| Entry |
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| Name |
(RefSeq) beta-glucuronidase-like
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| KO |
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| Organism |
xen Xenia sp. Carnegie-2017 (soft corals)
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| Pathway |
| xen00040 | Pentose and glucuronate interconversions |
| xen00053 | Ascorbate and aldarate metabolism |
| xen00983 | Drug metabolism - other enzymes |
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| Module |
| xen_M00129 | Ascorbate biosynthesis, animals, glucose-1P => ascorbate |
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| Brite |
KEGG Orthology (KO) [BR:xen00001]
09100 Metabolism
09101 Carbohydrate metabolism
00040 Pentose and glucuronate interconversions
124434445
00053 Ascorbate and aldarate metabolism
124434445
09107 Glycan biosynthesis and metabolism
00531 Glycosaminoglycan degradation
124434445
09108 Metabolism of cofactors and vitamins
00860 Porphyrin metabolism
124434445
09111 Xenobiotics biodegradation and metabolism
00983 Drug metabolism - other enzymes
124434445
09140 Cellular Processes
09141 Transport and catabolism
04142 Lysosome
124434445
Enzymes [BR:xen01000]
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
124434445
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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 |
671 aa
MVCIIFFRPILMGLLFAENFVLTCASVDKDLYVYESDNKAESNLNALQHGMLFPRESESR
QIKNLEGIWSFRADMSSSRNEGFDKKWYQQDLYKTGPVIKMAVPSSFNDVTQDDALRKFV
GWVWYDRIVYPPKSWQTDNLRVVLRFESVHYNAIVWLNGEEAIRHYGGHLPFEAHVNKLL
KFGEENRITVAVNNTLNSTTLPPGTIEYKHGPRYPKGYFVQDYAFDFFNYAGIHRLVRFY
TTPQVFISDITVVTDLTSDNTNGTLRFKTLVLGSQSLHDSFHVSYKLFDAAGKSVANISG
FKLLIGKLEVHNVQPWWPIGMNDNPGYLYYLKIIVTSGDLMDVYRLPVGFRTVKVEKTKF
LINHKPFYFKGFNMHEDSDIRGKGLDFPLIVKNFNLFTWLGGNAFRTSHYPYAEEIMDMA
DQLGIVVIDECPGIGIRAPNFGAQSLSHHLEVMNELVRRDKNRPSVVMWSVANEPSSNLP
AAELYFKTVINHTRFLDTTRPVTFVTNKSSGDDRAVQFVDVICHNHYYAWYHDPGHLELI
QLQLEYDLRQWFEKFQKPVIQSEYGAGTVSGLHMFPPVMYTEDYQVATIEQYFPVFDKLR
EEFFVGELIWNFADFMTKQYVKRVQGNKKGILTRQRQPKEAAYVLRNRYLNLNISMGSTK
RDEYKNGKCTC |
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| NT seq |
2016 nt +upstreamnt +downstreamnt
atggtctgtattatcttttttcgacctattttaatgggattgctgtttgctgagaatttc
gttcttacctgcgcttctgtcgataaagatctctatgtgtatgaaagtgacaacaaagca
gaatcaaatcttaatgctctccaacatggcatgctttttcctcgtgagtcagagagtcga
caaatcaaaaatcttgaagggatttggtcctttcgtgcggacatgtcttcaagtcgaaat
gaaggatttgataagaaatggtatcaacaagacttatacaaaacaggtccagtgatcaag
atggcagttccctcaagttttaatgacgtcacacaagatgatgcactaagaaagtttgtt
ggttgggtctggtacgaccgtattgtgtatccgcctaaatcttggcagactgacaattta
cgggtggttttaagattcgaaagtgtccactataatgccattgtttggttgaatggtgaa
gaagcaataagacattatggtggccatcttccttttgaagctcacgttaacaaacttcta
aagtttggtgaagaaaacagaataacagttgccgtaaataatacattgaattcaacgaca
ttacctccaggaacaattgagtacaagcatggtccaagatatcccaaaggatattttgta
caggattatgcatttgatttcttcaattatgctggaatacatcgtttggttcgtttttac
acgacacctcaagtcttcatctcggatatcactgtcgttactgatctaacttctgataat
acaaatggaacacttcgtttcaaaactcttgtcctaggttctcaatctttacacgattct
tttcatgtgtcgtacaaactcttcgatgctgctggaaaatctgttgcaaatatctctgga
tttaaactgttaattggaaaattagaagtacataatgttcaaccatggtggcctattgga
atgaatgataatcctggttatctttactatttgaagatcattgtcactagcggtgatttg
atggatgtttatcgtttgcccgttggatttcgtactgttaaagtggagaaaacaaaattt
cttattaatcataaaccgttctatttcaaaggattcaatatgcacgaagattctgatata
cgtggtaaaggtttggactttcctctaattgtgaaaaactttaatctttttacttggctt
ggaggcaatgcctttcgtaccagccactatccttacgcggaagaaatcatggatatggct
gatcagttagggatagttgtgatcgacgagtgtcccgggatcgggattcgagcaccaaat
tttggtgcccagtctctatcacatcatcttgaggtgatgaatgagttagtgcgacgagac
aagaatcgtccttcagtagtcatgtggtctgttgccaacgaaccaagctcaaaccttcct
gctgccgaattatacttcaaaactgttatcaatcatacaaggtttcttgatacaacacga
ccagtcacattcgttactaataaatcatcaggcgatgatcgtgctgttcaatttgtggac
gtaatctgtcacaatcattattatgcctggtaccatgatccgggacatttggaactcatt
cagttacaactcgaatatgatttacgtcagtggtttgaaaagtttcaaaaacctgtcatc
caatcagaatacggtgccggtactgtttctggtcttcatatgtttcctcccgtcatgtat
actgaagattatcaggtggccaccattgagcaatatttccctgtctttgataaactgagg
gaagagttcttcgttggtgaactgatctggaattttgctgactttatgacaaaacaatat
gttaagagagttcaaggaaataagaaaggaattttaactcgacaacgtcaaccaaaggaa
gctgcctacgttctgagaaaccgttatctcaatctcaatatctccatggggtcaaccaaa
cgagacgagtataagaatggaaaatgcacttgttaa |
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