| Entry |
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| Name |
(RefSeq) protein 5NUC-like isoform X1
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| KO |
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| Organism |
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| Pathway |
| bpyo00760 | Nicotinate and nicotinamide metabolism |
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| Module |
| bpyo_M00958 | Adenine ribonucleotide degradation, AMP => Urate |
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| Brite |
KEGG Orthology (KO) [BR:bpyo00001]
09100 Metabolism
09104 Nucleotide metabolism
00230 Purine metabolism
122574608
00240 Pyrimidine metabolism
122574608
09108 Metabolism of cofactors and vitamins
00760 Nicotinate and nicotinamide metabolism
122574608
09180 Brite Hierarchies
09183 Protein families: signaling and cellular processes
04090 CD molecules [BR:bpyo04090]
122574608
00537 Glycosylphosphatidylinositol (GPI)-anchored proteins [BR:bpyo00537]
122574608
Enzymes [BR:bpyo01000]
3. Hydrolases
3.1 Acting on ester bonds
3.1.3 Phosphoric-monoester hydrolases
3.1.3.5 5'-nucleotidase
122574608
CD molecules [BR:bpyo04090]
Proteins
122574608
Glycosylphosphatidylinositol (GPI)-anchored proteins [BR:bpyo00537]
Enzymes
122574608
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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 |
LG14:5043132..5061576
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| AA seq |
608 aa
MQPKREQPCDKMLVAWIMITTVLAFSSKVLGNPVPTEPQESEGLTLRIVHTNDMHSRFEQ
TSRLSSVCSKKEAEEKKCYGGFARIATLVRQARNSSVPCLFLNAGDTYQGSMWFSVYKWE
IVAKFLNLLAPNVTSLGNHEFDDSVEGLIPFIQNASFPIVTSNLDLSKQPDLAATKLKNS
TVLTVNGVKIGVIGYLTPDTKIIARTENVIFLDEVESIRREAKQLKSQGVNILIAVGHSG
FEMDKKIGREVEDIDIVIGGHTNTFLYNGIQPDLEVPEGLYPTEVIQKSGRKVYVVQAYA
YTKYLGNLTVTFDDKGEVTDINGNPVLVDSSIEQAKDILNELEQMRDAIDNISLRILGKT
RVLLEGDSKVCRLRECNLGNLITDSMIDYNVGEYADQSNWTDAAIAIHNSGSIRSSITRG
NEDKVTMGDVLSVLPFHNTILKASMTGELLLSVLEWSVYNLDKDNTANLFGAFLQVSGLQ
VVYDLTQPKNSRVVSVEVLCASCDVPTYNNLEKNRTYNVLLTDFLQSGGDGYSMLKDLKT
TSLGVTTSNTLMMYLEKHSPVHPAVEWRITYLNNHSQAVCTTCSGTNSIYHSMGLTILLP
IFSWLLAR |
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| NT seq |
1827 nt +upstreamnt +downstreamnt
atgcagccgaagcgtgaacagccgtgtgacaaaatgctcgtcgcttggatcatgattacg
accgttctggcgttctccagtaaagtcctcggcaaccctgtgcctacggaaccccaggaa
tctgagggactcacccttcgaatcgttcacaccaatgatatgcattcgagattcgagcaa
acatcaagattatcaagcgtttgctcgaagaaagaagcagaggagaagaaatgctatggt
ggattcgcgagaatagctactctggttcgacaagccagaaactcgtcggtcccatgtctc
ttcctcaacgctggcgatacttatcaaggatctatgtggttcagcgtgtacaagtgggaa
attgtagccaaattcttgaatcttctagctccaaatgtcacgagtttaggaaaccacgag
ttcgacgatagcgtggaaggtttaatacctttcatccagaacgcctcgtttcctatagtc
acttccaacctggacttaagcaaacaaccagatctggcagccacaaagttaaaaaacagt
acagttttaaccgtaaatggagtaaaaatcggagtaatcggttatctaacaccagatacc
aagataattgccagaacggaaaacgtgattttcttagacgaagtggagagcattcgtaga
gaagcaaaacaattaaaaagccagggtgtgaacatattgatcgctgtgggacattctgga
tttgagatggacaaaaagattggtcgagaagtggaagatatcgatatagtgatcggtgga
cacacgaacactttcctttataatggcatccaaccggatttggaggtaccagaaggttta
tatccaacagaagtaatacagaaaagtggaaggaaggtttatgtggttcaagcttacgct
tatactaagtatctcggcaatcttacggtgaccttcgatgataagggagaagtgactgat
attaatggcaatcctgttcttgtagatagcagtattgaacaggcgaaagatattttaaac
gaattagaacagatgagagatgctatcgataatattagcctaagaatactcggaaagaca
cgagtccttctcgaaggagatagtaaagtttgtagactaagagagtgtaacctgggcaat
ttaatcacagatagcatgattgattacaatgttggtgaatatgcagaccaatccaattgg
acggatgctgcaatagctattcataatagtggcagtatcagaagttctatcacaagaggc
aatgaagataaagtcaccatgggtgatgttcttagcgtgctaccctttcataacactatc
ctaaaagcttcaatgactggagaattgttattgtctgtattagaatggagcgtttacaat
ctagacaaggataatactgctaatctctttggagcatttttgcaagtttcaggacttcaa
gtggtctatgatttaactcaaccaaaaaattcaagagtagtttcagtagaagtattgtgt
gcatcctgcgatgttccaacatataacaatcttgaaaaaaatcgaacttataatgtactt
ctgaccgacttcttgcaaagtggtggtgatggatattctatgctaaaggatctcaaaacc
acatctcttggtgtcactacatcaaatacattaatgatgtatttagaaaaacatagtcct
gtacatcctgctgttgaatggagaattacttacctcaataatcattcacaagcagtttgt
accacttgcagtggtacaaatagtatataccactcaatgggattaacaattttattacca
atattcagctggttgctagcaagatag |
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