| Entry |
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| Symbol |
usp30
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| Name |
(RefSeq) ubiquitin carboxyl-terminal hydrolase 30 isoform X1
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| KO |
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| Organism |
stru Salmo trutta (river trout)
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| Pathway |
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| Brite |
KEGG Orthology (KO) [BR:stru00001]
09140 Cellular Processes
09141 Transport and catabolism
04137 Mitophagy - animal
115200219 (usp30)
09180 Brite Hierarchies
09181 Protein families: metabolism
01002 Peptidases and inhibitors [BR:stru01002]
115200219 (usp30)
09182 Protein families: genetic information processing
04131 Membrane trafficking [BR:stru04131]
115200219 (usp30)
04121 Ubiquitin system [BR:stru04121]
115200219 (usp30)
Enzymes [BR:stru01000]
3. Hydrolases
3.4 Acting on peptide bonds (peptidases)
3.4.19 Omega peptidases
3.4.19.12 ubiquitinyl hydrolase 1
115200219 (usp30)
Peptidases and inhibitors [BR:stru01002]
Cysteine peptidases
Family C19: ubiquitin-specific protease family
115200219 (usp30)
Membrane trafficking [BR:stru04131]
Autophagy
Mitophagy
Other mitophagy associated proteins
115200219 (usp30)
Ubiquitin system [BR:stru04121]
Deubiquitinating enzyme (DUB)
Ubiquitin-specific proteases (UBPs)
UBP/USP
115200219 (usp30)
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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 |
9:23220287..23244543
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| AA seq |
504 aa
MPWCRPATSEKLIREFLYSGTIVRNKIMKNWGVIGGIAAAMAAGVYVLWGPITDSKKRKK
GMVPGLLNLGNTCFMNSLLQGLAACPSFVKWLDEFTSCKGVSEGEPEKDPKLSTTLLQLL
KALSNDNTGEEDVLDAGRLLEVLRLYRWHISSFEEQDAHELFHVLTSSLEEERDRQPKVT
HLFDIQSLESLPDIDDKTLSCKSRGPLHPLRSPWKFPHPFHGRLTSNMACKRCEQQSPVR
YDSFDSLSLSIPSPQWGWPISLDHCLQHFISSETIKEVECENCTKLQQGALVNGHVLESQ
RTTFIKQLKLGKLPQCLCIHLQRLTWSNEGTPIKRQEHVQISEYLSMDRYKHRATVQRLQ
RINCTPKTIKAEDSGEAADKTPPNGKDIEHHNKNKPLSNGTCSSVFLHSPGLNPQVNLTY
DYSSSEYHFQLMAVLVHHGDMHSGHFVTYRRCPPSPRSPSPFSSQWLWVSDDSVRKASLQ
EVLSSNAYLLFYERVRRLRLLLEE |
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| NT seq |
1515 nt +upstreamnt +downstreamnt
atgccgtggtgcagaccagcgacatctgaaaagcttattcgggagttcctgtactctggt
accattgtcaggaacaaaattatgaaaaactggggagtcattggtggaatagcggctgcc
atggctgctggagtgtatgttctatggggtccaattacagacagcaagaaaaggaagaaa
ggcatggtaccaggcctgctgaacctgggaaacacctgcttcatgaactctctgctccag
ggcctggcagcctgcccttccttcgtcaagtggctggatgagttcactagctgcaaaggt
gtgtcagagggtgagccagagaaggaccccaaactttccacaactctcctgcagcttctc
aaagcactgtcaaacgacaacactggggaggaggatgtgctggatgcagggcgtctgctg
gaggtcctcagactctacaggtggcacatcagttcctttgaggaacaggatgcccatgag
ctcttccatgtcctcacctcttccctggaggaggagcgagaccgacagcccaaagtcacc
cacctctttgacattcagtcccttgagagtctcccagatatagatgataagacattaagc
tgcaagagtcgaggccctcttcatcctttacgaagtccttggaagtttccacatcctttc
catggccgcctaacaagcaatatggcttgcaagcgttgcgaacaacagagtccagtgcga
tatgactctttcgacagcctctccttatccatcccttcgccgcaatggggctggcctatc
tctttggatcactgtctccagcacttcatctcttcagagaccattaaagaggtggagtgt
gaaaactgcaccaagcttcaacaaggcgccttagtgaatgggcatgtcctggaaagccag
aggacaaccttcatcaaacagcttaaactgggaaagctcccacagtgtctctgtattcac
ctgcagagactgacatggtctaatgagggtacgcccataaagagacaggaacatgtccag
atctcagagtacctgtctatggaccgctacaaacaccgcgccaccgttcagaggctccag
cgcattaactgtactcccaaaaccattaaagcagaggattcaggagaggctgcagataag
acccctcccaatggcaaagatatagaacaccataacaagaacaagcctctgtccaatgga
acctgttcgtctgtctttctccattctcctgggttgaacccacaggtcaacctcacatat
gactacagctcctcagaataccactttcaactgatggctgtgttggttcaccatggtgac
atgcactcaggacactttgtcacttaccgccgctgccctccctcgccccgcagcccctct
ccattcagctcccagtggctgtgggtttcagatgactctgtacgcaaggccagtctgcag
gaggtgctgtcctccaacgcctacctactcttctatgagcgggtgagacggctccgtcta
ctgttggaggagtag |
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