New model in OGS2.0 | DPOGS211926  |
---|---|
Genomic Position | scaffold1343:- 4912-10186 |
See gene structure | |
CDS Length | 2148 |
Paired RNAseq reads   | 641 |
Single RNAseq reads   | 1532 |
Migratory profiles | Query via corresponding ESTs |
Best Bmobyx hit | BGIBMGA000979 (0.0) |
Best Drosophila hit   | gamma-tubulin ring protein 84, isoform B (1e-104) |
Best Human hit | gamma-tubulin complex component 2 (6e-125) |
Best NR hit (blastp)   | PREDICTED: hypothetical protein [Nasonia vitripennis] (2e-167) |
Best NR hit (blastx)   | PREDICTED: hypothetical protein [Nasonia vitripennis] (1e-154) |
GeneOntology terms    | GO:0005815 microtubule organizing center GO:0000922 spindle pole GO:0000226 microtubule cytoskeleton organization GO:0003674 molecular_function |
InterPro families   | IPR007259 Spc97/Spc98 |
Orthology group | MCL12344 |
Nucleotide sequence:
ATGCAAAGTACAATAAAAGAACTTTTGGACGCCTTAGGATGTAATTTAGAAGCTGATACC
GTTTTAGACTACATCCAGAATGATCCCAATTACGGCAATAGCAGCTTGACAATCAAACAA
GCCAATGAATATGCACAAAGACTTGCACTTAAAGCTTCTAATGCTAAAGTTTTTCTCAAA
AAGTACGAGGATCTGAAAAATCGCAACACTGATAATTTGTCAGATATGGTTGTATTATTT
TATAAACTGGTGTGTGAGGATAAGAAAACAAGAATCTCAAAGCCCAAAGTGGCGCCAAAA
CCTGTCATGGGCGACAACAAGCACCAGATCACTAAAGATGACCTTCCCCAGATTAAAGAC
AAATTACTGAAAGCTGTTGATGAGAGTAAGAAGTTGGTAATGAAGTCGTTTGAGGAAAAG
GAATCGAAGCTGAGACCGAATTGGTACAGCAGTCTGGATTTACCGAACTGGCAAAAAGAC
CATCCCGCTATGTCCTGGGATTTCCCCAAGGAACCAGTACCAATAGTTGCCTCGTTAGCT
GGAATCCCAATAGCGTCGCAAGAAAATATAATAATCGAGGAGCTTCTGTATGTATTTTCT
GGCATCCCTGGAAATTTCATAGTCCATCAACCTGTTAAGGACGTATTTGATGCTAGAACG
TTTTTAATATCTGAAGATTTGGACGACGCTTTGAGACAAATTGTCCAACAAATGTTGCCA
TTAGCTTCAAACTACTCGATAGTGAGGAGGTTCATAGAGAACTGTGATATGTGGTCGGGT
CAAGTGTTGCATGCTTTAGTTGCCGGCATTGAGGTTTTACTAAAAGATTATTATACCATG
CTGGCCCAACTGGAAACGGAACAGATGTCATCGAACTTGACACTTCAAAAGCTATGGTAT
TTTGTACTGCCCACCATGCACACCATGCAAGTGTTGGCAGCTATAGTCACTTGTATCGGA
AAGAGCGAATTAAGAGGTGGTGCGGTTTTGACAGTATTACATGATAAGACGAACACACTG
ATGGGTGATGCGAGGGCACAAGAAATATCCTTATTTCTCACCGAGAGGGCATGTCGACCT
TATTTATTCATATTAGACCAGTGGATACATAAAGGAACGGTTATTGACCCTTTTCAGGAA
TTCATGATAGAAGACAATGAACTGATCAACAAAGAGGAACTGCCAGTAGATTATTCAGCG
GACTACTGGGAGAAGCGATACTGCATACAGAGGGATAGAGTGCCCAAGTTTTTGGAAAAA
TTCACGGACATCATACTAAGGACGGGCAAATACCTGAATGTTATCAGCCAGTGTGGTAAA
TCAATAACGAAGCCCAACACAGAGGAAATCAAATATTCACTCCGCGAACAAAACTATGGA
GCTATAATACAGAAGGCCTATTCATTTGCTAGCAAGTCTCTGTTGGAACTGCTGTTGAAG
GAGTACGATCTGATGGGTCGCTTGAAATCCGTCAAGAACTACTTCCTCATGAGCCAGGGT
GACTTCATAGTGCAGTTCATGGACGCCACGGAACAGGAGCTGTCCAAGAAGATTGATGAC
ATCATACCTTCCAAATTAGAGTCGCTCCTGGGTCTCTGTTTGAGATTATCAGCCGCTAGT
CATGACCCCTATAATGAGGACATGAGAGTTGAACTGCTGCCATACGACCTGCAATTCCAG
ATGTTCAAGATACTGTCCATTGAGACTAAGGATGAGAAAGAATACAAACAGAACAAGGAG
TGCCCTCCGCTGTCTGGTATTGAGACGTTCTCGTTCGGCATGGAGGTGAAGTGGCCGGTG
TCCCTGATCCTGAACCACAAGGCGATCGCCTGCTACCAGATGATATTCAGACACCTGTTC
TACTGCAAACACGTGGAGAGGCTGCTCTGTAGGGTGTGGCTGTACAACAAGGTGGTGAAG
CGCTTCTCGGAGGCGCGGCTGTACGCGGACTCGTTCGCCCTGAGGCAGCGCATGTTGAGC
TGCATCCAGCACCTGCAGTACTACATGTGCGTGGAGGTCATCGAGCCGTCCTGGTGTCAG
CTCATACAGAGCCTGGACAACGATTTATTATGCGTTTTTAATTATCCTAACTGTGGTCTG
CCGACGTTTCGGCTCGGCGGACGAGACGGGGCTCTCACGTGTGGTTAA
Protein sequence:
MQSTIKELLDALGCNLEADTVLDYIQNDPNYGNSSLTIKQANEYAQRLALKASNAKVFLK
KYEDLKNRNTDNLSDMVVLFYKLVCEDKKTRISKPKVAPKPVMGDNKHQITKDDLPQIKD
KLLKAVDESKKLVMKSFEEKESKLRPNWYSSLDLPNWQKDHPAMSWDFPKEPVPIVASLA
GIPIASQENIIIEELLYVFSGIPGNFIVHQPVKDVFDARTFLISEDLDDALRQIVQQMLP
LASNYSIVRRFIENCDMWSGQVLHALVAGIEVLLKDYYTMLAQLETEQMSSNLTLQKLWY
FVLPTMHTMQVLAAIVTCIGKSELRGGAVLTVLHDKTNTLMGDARAQEISLFLTERACRP
YLFILDQWIHKGTVIDPFQEFMIEDNELINKEELPVDYSADYWEKRYCIQRDRVPKFLEK
FTDIILRTGKYLNVISQCGKSITKPNTEEIKYSLREQNYGAIIQKAYSFASKSLLELLLK
EYDLMGRLKSVKNYFLMSQGDFIVQFMDATEQELSKKIDDIIPSKLESLLGLCLRLSAAS
HDPYNEDMRVELLPYDLQFQMFKILSIETKDEKEYKQNKECPPLSGIETFSFGMEVKWPV
SLILNHKAIACYQMIFRHLFYCKHVERLLCRVWLYNKVVKRFSEARLYADSFALRQRMLS
CIQHLQYYMCVEVIEPSWCQLIQSLDNDLLCVFNYPNCGLPTFRLGGRDGALTCG