| Entry |
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| Symbol |
gusb
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| Name |
(RefSeq) beta-glucuronidase
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| KO |
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| Organism |
emac Eleginops maclovinus (Patagonian blennie)
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| Pathway |
| emac00040 | Pentose and glucuronate interconversions |
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| Module |
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| Brite |
KEGG Orthology (KO) [BR:emac00001]
09100 Metabolism
09101 Carbohydrate metabolism
00040 Pentose and glucuronate interconversions
134872502 (gusb)
00053 Ascorbate and aldarate metabolism
134872502 (gusb)
09107 Glycan biosynthesis and metabolism
00531 Glycosaminoglycan degradation
134872502 (gusb)
09108 Metabolism of cofactors and vitamins
00860 Porphyrin metabolism
134872502 (gusb)
09111 Xenobiotics biodegradation and metabolism
00983 Drug metabolism - other enzymes
134872502 (gusb)
09140 Cellular Processes
09141 Transport and catabolism
04142 Lysosome
134872502 (gusb)
Enzymes [BR:emac01000]
3. Hydrolases
3.2 Glycosylases
3.2.1 Glycosidases, i.e. enzymes that hydrolyse O- and S-glycosyl compounds
3.2.1.31 beta-glucuronidase
134872502 (gusb)
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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 |
11:complement(19905019..19914342)
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| AA seq |
650 aa
MHRMILNERPGLFRVLCLLALFEVACLLETGMLFPRESSSREVKELNGLWNFRADKSPDR
NQGFDRAWYKSRLVETGPVIDMPVPASYNDITQDPTLKDFIGWVWYEREVVVPARWITDE
GTRVVIRVGSAHYYSIVWVNGVKVTEHNGGHLPFEAEIGTLIRKDPTQPCRITIAVNNTL
TLETLPPGSIQHMDDSTQYPKGFFVQNTYFDFFNYAGIHRAVLLYTTPAAYVDDITVVTD
FLDNTGLVNYKVSVQGATTATLKVTLMDKNGQCVASSTGPFGVLKVVDVNLWWPYLMHES
PGYLYSMEVHLMAANERSTYEDVYTLAVGIRTVNVTSTQFLINKKPFYFHGVNKHEDSDI
RGKGFDWSLIVKDFNLLKWMGANSFRTSHYPYAEEILQMCDRHGIVVIDECPGVGIKDIR
SFRNVSLNHHLVVMDELVRRDKNHASVVMWSVANEPASEMPPAEYYFKTLIQHTKALDPT
RAVTYVSNSHYARDKGAPYVDVICVNSYFSWYHDPGHLEVIPLQLNTQFENWYGKYQKPI
IQSEYGADAVPGLHSDPPMMFTEEYQKVVLQSCHDVFDQKRKQYLIGELIWNFADFMTAQ
GITRVVGNKKGVFTRQRQPKVAAFILKERYWRLANETGRLPPWTKYPCSL |
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| NT seq |
1953 nt +upstreamnt +downstreamnt
atgcacaggatgatcttaaatgagaggcccgggctgttccgtgtgctgtgcctgcttgcg
ctgtttgaagtggcatgtctgctggagaccggcatgctcttcccccgggagtcttcctcc
agggaggtgaaggagctgaacgggctctggaacttcagggctgacaagtctccagacaga
aaccagggcttcgacagggcatggtacaaaagtcgcctggtggagacgggcccagtgatt
gatatgccagttcctgccagctacaatgacatcacgcaggaccccactttgaaagatttc
attggctgggtgtggtatgagcgtgaggtggtggtgcctgcccgctggatcactgatgaa
ggaacaagagtggttatcagagtgggaagtgctcactattactcaatagtgtgggttaac
ggggtgaaagtgacagagcataacggcggacatcttccttttgaggctgagataggcact
ttaatccggaaggatccaacccagccctgcaggatcaccatcgccgtcaacaacacactg
actctggagactcttcctccaggaagcatccagcacatggacgacagcacccagtatcct
aaaggcttttttgtgcaaaacacctactttgatttcttcaactacgctggaatacatcga
gctgtattgctgtatactactcctgcggcctatgtggatgacatcactgtggtgactgac
ttcttggataacactggtctagtcaattacaaggtatcagtccaaggtgctaccacagcg
acactgaaggtcactctgatggacaaaaatggccagtgtgtggcctcctccactggtcca
tttggagtgctaaaagtagtagacgtcaatctgtggtggccgtacttgatgcatgagagt
ccaggttacctttactctatggaggttcacctcatggcagccaatgagagatctacgtat
gaggatgtgtatactctagcagttggcatccgcaccgtcaacgttaccagcacacagttc
ctcatcaacaaaaagcccttttatttccatggagtcaataaacatgaggactctgatatt
cggggtaagggctttgactggtcccttattgttaaagacttcaacctattaaagtggatg
ggggccaactctttccgcaccagccactacccctacgctgaggagatcctgcagatgtgt
gaccgccacggcatcgtggtgatagacgagtgcccgggggtgggcatcaaagacattcgc
agttttagaaacgtctctcttaaccatcacctggtcgtcatggacgagcttgtacgccgg
gacaagaaccacgcatccgtggtcatgtggtcagtagccaatgagccggcttcagagatg
cctcctgctgaatactatttcaagaccttaatacaacacaccaaagctctggatccaacc
cgggccgtcacttacgtctcaaacagtcattatgcccgggacaaaggggctccctatgtg
gatgtgatctgcgtaaacagttacttctcctggtaccacgaccccggccacctggaggtc
attccccttcagctcaacactcagtttgagaactggtatggaaagtaccagaagcccatc
atccagagtgaatatggagccgatgcggtgccagggcttcacagtgatccacccatgatg
tttactgaggagtaccagaaggtggtcctgcagagctgccacgatgtattcgaccagaag
aggaagcaatatttgatcggtgaactcatctggaactttgcagacttcatgacagcacaa
gggatcacccgtgtggtgggcaacaagaagggtgtattcaccaggcagaggcagcccaaa
gtggcagcattcatcctgaaggagaggtactggaggctggcaaatgaaacgggaagactg
cctccctggaccaagtacccgtgctcactctga |
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