensus 81 ~~G~~sL~~gL~iA~lALKhr~~k~~~~RIVlFvgSp~~~d~~~l~~~ak~LKknnI~VdiI~fG~e~~~n~~~L~~~~~ 160 (404)
++|.|+|.+||++|+++||||+++++++|||||++|+++++++++++++|++||+||+|+|||||... +|.++|++|++
T Consensus 81 ~~G~T~l~~gL~~A~~aLk~~~~k~~~~rIIlf~ds~~~~~~~~l~~lak~lkk~gI~v~vIgFG~~~-~n~~kLe~l~~ 159 (268)
T 4b4t_W 81 IEGKLHMATALQIAQLTLKHRQNKVQHQRIVAFVCSPISDSRDELIRLAKTLKKNNVAVDIINFGEIE-QNTELLDEFIA 159 (268)
T ss_dssp CCSCCCHHHHHHHHHHHHHTCSCTTSEEEEEEEECSCCSSCHHHHHHHHHHHHHHTEEEEEEEESSCC-SSCCHHHHHHH
T ss_pred cCCCCChHHHHHHHHHHHHhcccCCCceEEEEEECCCCCCCHHHHHHHHHHHHHcCCEEEEEEeCCCc-cchHHHHHHHH
Confidence 99999999999999999999999999999999999999999999999999999999999999999988 79999999999
Q ss_pred HhcC--CCCcEEEEeCCCCchhhhhhhcCccccCCCCCCCchhHhHHHhhhcCCCCCccCCCCCCCHHHHHHHHhcHHHH
Q 015559 161 AVNN--NDSSHLVHVPPGPNALSDVLLSTPIFTGDGEGGSGFAAAAAAAAASGASGYEFGVDPNLDPELALALRVSMEEE 238 (404)
Q Consensus 161 ~vn~--~d~Shlv~vp~g~~lLsD~l~sspi~~g~~~~~~~~~~~~~~~~~~~~~~~efgvDp~~DPELa~ALr~SlEEe 238 (404)
++|+ +++||||+||||+++|||+|++|||+.|++.++.+++++++|++++++++|||||||++|||||||||||||||
T Consensus 160 ~~Ng~~~~~s~~v~v~~g~~~lsd~l~~s~i~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~dp~~dpela~alr~s~eee 239 (268)
T 4b4t_W 160 AVNNPQEETSHLLTVTPGPRLLYENIASSPIILEEGSSGMGAFGGSGGDSDANGTFMDFGVDPSMDPELAMALRLSMEEE 239 (268)
T ss_dssp HHCSSTTTSCEEEEECCCSSCHHHHHHTSTTSCCCCC-------------------------------------------
T ss_pred HhcCCCCCceeEEEeCCCCccHHHHHhcCCccccCCccccccccccccccccCCcccccCCCCCCCHHHHHHHHHhHHHH
Confidence 9998 57999999999999999999999999998743333222333444556678999999999999999999999999
Q ss_pred HHHHHHHHHHHHHH
Q 015559 239 RARQEAAAKRAAEE 252 (404)
Q Consensus 239 ~~rq~~~~~~~~~~ 252 (404)
|+|||++++++.+.
T Consensus 240 ~~rq~~~~~~~~~~ 253 (268)
T 4b4t_W 240 QQRQERLRQQQQQQ 253 (268)
T ss_dssp --------------
T ss_pred HHHHHHHhhccccc
Confidence 99999998876544
|
| >2x5n_A SPRPN10, 26S proteasome regulatory subunit RPN10; nuclear protein, nucleus, ubiquitin; 1.30A {Schizosaccharomyces pombe} | Back alignment and structure |
|---|
| >1yx4_A 26S proteasome non-ATPase regulatory subunit 4; polyubiquitin, UIM, hydrolase; NMR {Homo sapiens} PDB: 1yx5_A 1yx6_A 2kde_A 2kdf_A | Back alignment and structure |
|---|
| >1jey_B KU80; double-strand DNA break repair, non-homologous END-joining, protein/nucleic acid complex, alpha/beta domain, beta barrel; HET: DNA; 2.50A {Homo sapiens} SCOP: b.131.1.2 c.62.1.4 PDB: 1jeq_B* | Back alignment and structure |
|---|
| >3ibs_A Conserved hypothetical protein BATB; structural genomics, protein structure, midwest center for S genomics, MCSG, PSI-2; HET: MSE; 2.10A {Bacteroides thetaiotaomicron} | Back alignment and structure |
|---|
| >1atz_A VON willebrand factor; collagen-binding, hemostasis, dinucleotide binding fold; 1.80A {Homo sapiens} SCOP: c.62.1.1 PDB: 4dmu_B 2adf_A 1fe8_A 1ao3_A | Back alignment and structure |
|---|
| >1q0p_A Complement factor B; VON willebrand factor, MAC-1, I domain, A domain, hydrolase; 1.80A {Homo sapiens} SCOP: c.62.1.1 | Back alignment and structure |
|---|
| >1shu_X Anthrax toxin receptor 2; alpha/beta rossmann fold, membrane protein; 1.50A {Homo sapiens} SCOP: c.62.1.1 PDB: 1tzn_a 1sht_X 1t6b_Y* | Back alignment and structure |
|---|
| >1ijb_A VON willebrand factor; dinucleotide-binding fold, blood clotting; 1.80A {Homo sapiens} SCOP: c.62.1.1 PDB: 1ijk_A 1auq_A 1u0n_A 3hxo_A 1uex_C 3hxq_A 1sq0_A 1m10_A 1fns_A 1oak_A 1u0o_C | Back alignment and structure |
|---|
| >2xgg_A Microneme protein 2; A/I domain, cell adhesion, hydrolase; 2.05A {Toxoplasma gondii} | Back alignment and structure |
|---|
| >1jey_A KU70; double-strand DNA break repair, non-homologous END-joining, protein/nucleic acid complex, alpha/beta domain, beta barrel; HET: DNA; 2.50A {Homo sapiens} SCOP: b.131.1.1 c.62.1.3 PDB: 1jeq_A* 3rzx_B | Back alignment and structure |
|---|
| >4hqo_A Sporozoite surface protein 2; malaria, gliding motility, VWA domain, TSR domain, extensibl ribbon, receptor on sporozoite, vaccine target; HET: FUC BGC; 2.19A {Plasmodium vivax} PDB: 4hql_A* 4hqn_A* | Back alignment and structure |
|---|
| >3n2n_F Anthrax toxin receptor 1; rossmann fold; 1.80A {Homo sapiens} SCOP: c.62.1.1 | Back alignment and structure |
|---|
| >4fx5_A VON willebrand factor type A; structural genomics, PSI-biology, midwest center for structu genomics, MCSG, blood clotting; HET: MSE; 1.73A {Catenulispora acidiphila} | Back alignment and structure |
|---|
| >1mf7_A Integrin alpha M; cell adhesion; 1.25A {Homo sapiens} SCOP: c.62.1.1 PDB: 1na5_A 1jlm_A 1ido_A 1m1u_A 3q3g_G 1n9z_A 1bhq_1 1bho_1 1idn_1 3qa3_G | Back alignment and structure |
|---|
| >4hqf_A Thrombospondin-related anonymous protein, trap; malaria, parasite motility, I domain, TSR domain, receptor O sporozoite, vaccine target; 2.20A {Plasmodium falciparum} PDB: 4hqk_A 2bbx_A | Back alignment and structure |
|---|
| >1v7p_C Integrin alpha-2; snake venom, C-type lectin, antagonist, cell adhes glycoprotein, toxin-cell adhesion complex; HET: NAG; 1.90A {Homo sapiens} SCOP: c.62.1.1 PDB: 1aox_A 1dzi_A | Back alignment and structure |
|---|
| >1n3y_A Integrin alpha-X; alpha/beta rossmann fold, cell adhesion; 1.65A {Homo sapiens} SCOP: c.62.1.1 | Back alignment and structure |
|---|
| >2b2x_A Integrin alpha-1; computational design, antibody-antigen complex, immune syste; 2.20A {Rattus norvegicus} SCOP: c.62.1.1 | Back alignment and structure |
|---|
| >2x31_A Magnesium-chelatase 60 kDa subunit; ligase, bacteriochlorophyll biosynthesis, photosynthesis; 7.50A {Rhodobacter capsulatus} | Back alignment and structure |
|---|
| >1pt6_A Integrin alpha-1; cell adhesion; 1.87A {Homo sapiens} SCOP: c.62.1.1 PDB: 4a0q_A 1qcy_A 1qc5_A 1qc5_B 1ck4_A 1mhp_A | Back alignment and structure |
|---|
| >1rrk_A Complement factor B; BB, hydrolase; 2.00A {Homo sapiens} SCOP: b.47.1.2 c.62.1.1 PDB: 1rs0_A* 1rtk_A* 2win_I* 1dle_A | Back alignment and structure |
|---|
| >2odp_A Complement C2; C3/C5 convertase, complement serin protease, human complement system, glycoprotein, SP, VWFA,; HET: NAG; 1.90A {Homo sapiens} PDB: 2odq_A* 2i6q_A* 2i6s_A* | Back alignment and structure |
|---|
| >3hrz_D Complement factor B; serine protease, glycosilated, multi-domain, complement SYST convertase, complement alternate pathway; HET: NAG P6G; 2.20A {Homo sapiens} PDB: 2xwj_I* 3hs0_D* 2ok5_A* 2xwb_F* | Back alignment and structure |
|---|
| >3zqk_A VON willebrand factor; blood clotting, adamts-13, force sensor, VON willebrand DISE domain, haemostasis; HET: NAG; 1.70A {Homo sapiens} PDB: 3ppv_A 3ppx_A 3ppw_A 3ppy_A 3gxb_A* | Back alignment and structure |
|---|
| >1mjn_A Integrin alpha-L; rossmann fold, immune system; 1.30A {Homo sapiens} SCOP: c.62.1.1 PDB: 3hi6_A 1mq8_B* 3eoa_I 3eob_I 1rd4_A* 1lfa_A 1zon_A 1zoo_A 1zop_A 1dgq_A 1xdd_A* 1xdg_A* 1xuo_A* 3e2m_A* 3bqn_B* 1cqp_A* 3bqm_B* 2ica_A* 2o7n_A* 3m6f_A* ... | Back alignment and structure |
|---|
| >3k6s_A Integrin alpha-X; cell receptor, adhesion molecule, cell adhesion, pyrrolidone carboxylic acid; HET: NAG MAN; 3.50A {Homo sapiens} PDB: 3k71_A* 3k72_A* | Back alignment and structure |
|---|
| >1yvr_A RO autoantigen, 60-kDa SS-A/RO ribonucleoprotein, 60 kDa; heat repeat, VON willebrand factor A, rossmann fold, midas motif', RNA binding protein; 1.95A {Xenopus laevis} SCOP: a.118.25.1 c.62.1.5 PDB: 1yvp_A 2i91_A | Back alignment and structure |
|---|
| >2ww8_A RRGA, cell WALL surface anchor family protein; IGG, pilus, CNA_B, adhesin, integrin, cell adhesion; HET: EPE; 1.90A {Streptococcus pneumoniae} | Back alignment and structure |
|---|
| >2nvo_A RO sixty-related protein, RSR; alpha helical repeats, VON willebrand factor A domain, beta- RNA binding protein; 1.89A {Deinococcus radiodurans} | Back alignment and structure |
|---|
| >3rag_A Uncharacterized protein; structural genomics, PSI-biology, midwest center for structu genomics, MCSG, tructural genomics; 1.80A {Alicyclobacillus acidocaldarius subsp} | Back alignment and structure |
|---|
| >2nut_A Protein transport protein SEC23A; human copii SEC23/24 complexed with SEC22, protein transport; 2.30A {Homo sapiens} PDB: 2nup_A 3egd_A 3eg9_A 3egx_A 3efo_A | Back alignment and structure |
|---|
| >2iue_A Pactolus I-domain; membrane protein, CD, ITC, limbs, midas, admidas, membrane, integrin, titration, rossman fold, cell adhesion, transmembrane; NMR {Mus musculus} | Back alignment and structure |
|---|
| >1pcx_A Protein transport protein SEC24; 2.50A {Saccharomyces cerevisiae} SCOP: a.71.2.1 b.2.8.1 c.62.1.2 d.109.2.1 g.41.10.1 PDB: 1pd0_A 1pd1_A | Back alignment and structure |
|---|
| >1m2o_A SEC23, protein transport protein SEC23, SEC23P; zinc-finger, beta barrel, VWA domain, gelsolin domain,; HET: GNP; 2.50A {Saccharomyces cerevisiae} SCOP: a.71.2.1 b.2.8.1 c.62.1.2 d.109.2.1 g.41.10.1 PDB: 1m2v_A 2qtv_A* | Back alignment and structure |
|---|
| >1m2v_B SEC24, protein transport protein SEC24, SEC24P, SEC24 protein, abnormal nuclear; zinc-finger, beta barrel, VWA domain, gelsolin domain,; 2.75A {Saccharomyces cerevisiae} SCOP: a.71.2.1 b.2.8.1 c.62.1.2 d.109.2.1 g.41.10.1 | Back alignment and structure |
|---|
| >3eh2_A Protein transport protein SEC24C; copii-coat protein, vesicle transport, cytoplasm, endoplasmic reticulum, ER-golgi transport, golgi apparatus; 2.35A {Homo sapiens} | Back alignment and structure |
|---|
| >3eh1_A Protein transport protein SEC24B; copii coat protein, vesicle transport, transport signal sequence, cytoplasm, endoplasmic reticulum; 1.80A {Homo sapiens} PDB: 2nut_B 2nup_B 3egd_B 3egx_B | Back alignment and structure |
|---|
| >3efo_B SEC24 related gene family, member D; copii, coat protein, transport signal, disease mutation, endoplasmic reticulum, ER-golgi transport, golgi apparatus, membrane; 2.70A {Homo sapiens} PDB: 3eg9_B | Back alignment and structure |
|---|
| >3fcs_B Integrin beta-3; beta propeller, rossmann fold, EGF domain, cell adhesion, DI mutation, glycoprotein, HOST-virus interaction, M phosphoprotein; HET: NAG MAN; 2.55A {Homo sapiens} PDB: 4g1e_B* 3ije_B* 4g1m_B* 1jv2_B* 1l5g_B* 1m1x_B* 1u8c_B* | Back alignment and structure |
|---|
| >2klz_A Ataxin-3; UIM, ubiquitin-binding, hydrolase, neurodegenerati nucleus, phosphoprotein, spinocerebellar ataxia, transcript transcription regulation; NMR {Homo sapiens} | Back alignment and structure |
|---|
| >3k6s_B Integrin beta-2; cell receptor, adhesion molecule, cell adhesion, pyrrolidone carboxylic acid; HET: NAG MAN; 3.50A {Homo sapiens} PDB: 3k71_B* 3k72_B* | Back alignment and structure |
|---|
| >1p9c_A 26S proteasome non-ATPase regulatory subunit 4; alpha helix, hairpin loop, ligand binding protein; NMR {Homo sapiens} SCOP: j.105.1.1 PDB: 1p9d_S 1uel_B | Back alignment and structure |
|---|
| >3vi3_B Integrin beta-1; beta propeller fold, rossman fold, beta sandwich, fibronecti receptor, cell adhesion-immune system complex; HET: NAG BMA MAN; 2.90A {Homo sapiens} PDB: 3vi4_B* | Back alignment and structure |
|---|
| >3t3p_B Integrin beta-3; integrin, cell adhesion, blood clotting, fibrinogen, platele; HET: NAG BMA MAN; 2.20A {Homo sapiens} PDB: 3t3m_B* 3nig_B* 3nif_B* 3nid_B* 2vdr_B* 2vc2_B* 2vdk_B* 2vdm_B* 2vdn_B* 2vdl_B* 2vdp_B* 2vdq_B* 2vdo_B* 3fcu_B* 1txv_B* 1ty3_B* 1ty5_B* 1ty6_B* 1ty7_B* 1tye_B* | Back alignment and structure |
|---|
| >3rag_A Uncharacterized protein; structural genomics, PSI-biology, midwest center for structu genomics, MCSG, tructural genomics; 1.80A {Alicyclobacillus acidocaldarius subsp} | Back alignment and structure |
|---|
| >3v4v_B Integrin beta-7; cell adhesion, madcam-1, membrane; HET: NAG BMA MAN 0DU; 3.10A {Homo sapiens} PDB: 3v4p_B* | Back alignment and structure |
|---|
| >1q0v_A Hydrophilic protein; has cysteine rich putative zinc finger esential for function;...; stable, non-interacting alpha-helices; NMR {Saccharomyces cerevisiae} SCOP: j.105.1.1 PDB: 1q0w_A | Back alignment and structure |
|---|
| >1q0v_A Hydrophilic protein; has cysteine rich putative zinc finger esential for function;...; stable, non-interacting alpha-helices; NMR {Saccharomyces cerevisiae} SCOP: j.105.1.1 PDB: 1q0w_A | Back alignment and structure |
|---|
| >1yx4_A 26S proteasome non-ATPase regulatory subunit 4; polyubiquitin, UIM, hydrolase; NMR {Homo sapiens} PDB: 1yx5_A 1yx6_A 2kde_A 2kdf_A | Back alignment and structure |
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| >3qhp_A Type 1 capsular polysaccharide biosynthesis prote (CAPJ); rossmann fold, glycosyltransferase, transferase; 1.50A {Helicobacter pylori} | Back alignment and structure |
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| >2klz_A Ataxin-3; UIM, ubiquitin-binding, hydrolase, neurodegenerati nucleus, phosphoprotein, spinocerebellar ataxia, transcript transcription regulation; NMR {Homo sapiens} | Back alignment and structure |
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| >2rr9_C Putative uncharacterized protein UIMC1; Lys63-linked diubiquitin, ubiquitin-interacting motif, ubiqu RAP80, DNA repair, nuclear protein; NMR {Homo sapiens} | Back alignment and structure |
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| >3a1q_C Ubiquitin interaction motif-containing protein 1; protein complex, cytoplasm, nucleus, phosphoprotein, UBL conjugation, transcription regulation; 2.20A {Mus musculus} | Back alignment and structure |
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| >3a1q_C Ubiquitin interaction motif-containing protein 1; protein complex, cytoplasm, nucleus, phosphoprotein, UBL conjugation, transcription regulation; 2.20A {Mus musculus} | Back alignment and structure |
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| >2rr9_C Putative uncharacterized protein UIMC1; Lys63-linked diubiquitin, ubiquitin-interacting motif, ubiqu RAP80, DNA repair, nuclear protein; NMR {Homo sapiens} | Back alignment and structure |
|---|
Homologous Structure Domains
Structure Domains Detected by RPS-BLAST
Original result of RPS-BLAST against SCOP70(version1.75) database
| ID | Alignment Graph | Length |
Definition |
E-value |
| 404 | ||||
| d1jeyb2 | 236 | c.62.1.4 (B:6-241) Ku80 subunit N-terminal domain | 3e-18 | |
| d1jeya2 | 220 | c.62.1.3 (A:34-253) Ku70 subunit N-terminal domain | 3e-09 |
| >d1jeyb2 c.62.1.4 (B:6-241) Ku80 subunit N-terminal domain {Human (Homo sapiens) [TaxId: 9606]} Length = 236 | Back information, alignment and structure |
|---|
class: Alpha and beta proteins (a/b) fold: vWA-like superfamily: vWA-like family: Ku80 subunit N-terminal domain domain: Ku80 subunit N-terminal domain species: Human (Homo sapiens) [TaxId: 9606]
Score = 81.2 bits (199), Expect = 3e-18
Identities = 21/168 (12%), Positives = 52/168 (30%), Gaps = 18/168 (10%)
Query: 4 EATLICIDNSEWM-RNGDYAPSRFQAQTEAANLICGAKTQLNPENTVGVMTMAGKG---- 58
A ++C+D M + S F+ + + + ++ + ++ G
Sbjct: 3 AAVVLCMDVGFTMSNSIPGIESPFEQAKKVITMFVQRQVFAENKDEIALVLFGTDGTDNP 62
Query: 59 ---------VRVLVTPTSDLGKILACMHGLEIGGE----LNLAAGIQVAQLALKHRQNKK 105
+ V +L + G A + + + + K
Sbjct: 63 LSGGDQYQNITVHRHLMLPDFDLLEDIESKIQPGSQQADFLDALIVSMDVIQHETIGKKF 122
Query: 106 QQQRIIVFVGSPIKHEKKVLEMIGRKLKKNSVALDIVNFGEDDEGNTE 153
+++ I +F + K L++I LKK ++L + +
Sbjct: 123 EKRHIEIFTDLSSRFSKSQLDIIIHSLKKCDISLQFFLPFSLGKEDGS 170
|
| >d1jeya2 c.62.1.3 (A:34-253) Ku70 subunit N-terminal domain {Human (Homo sapiens) [TaxId: 9606]} Length = 220 | Back information, alignment and structure |
|---|
Homologous Domains Detected by HHsearch
Original result of HHsearch against SCOP70(version1.75) database
| ID | Alignment Graph | Length |
Definition |
Probability |
| Query | 404 | |||
| d1jeyb2 | 236 | Ku80 subunit N-terminal domain {Human (Homo sapien | 99.79 | |
| d1jeya2 | 220 | Ku70 subunit N-terminal domain {Human (Homo sapien | 99.69 | |
| d1shux_ | 181 | Capillary morphogenesis protein 2 domain {Human (H | 99.6 | |
| d1atza_ | 184 | von Willebrand factor A3 domain, vWA3 {Human (Homo | 99.48 | |
| d1n3ya_ | 189 | Integrin alpha-x beta2 {Human (Homo sapiens) [TaxI | 99.45 | |
| d1ijba_ | 202 | von Willebrand factor A1 domain, vWA1 {Human (Homo | 99.43 | |
| d1q0pa_ | 209 | Complement factor B domain {Human (Homo sapiens) [ | 99.41 | |
| d1v7pc_ | 193 | Integrin alpha2-beta1 {Human (Homo sapiens) [TaxId | 99.37 | |
| d1mf7a_ | 194 | Integrin alpha M (CR3, CD11b/CD18, Mac-1 alpha sub | 99.34 | |
| d1pt6a_ | 192 | Integrin alpha1-beta1 {Human (Homo sapiens) [TaxId | 99.33 | |
| d1mjna_ | 179 | Integrin CD11a/CD18 (Leukocyte function associated | 99.01 | |
| d1yvra2 | 174 | 60-kda SS-A/Ro ribonucleoprotein, RoRNP {African c | 98.97 | |
| d1tyeb2 | 248 | Integrin beta A domain {Human (Homo sapiens) [TaxI | 98.82 | |
| d1pd0a3 | 252 | Sec24 {Baker's yeast (Saccharomyces cerevisiae) [T | 98.61 | |
| d2qtva3 | 271 | Sec23 {Baker's yeast (Saccharomyces cerevisiae) [T | 98.38 |
| >d1jeyb2 c.62.1.4 (B:6-241) Ku80 subunit N-terminal domain {Human (Homo sapiens) [TaxId: 9606]} | Back information, alignment and structure |
|---|
class: Alpha and beta proteins (a/b) fold: vWA-like superfamily: vWA-like family: Ku80 subunit N-terminal domain domain: Ku80 subunit N-terminal domain species: Human (Homo sapiens) [TaxId: 9606]
Probab=99.79 E-value=1.2e-18 Score=156.65 Aligned_cols=145 Identities=15% Similarity=0.176 Sum_probs=121.2
Q ss_pred ceEEEEEeCChhhhCCCCC-CCHHHHHHHHHHHHHHHhccCCcCCeEEEEEecCCc-------------cEEEECCCCCH
Q 015559 4 EATLICIDNSEWMRNGDYA-PSRFQAQTEAANLICGAKTQLNPENTVGVMTMAGKG-------------VRVLVTPTSDL 69 (404)
Q Consensus 4 Ea~vIvIDnSesMrngD~~-PtRl~Aq~dAv~~fv~~k~~~NPesqVGLVtmag~~-------------a~VLvtlT~D~ 69 (404)
||+|||||+|.||...|.. ||||+++++++..|++.++..+|..+||||.|++.. ..++.+++...
T Consensus 3 ~aiv~~lD~S~SM~~~~~~~~srl~~ak~~~~~~v~~~~~~~~~d~vglV~f~~~~t~~~~~~~~~~~~i~~~~~~~~~~ 82 (236)
T d1jeyb2 3 AAVVLCMDVGFTMSNSIPGIESPFEQAKKVITMFVQRQVFAENKDEIALVLFGTDGTDNPLSGGDQYQNITVHRHLMLPD 82 (236)
T ss_dssp EEEEEEEECCGGGGCCBTTBCCHHHHHHHHHHHHHHHHHHTTCCCEEEEEEESCSSCBSTTCTTTCSTTEEEEEEEECCC
T ss_pred ceEEEEEECChhhccCCCCCCCHHHHHHHHHHHHHHHHhcCCCCCeEEEEEEcCCCcccccccccccceEEEEeccccch
Confidence 7999999999999988764 899999999999999999999999999999998864 24666666666
Q ss_pred HHHHHHhcCcc--ccCCCcHHHHHHHHHHHhhhc--CCCCCCeEEEEEEcCCCCCChhHHHHHHHHHHhCCceEEEEEeC
Q 015559 70 GKILACMHGLE--IGGELNLAAGIQVAQLALKHR--QNKKQQQRIIVFVGSPIKHEKKVLEMIGRKLKKNSVALDIVNFG 145 (404)
Q Consensus 70 ~kils~L~~l~--~~G~~sL~~gL~iA~lALKhr--~~k~~~~RIVlFvgSp~~~d~~~l~~~ak~LKknnI~VdiI~fG 145 (404)
...+..+.... .++.+++..+|..|...+.++ ..+..++|||||+++..+.+...+.++++.|++.+|.|++||+|
T Consensus 83 ~~~~~~~~~~~~~~~~~~~~~~al~~a~~~~~~~~~~~~~~~r~IiL~TDG~~~~~~~~~~~~a~~l~~~~I~i~~ig~g 162 (236)
T d1jeyb2 83 FDLLEDIESKIQPGSQQADFLDALIVSMDVIQHETIGKKFEKRHIEIFTDLSSRFSKSQLDIIIHSLKKCDISLQFFLPF 162 (236)
T ss_dssp HHHHHHHHTTCCCCSSCCCHHHHHHHHHHHHHHHSSSSCCSEEEEEEECCCCSCCCCTTHHHHHHHHHHTTEEEEEEESS
T ss_pred hhHHHHHhhhccccccccchhHHHHHHHHHHHHhhhcccccccEEEEEecCCCCcChHHHHHHHHHHHHcCCEEEEEecC
Confidence 66666666543 345689999999999887654 23445678999999887777888999999999999999999999
Q ss_pred CCC
Q 015559 146 EDD 148 (404)
Q Consensus 146 ~e~ 148 (404)
...
T Consensus 163 ~~~ 165 (236)
T d1jeyb2 163 SLG 165 (236)
T ss_dssp CCC
T ss_pred CcC
Confidence 766
|
| >d1jeya2 c.62.1.3 (A:34-253) Ku70 subunit N-terminal domain {Human (Homo sapiens) [TaxId: 9606]} | Back information, alignment and structure |
|---|
| >d1shux_ c.62.1.1 (X:) Capillary morphogenesis protein 2 domain {Human (Homo sapiens) [TaxId: 9606]} | Back information, alignment and structure |
|---|
| >d1atza_ c.62.1.1 (A:) von Willebrand factor A3 domain, vWA3 {Human (Homo sapiens) [TaxId: 9606]} | Back information, alignment and structure |
|---|
| >d1n3ya_ c.62.1.1 (A:) Integrin alpha-x beta2 {Human (Homo sapiens) [TaxId: 9606]} | Back information, alignment and structure |
|---|
| >d1ijba_ c.62.1.1 (A:) von Willebrand factor A1 domain, vWA1 {Human (Homo sapiens) [TaxId: 9606]} | Back information, alignment and structure |
|---|
| >d1q0pa_ c.62.1.1 (A:) Complement factor B domain {Human (Homo sapiens) [TaxId: 9606]} | Back information, alignment and structure |
|---|
| >d1v7pc_ c.62.1.1 (C:) Integrin alpha2-beta1 {Human (Homo sapiens) [TaxId: 9606]} | Back information, alignment and structure |
|---|
| >d1mf7a_ c.62.1.1 (A:) Integrin alpha M (CR3, CD11b/CD18, Mac-1 alpha subunit) {Human (Homo sapiens) [TaxId: 9606]} | Back information, alignment and structure |
|---|
| >d1pt6a_ c.62.1.1 (A:) Integrin alpha1-beta1 {Human (Homo sapiens) [TaxId: 9606]} | Back information, alignment and structure |
|---|
| >d1mjna_ c.62.1.1 (A:) Integrin CD11a/CD18 (Leukocyte function associated antigen-1, LFA-1) {Human (Homo sapiens) [TaxId: 9606]} | Back information, alignment and structure |
|---|
| >d1yvra2 c.62.1.5 (A:364-537) 60-kda SS-A/Ro ribonucleoprotein, RoRNP {African clawed frog (Xenopus laevis) [TaxId: 8355]} | Back information, alignment and structure |
|---|
| >d1tyeb2 c.62.1.1 (B:107-354) Integrin beta A domain {Human (Homo sapiens) [TaxId: 9606]} | Back information, alignment and structure |
|---|
| >d1pd0a3 c.62.1.2 (A:301-552) Sec24 {Baker's yeast (Saccharomyces cerevisiae) [TaxId: 4932]} | Back information, alignment and structure |
|---|
| >d2qtva3 c.62.1.2 (A:120-390) Sec23 {Baker's yeast (Saccharomyces cerevisiae) [TaxId: 4932]} | Back information, alignment and structure |
|---|