Entry |
|
Name |
(RefSeq) beta-glucuronidase-like
|
KO |
|
Organism |
tcf Tigriopus californicus (tidepool copepod)
|
Pathway |
tcf00040 | Pentose and glucuronate interconversions |
tcf00053 | Ascorbate and aldarate metabolism |
tcf00983 | Drug metabolism - other enzymes |
|
Module |
tcf_M00129 | Ascorbate biosynthesis, animals, glucose-1P => ascorbate |
|
Brite |
KEGG Orthology (KO) [BR:tcf00001]
09100 Metabolism
09101 Carbohydrate metabolism
00040 Pentose and glucuronate interconversions
131881723
00053 Ascorbate and aldarate metabolism
131881723
09107 Glycan biosynthesis and metabolism
00531 Glycosaminoglycan degradation
131881723
09108 Metabolism of cofactors and vitamins
00860 Porphyrin metabolism
131881723
09111 Xenobiotics biodegradation and metabolism
00983 Drug metabolism - other enzymes
131881723
09140 Cellular Processes
09141 Transport and catabolism
04142 Lysosome
131881723
Enzymes [BR:tcf01000]
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
131881723
|
SSDB |
|
Motif |
|
Other DBs |
|
LinkDB |
|
Position |
6:complement(1758298..1762359)
|
AA seq |
634 aa
MLLLTALLNWMSIYCVGLCQASNLYPKDSSVRQTKSLDGIWNFLSQSSLDPEEGFRNKWF
ESPLLQSSEGERVMDMPVPSSFNDITTLESLRDFVGWVWYDREFYIPSHWNDARVFLHFG
SAHYTSKVWINGHWSRNHSGGHLPFESDITQLLHRGRSNRVTVALNNTLGAETIPQGKWK
WFHDDPIYPAGYFEMQYSFDFFNYGGIHRPVTLYTVPKSIHIQDIKVVTTFVAKDFLRAN
ITYEVILSSEGSCSVDLLDKHGNQVACSTNCSGILSVVQPHLWWPYLMSEEYGYLYTLKV
SARDSQTRDEYLQSTGIRFLSWDNTTFKINHTPFYFRGFGRHEDSNFRGKGLDLPLATKD
YNLIRWTGANSYRTSHYPYAEELMDFADRNGIVIIDECPGVNLEGFKPVLLENHLRVMES
LIARDKNHPSVVMWSLGNEPRSNVPEAKGYFQTVADHVRSLDTSRPTILVMSYPVEDEQG
GYAVDILGLNRYYGWYSQTGQLKLIANGTMNEIRKWNKKFGKPLILTEYGGDTISGFHEV
PSTIFTEEYQVELMKENFLAFDRLRDEGILIGEMIWNYADFMTKQDYVRAWGNRKGIFTR
DRHPKMSAHVLRERYWNMTDGLIVRVNSPIRENT |
NT seq |
1905 nt +upstreamnt +downstreamnt
atgctcctgttgacagctttattgaattggatgtcaatctattgcgtgggattgtgtcaa
gcctccaacttataccccaaggactcaagtgtcaggcagacgaaatctctcgatggcatc
tggaatttcctctcccaatcgagtttggaccctgaagagggattccggaacaagtggttt
gaatccccactgcttcaaagttctgaaggtgagcgagtgatggacatgccggttccatca
agcttcaatgatattaccactctggaaagccttcgagactttgtgggatgggtctggtac
gaccgagaattctatatcccttcccattggaatgacgcgagagtgttccttcactttggc
agtgctcattacacatcaaaggtatggatcaatggccattggtccaggaaccattcagga
ggtcatcttccattcgaatcggacatcactcaattgctgcatagaggacggtccaatcga
gtgacggtggctttaaataataccttgggtgctgagaccataccccaagggaagtggaaa
tggttccacgatgatcccatctatccagccgggtattttgaaatgcaatattcttttgac
ttcttcaactatggagggatccatcgaccggtgacgctctacaccgttccaaaatcgatc
cacatacaggatatcaaggtcgtaacaactttcgtggcgaaggactttttgagagccaat
atcacgtacgaggtcattctcagctcggaagggtcttgctcagttgatttgttggacaaa
catgggaatcaagtggcatgttccaccaattgcagtggaatcctgtcagtggtccaacct
catttatggtggccttacttgatgagcgaagaatatggctatttatacacactaaaggtg
tcggctagagactcccaaacgagggatgaatacctccagagcacggggattcgcttcttg
tcgtgggacaatacaactttcaagatcaaccacacacccttttatttccgaggatttggc
aggcacgaggattccaacttcagagggaaagggttggacttgcccctggcgactaaggat
tacaacttgatccgatggaccggggccaactcttaccggactagtcactacccgtatgca
gaagagctcatggatttcgccgaccgaaatggtatcgtcatcattgatgaatgccccggg
gtcaatttggaaggcttcaaaccggtattactcgagaatcatctccgtgttatggagagt
ttgatcgccagggacaagaaccatccctctgttgtgatgtggtccttgggcaacgagcca
agatccaacgtcccagaggcaaaggggtattttcaaaccgtggccgaccatgtccgatcc
ctagatacgagcagacccaccattttggtgatgagctaccctgtagaggacgagcaaggg
ggctacgctgtcgatatattgggcttgaatcgatactacgggtggtactcacagaccggc
caattgaagctcattgccaatggaacaatgaatgaaatcaggaagtggaacaaaaagttc
ggcaaacctctgatcctgactgagtacggtggggacacaatcagcgggttccacgaagtt
ccgtcaacgattttcaccgaggaatatcaagtggaactaatgaaggagaacttcctggcc
ttcgatcgactgcgggacgaggggattctgattggcgagatgatttggaactatgctgat
ttcatgaccaaacaggactatgtgcgggcttggggcaaccgcaaggggatctttactcga
gacaggcatcccaaaatgtcggctcatgtcttgagggaacgctattggaacatgacggat
gggttaattgtgcgcgtcaactcaccgatccgtgagaacacctaa |