| Entry |
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| Name |
(GenBank) ATP-binding protein
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| KO |
| K04079 | molecular chaperone HtpG |
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| Organism |
mrtj Methanospirillum purgamenti
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| Pathway |
| mrtj04141 | Protein processing in endoplasmic reticulum |
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| Brite |
KEGG Orthology (KO) [BR:mrtj00001]
09120 Genetic Information Processing
09123 Folding, sorting and degradation
04141 Protein processing in endoplasmic reticulum
KHC33_07090
09180 Brite Hierarchies
09181 Protein families: metabolism
01009 Protein phosphatases and associated proteins [BR:mrtj01009]
KHC33_07090
09182 Protein families: genetic information processing
03110 Chaperones and folding catalysts [BR:mrtj03110]
KHC33_07090
04131 Membrane trafficking [BR:mrtj04131]
KHC33_07090
03051 Proteasome [BR:mrtj03051]
KHC33_07090
03029 Mitochondrial biogenesis [BR:mrtj03029]
KHC33_07090
09183 Protein families: signaling and cellular processes
04147 Exosome [BR:mrtj04147]
KHC33_07090
Protein phosphatases and associated proteins [BR:mrtj01009]
Protein serine/threonine phosphatases
Phosphoprotein phosphatases (PPPs)
Protein phosphatase-5
PP5-interacting proteins
KHC33_07090
Chaperones and folding catalysts [BR:mrtj03110]
Heat shock proteins
HSP90
KHC33_07090
Membrane trafficking [BR:mrtj04131]
Autophagy
Chaperone mediated autophagy (CMA)
Chaperones
KHC33_07090
Proteasome [BR:mrtj03051]
Eukaryotic proteasome
Assembling factors
Other assembling factors
KHC33_07090
Mitochondrial biogenesis [BR:mrtj03029]
Mitochondrial quality control factors
Mitophagy factors
Parkin-independent mechanism factors
KHC33_07090
Exosome [BR:mrtj04147]
Exosomal proteins
Proteins found in most exosomes
KHC33_07090
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| SSDB |
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| Motif |
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| Other DBs |
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| LinkDB |
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| Position |
1456379..1459564
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| AA seq |
1061 aa
MNFSSIAKEKINCLIQTKIQDDEYLLRAWSSLIPFINQVLEELNLIKITFPNYTPHDEKH
ILNLYHLLDIFIDEEKLDSLPVNDLILLNLGIIAHDWGMAITESEKRNILNSYNNSSCSD
YYDEKKWINAYINAKKIDFSKFCSDDKFWLDYVRFTHHERSASRILNSGLLDPINEIKRP
LSLICLAHGLEFYQLNDRTIYSKNFPVLRVSEIDIAALSIYIRLLDRFDIAADRAIYALW
QFVDPENVDSFIHWQIHQAINPISPPSGSLPYTIHIYSETIDPKIYSKLCDLRNLCIEEF
DRSRKFLTDCHSKYHLNIGFIEWELKSDGFKETNIRFEFDRKHILSILHQEIYDKDPYVC
LRELLQNSIDAVRTKKFYFEKKHPEINYQGFIQVEIEEDSKGLQSIKWIDNGTGISEFIL
ENFFSKVGVSYYKSDFFENLNLNHPMISKYGIGILSCFMISDAIEIRTLYDKKLESFSSE
EKKLLHIIIDNEERFFTVYFEDCKNEDGFTEISLKINPEKVNRLIQAEKLLITGYLKKIL
GFLEIPIQITENGKTTVIVDNVNQISNLELPKKIDNVVCNDVSYPLNKLIYENDISKIRE
FIQEIVIDVYTDLKINYCEGKIIILLPKEQYDLSVHYSKIYIEEINKKENSHYFFLKNRG
LIEEREKDDTFYNINSCKSSLFKKFFSLGILVPRKNLENSIETLTYSLQPFFYINLKNND
KLYPNISRYNLINEDILFCDIQKAVYNRYYDIIIQNLHSQDEFIGLYQIYRIICYIFKPF
AILLPDDLLLKIPIPALRKKEIITFNLQDKSCLLVLPEELLEGAIDKFTNHILQPSSEYL
GYMNNWNGEGILFESFVEQQFDNDSLNAILSLHDGYILENYHTGQIKLLYPPFENYPPLL
QPVLFPVLLNEKVEEQLLKLHEIIEKIISSPTNLEAKEISQLNYYLRVSLKITSPEFVFF
PSGYDNYFGYGIKYLNVSHQKSKLLLQLFKELINSTNYDLINKINTHHRFDFDEVWDESN
KIDYNEIKEDMISFYSTCKDYGLNHSFDMNMLIPLLVPLVT |
|---|
| NT seq |
3186 nt +upstreamnt +downstreamnt
atgaatttttcaagtattgcaaaagaaaaaattaactgtcttatccaaacaaaaatccaa
gatgatgaatatttattacgtgcctggagttctttaatcccttttattaatcaagtttta
gaagaattaaatctcattaagattacatttccaaattatactccccatgatgaaaaacac
atactcaatttatatcatttattagatattttcattgatgaagaaaaattagattcatta
cctgtaaatgatttaatattattaaatttaggaataattgcacatgattggggtatggcg
attactgaaagtgaaaaaagaaatatactgaattcatataataattcttcatgttcagat
tattatgatgaaaaaaaatggataaatgcttatataaatgcaaaaaagatagatttttct
aaattttgtagtgatgataaattttggcttgactatgttagatttactcaccacgaaaga
agtgcatctcggatattaaactcgggattattagatcctattaatgaaataaaacggcca
ttatcgttaatatgtcttgcacatggtctggaattttatcaattgaatgaccggaccatt
tacagtaaaaatttcccagtattaagagtttcagaaattgatatcgctgcactctcaata
tatatcagattactagatcggtttgacatagcagcagatcgagcaatatatgcattgtgg
caatttgtagatcctgaaaatgttgattcatttattcattggcaaatccatcaagcgata
aatccaatatctcctccttcaggttctttaccctacactattcatatatattcagaaact
attgatcctaaaatttattcaaaactgtgtgatttacgaaatctttgcatcgaagagttt
gatagaagtagaaaatttttaaccgattgccattctaaataccatcttaacattggtttt
attgaatgggaattaaaatctgatgggtttaaggaaacaaatattcgttttgaatttgat
cgaaaacatatcttatctattcttcatcaggaaatctatgataaagacccgtatgtttgt
ttaagagaattattacagaatagtattgatgcagttagaacaaagaaattttattttgaa
aaaaaacatcctgaaataaattatcaaggattcatccaagttgagattgaagaagattca
aaaggtttacaatcgataaaatggatagataatggaacaggaataagtgaatttattctg
gagaattttttttcgaaagttggtgttagttattataaaagtgatttttttgaaaattta
aatttgaatcatccaatgatttcaaaatatggaattggtattttgagttgttttatgata
tcagatgcaattgaaattcgtacattatatgacaaaaaattagaaagtttttcatcagaa
gaaaaaaaattgcttcatattattattgataatgaagaaagattttttacagtttatttt
gaggactgtaaaaatgaggacggttttactgaaatatctctgaaaataaatccagaaaaa
gtaaaccgattaattcaagcagaaaagttattaattacaggttatctaaaaaaaatattg
ggttttttagagattcccattcaaataacagaaaacggaaaaactacagtaattgttgat
aatgtaaatcaaatctcgaatttagaactacccaaaaaaatagataatgttgtctgtaat
gatgtcagttatccgctgaataaacttatttatgaaaatgatatttccaaaattcgagaa
tttatacaagaaattgtaatagatgtatatactgatttaaaaatcaattattgtgaagga
aaaatcataatacttttaccaaaggaacaatatgatttgtcagtacattattcaaaaata
tatatcgaagaaattaataaaaaggagaatagtcattatttttttcttaagaataggggg
ttaattgaagaaagagaaaaagatgatacattttataatattaattcttgtaaatcatca
ttatttaaaaaatttttttcattaggtattttagtacctagaaaaaatttagaaaattca
atagaaaccttaacttattcattacagccctttttttatattaacttaaaaaataatgat
aaactgtatccaaatatatcacgctataatttgattaatgaagatatattattttgcgat
attcaaaaagcggtatataatagatattatgatattatcattcaaaacttacattcacaa
gatgaatttattggattatatcaaatatatcgaataatttgttacatttttaaacccttt
gccatattattacctgacgatctacttttaaaaattcctattccagcactaaggaaaaaa
gaaattattacttttaatttacaggataaatcatgtttacttgttcttccagaagaacta
ttagaaggggcgatagataaattcaccaatcatattcttcaaccatcatctgaatatttg
ggttacatgaataattggaatggagaaggtattttatttgagtcatttgttgaacaacaa
tttgataatgattcactgaatgcaatcctttccttacatgatggttatattctcgaaaac
tatcataccggtcaaataaaacttttgtatcctccttttgagaattatcctcctttactg
caaccagtattatttccagtattacttaacgagaaggtagaagaacaacttttaaaatta
catgaaattattgagaaaatcatttcttctccaactaatttggaggcaaaggaaatttct
caattaaactattatttgagggtatccttaaaaattacttctcctgaatttgtatttttt
ccatcaggttatgataattactttggttatggaattaaatatctaaatgtctcacatcaa
aaaagtaaattattattacaattatttaaggaattaattaattctactaattatgatttg
attaacaaaattaatactcatcatcgatttgattttgatgaagtttgggatgaatctaat
aaaattgattataatgagatcaaggaggatatgattagtttttattccacttgtaaagat
tacggattaaaccactcttttgacatgaatatgctcataccattactagtgccactcgtc
acttaa |
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