| Entry |
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| Name |
(RefSeq) beta-glucuronidase-like isoform X3
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| KO |
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| Organism |
aqu Amphimedon queenslandica (sponge)
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| Pathway |
| aqu00040 | Pentose and glucuronate interconversions |
| aqu00053 | Ascorbate and aldarate metabolism |
| aqu00983 | Drug metabolism - other enzymes |
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| Module |
| aqu_M00129 | Ascorbate biosynthesis, animals, glucose-1P => ascorbate |
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| Brite |
KEGG Orthology (KO) [BR:aqu00001]
09100 Metabolism
09101 Carbohydrate metabolism
00040 Pentose and glucuronate interconversions
100635650
00053 Ascorbate and aldarate metabolism
100635650
09107 Glycan biosynthesis and metabolism
00531 Glycosaminoglycan degradation
100635650
09108 Metabolism of cofactors and vitamins
00860 Porphyrin metabolism
100635650
09111 Xenobiotics biodegradation and metabolism
00983 Drug metabolism - other enzymes
100635650
09140 Cellular Processes
09141 Transport and catabolism
04142 Lysosome
100635650
Enzymes [BR:aqu01000]
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
100635650
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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 |
Unknown
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| AA seq |
625 aa
MKLALTFFVLAIIATCQGLYPKDSPSRLLKDLDGIWHFKIDDSLSRNEGFDDEWYLKPLT
DTILMPVPASYNDITQDKNIRDFIGWAWYDRNFWVPGSWLDGKTRVVLRFESAHYYTIVW
VNGKQVMTHDGGHLPFEADIAEHLEEGQPNRVTVAVNNTLNANTLPPGSVKYYSGEKYPP
NYFTFTGQFDFFNYAGIQRSVKLYTTPKAYISDISVVTELEEDGSASVAYTVMIGGVEGN
SEASYEVSLSGVKDSGTVTDGIAKGTLKITDPTLWWPWTLSSTPGAMQPFQVKITTDGVT
DMYIQSVGLREVVVTEDQFLINGKPFYFHGVDKHEDWDIVGKGINDALLMKDINLLKWMN
VAAFRTSHYPYAEEMLDLCDKEGIVVIGESPAVGLHDEDNFGNATLMHHFQVMREMIDRD
KNHPSVVMWSVANEPASDLPVAERYFQSIVEVTHTLDASRPITFACNKDYDSDRATQFMD
VIMLNRYYDWYDNGGHPEVVPYALRYDLGQWRQRQKKPIMISEYGAGTIPGIHKDPPVMW
SEEYQAEALMAYWSVFDDYRKSFFIGELVWNFADFETAQSSKRADGNHKGLLTRQRQPKL
AARAVKYRYEALAEGKDYHPEQIPV |
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| NT seq |
1878 nt +upstreamnt +downstreamnt
atgaagctagcattgacctttttcgttttagcaattatagcaacttgtcagggtctttat
cctaaggactctcccagcaggctactaaaggacctggatggtatatggcactttaagatt
gatgactcactatcaaggaatgaaggatttgatgatgaatggtacctaaagccacttact
gacaccattctgatgccagtccctgccagttataatgacatcactcaggataaaaatatc
agagacttcattggctgggcttggtatgacaggaacttttgggtacctggttcttggttg
gatggtaaaacacgtgtagtgttgagatttgagagtgcccattactacactatagtgtgg
gtcaatggtaaacaagtgatgacacatgatggaggtcacttaccatttgaggctgatatt
gctgaacacctagaggaaggacaaccaaacagagtaactgttgctgttaataataccctc
aatgctaacactttgcctcctggttctgttaaatattacagtggagaaaagtatccacca
aattactttacttttaccggacaatttgatttctttaattatgctggtattcaacgttca
gtaaaactctataccactcccaaggcatatatatctgatatcagtgttgttactgaactg
gaggaagatgggagtgctagcgttgcatatacagtaatgataggaggagtagaaggaaat
agtgaagcaagttatgaagtcagtctatcaggagtgaaagattcaggaactgtaactgat
gggattgctaaaggtactcttaagattaccgatcctaccctatggtggccttggactctt
agctctactcctggagctatgcaaccattccaagtaaaaatcactactgatggtgttact
gacatgtatatacaatctgttggtctgagggaggttgtagtgacagaggatcagtttctc
attaatggcaaaccattttactttcatggtgtggacaaacatgaggactgggacattgtt
ggtaaaggcataaacgatgctcttctcatgaaggacattaatttacttaagtggatgaat
gtggctgctttcaggaccagtcattatccttatgctgaagaaatgcttgacctctgtgac
aaggaagggattgtggtcattggagaaagccctgcagttggattacacgatgaggataat
tttggtaatgcaacactgatgcatcactttcaggtgatgagagaaatgattgatagagat
aagaaccatccatcagttgtgatgtggtcagtagctaatgagcctgcatctgaccttccg
gttgctgaaagatatttccaatctattgtagaagttacacatactcttgatgcatcccgc
cctattacatttgcttgcaataaagactatgattctgatagagcaacacagtttatggat
gtaataatgcttaatcgctattacgattggtatgataacggtggacatccagaagttgtg
ccatatgccctacgctatgatcttgggcaatggagacaaaggcagaagaagccaatcatg
atatcagagtatggagcagggacaataccagggatacacaaggaccctccagtaatgtgg
tctgaagagtatcaagctgaagcactgatggcttattggtctgtgtttgatgattatcgt
aaatctttcttcattggtgagctagtatggaactttgctgattttgaaactgctcaatca
tctaagcgtgctgatggtaatcacaaaggtctactgacacgtcagaggcagccaaagtta
gcagcacgggccgttaagtatagatatgaggcactagctgaaggaaaagactatcatcct
gaacagattccagtttga |
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