Entry |
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Name |
(RefSeq) hypothetical protein
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KO |
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Organism |
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Pathway |
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Brite |
KEGG Orthology (KO) [BR:fgr00001]
09140 Cellular Processes
09143 Cell growth and death
04111 Cell cycle - yeast
FGSG_00543
04113 Meiosis - yeast
FGSG_00543
09180 Brite Hierarchies
09181 Protein families: metabolism
01009 Protein phosphatases and associated proteins [BR:fgr01009]
FGSG_00543
09183 Protein families: signaling and cellular processes
03037 Cilium and associated proteins [BR:fgr03037]
FGSG_00543
Enzymes [BR:fgr01000]
3. Hydrolases
3.1 Acting on ester bonds
3.1.3 Phosphoric-monoester hydrolases
3.1.3.16 protein-serine/threonine phosphatase
FGSG_00543
3.1.3.48 protein-tyrosine-phosphatase
FGSG_00543
Protein phosphatases and associated proteins [BR:fgr01009]
Protein tyrosine phosphatases (PTPs)
Class I PTPs (Dual specificity phosphatases)
CDC14
FGSG_00543
Cilium and associated proteins [BR:fgr03037]
Other cilia and associated proteins
Stereociliary proteins
FGSG_00543
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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 |
1:complement(1706300..1708451)
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AA seq |
633 aa
MAPSSRHPQLQPQPQSMAQIVEYIPDRLYLAAYNVAPTADTPFPYPEEPAPVSPRKRTTR
LAAGATPLAKPSRPQPCYFTVDDTLLYNAFHHDFGPLHIGHLYRFAIQFHDILGAKQNKE
RPIVFYSAADPKSRANAACMLACYMVLIQNWPPHLALAPIAQVDPPLMPFRDAGYSQADY
GISVQDVVYGVWKAKEEKCCDLDNFDLDEYERFERVEHGDFNWITPHFLAFASPQHAPVQ
KVTEGSELFPLLPRTIAAVDAHPKLPKPFKNVLKHFSEKNIGLVVRLNSQLYSPSYFEAL
GIQHLDMIFDDGTCPSLTTVRKFIRLAHETITVRKKGIAVHCKAGLGRTGCLIGAYLIYR
HGFTANEVISFMRFMRPGMVVGPQQHWLHLNQGTFREWWVEERIERRLRREMAAANPIPS
TPIRAMQKTTLRNGQASTPPNRSPSNRTPLSEVDHDRNNIGVQEDYLPAPTPGQPRKTAR
DRHHPYQRSISGGVPPEAQYPVDQEADLIAKYTQASGESDEELHLRMRRRKATSQSPARS
EKTRSVSQTTAIYTIDNDASHDAENIGSVRSKYVERVPSTPGVLAKVRGSKRQGESPLRA
KESGVRKTSGRVGSASHSTSVSAASTARKVSGA |
NT seq |
1902 nt +upstreamnt +downstreamnt
atggcgccttccagccgacacccacaactgcaaccgcagccgcaaagcatggcgcaaatc
gtcgagtacataccagatcgcctttaccttgccgcttacaatgtcgcgcccaccgccgat
actccattcccctaccctgaggagcctgcgcctgtttctcctagaaagagaaccacaaga
ctcgctgctggtgctaccccgctcgcgaagccatctcgacctcagccctgctactttact
gtcgacgatactctcctgtataacgctttccaccatgattttggtcctctccacatcggt
cacttgtaccgatttgctatccagttccacgacatcctaggcgccaagcagaacaaggag
cgtcccattgtcttttacagcgccgccgaccccaagagtcgcgccaatgccgcctgcatg
ctcgcgtgctacatggtccttatccagaactggcctcctcacctggccctcgccccgatt
gcgcaagtcgatcctcctctgatgcctttccgagacgccggttacagccaagcggactac
ggtattagcgttcaagatgttgtctacggtgtgtggaaggccaaggaggagaagtgctgc
gacctcgacaatttcgacctggacgagtacgagcgattcgagagagtcgagcatggtgac
ttcaactggatcaccccccatttcctggcctttgcttctcctcagcatgcgccagtccag
aaggtcacagagggttccgaattgttcccattgctcccacgaacgatagctgctgtggac
gcccaccccaagctaccaaagcctttcaagaatgtcctcaagcacttttcggagaagaac
attggtctggtggtccgtctgaactctcaactctactcaccctcttactttgaggctctg
ggtatccagcatctggacatgatctttgacgacggtacatgtccttcgctcaccactgtc
cgcaaattcatcagactcgctcacgaaacaatcactgtgcgcaagaagggaatcgctgtt
cactgcaaggctggtttgggccgaactggttgcttgattggtgcctatctcatttaccgc
catggattcacagccaacgaggtcatctctttcatgcgatttatgcgacccggtatggtc
gttggtcctcaacagcattggcttcacctcaaccagggcaccttccgagagtggtgggtt
gaggagaggatcgagcgccgactaaggagagagatggctgccgccaaccccattcccagc
acacccattcgtgccatgcaaaagacaacactgcgaaacggtcaggcttcgacgccaccc
aaccgaagcccttcaaatcgcacaccgctgagtgaagttgaccatgaccgcaataacatt
ggggtccaggaagactatctaccagctcccacacccgggcaaccacgaaagactgctagg
gatcgtcaccatccttaccaacgctctatatctggaggagttcctcctgaagcgcaatac
ccagtcgaccaagaagcagacttgatcgcgaagtacactcaggctagtggtgagtctgac
gaggagttgcacttgcgcatgcgccgccgcaaggcgacttcacaatcgccagctcgcagc
gagaagacacgatccgtgagccagaccacagccatttacacaatagacaacgacgcgtca
catgatgccgagaacattggttctgtgcggtccaagtatgttgagcgggtgccgagtaca
cctggtgtcttggcaaaggtccgcggcagcaagcgccagggcgagtctcctctccgggca
aaggagtccggcgttcgaaagaccagcggcagagtaggcagcgctagccatagcacgtca
gtgtcagcagcctcaacagctcgcaaggtctctggggcttag |