| New model in OGS2.0 | DPOGS207922 |
|---|---|
| Genomic Position | scaffold1462:- 21471-28120 |
| See gene structure | |
| CDS Length | 1728 |
| Paired RNAseq reads | 8924 |
| Single RNAseq reads | 20954 |
| Migratory profiles | Query via corresponding ESTs |
| Best Bmobyx hit | BGIBMGA000072 (2e-169) |
| Best Drosophila hit | Bj1 protein, isoform C (1e-71) |
| Best Human hit | regulator of chromosome condensation isoform c (3e-67) |
| Best NR hit (blastp) | PREDICTED: similar to ENSANGP00000022492 [Nasonia vitripennis] (5e-98) |
| Best NR hit (blastx) | PREDICTED: similar to ENSANGP00000022492 [Nasonia vitripennis] (3e-90) |
| GeneOntology terms | GO:0005634 nucleus GO:0007417 central nervous system development GO:0030261 chromosome condensation GO:0003682 chromatin binding GO:0005087 Ran guanyl-nucleotide exchange factor activity GO:0005737 cytoplasm GO:0007076 mitotic chromosome condensation GO:0007346 regulation of mitotic cell cycle GO:0046822 regulation of nucleocytoplasmic transport GO:0050767 regulation of neurogenesis |
| InterPro families | IPR009091 Regulator of chromosome condensation/beta-lactamase-inhibitor protein II IPR000408 Regulator of chromosome condensation, RCC1 |
| Orthology group | MCL11539 |
Nucleotide sequence:
ATGCCGGCGGCGCGAGGCGTAAAGCGGACAGCGTCCAAGTCTTCAGCAGCCACGGCATCA
ACGGGGCCCAAAAATAAGAAAAAACGTGGAGCAATCCAGTTGGAGATACCAGTTCCACCG
AAACGTAAAGGATGTGTGATGACATGTGGACAGGGGGATGTTGGTCAGCTCGGCCTTGGA
GAAAATGTCATGGAAACCACAAAGTTCAAAACCGTTTCTGTGCTTGGTAACAAGATTGTT
GATGTAGTGGCAGGGGGAATGCACACTGTGGCACTCGACAGCGATGGAAAAGTATGGACA
TTTGGGTGTAACGATGAGGGAGCCCTGGGGCGTCCGACTTCCAGCGACACAGACGAGGGT
ACTCCCAAACAGGTGACATTACCACTGCCAGCGGTCGCTGTGTCTGCCGGAGACTCACAT
TCAGCTGCACTATTACAGAACGGAGACGTCTTCGCATGGGGGTCGTTTAGAGATTCTCAC
GGCAGTATGGGTCTTGTAGTCCGCGGCAGGGAAGGCAAGCCCTGCAAGGAACCAGTCAGA
GTTGACCTCGGGGAATCAGCGGTGGGAGTCGCCTCGGGCGGTGATCACCTAGTTATATTG
ACGAACACAGGATCAGTATACACAATGGGTTGTGGTGAACAAGGCCAGCTGGGACGGCTA
GCACAGCGGTCGGCCTCCAGAGATGCTCGGCAGGGATTCAGCGCTCTGTTGGTTCCTTCA
AAAGTTATACTAAAGGGCGGCGCGTGCCGCGTGTGGGCCGGCTATCACGCGACCTTCGTC
ATGGACGCCAGCAGCGACAAAATGTTCGCGTGGGGTCTCAATAACTACGGACAACTCGGT
ATAACGGGCGAGAAACGTAAGACGGCTATATATTCACCGACTGAGTGTGACGGCATGCGC
GGTAGGAGGTGGACGGACGTGAGTGCTGGCCAGCATCACTCCCTGGCCGTGGACGAGAGG
GGTTTGGCGCACAGTGTGGGCCGCTGCGAATACGGACGCCTGGGTCTCGGTCGCGATGGG
GACGCGGTGTCCTGGGAGGCGATCCCCAAGCTGCAGGACGACACCTGTGTGTGTGTGTCC
GCGGGCACGAGTAGCTCGTTCGCGGTCACACAGACCGGGCGGGTGGTGTGCTGGGGCGCG
GGCGGAGAAGGGCAGCTGGGGCTGGGCGGCTCCGACGACCAGCTAGAACCAACCCCCGCA
CAGCTGGAGGGCCGAGCGCTCAGGGTCACCGCCGGAGGTCAACACACTGTGGTCTTAGTG
GAGGACCCCACAGCACAAATGGAAGTTACGCCGGCTCCAGAGAGTGAGAAAGAAGAAGAA
AAGACGGAGAGCACAGAAGAGAAGAAAAAACAGAACAAGAGGCAGAAGAAACAAGAGCAA
GACGAGGAGATAACGTCAACATCCAGCGCACAGCACGCTGAAGTTAAAGATGAACTAGAG
AAAGTTAACGGAAACGAAAAGAAAGACACGGAACCGGAAACACCCATGGATGTTAACGAA
ACTGACAAACAAGAGGATATCGAAGATAAAATGGACACGCGGGAAGAGAGCGAGCAGACG
GACAAACCAGAAGCGGAACAAACGGACACCGAGGTCGACTCCAAAGACATGGACACCTCC
AGCCAGGACACGGCCAGCGACCAGGACGCGCTCCGGGAGACCGACGCCGCGCTCAACGGC
ACCGACGACCCGCCTGGGCCGAGGGAGGGGGGAGTAGCCTCCGCGTGA
Protein sequence:
MPAARGVKRTASKSSAATASTGPKNKKKRGAIQLEIPVPPKRKGCVMTCGQGDVGQLGLG
ENVMETTKFKTVSVLGNKIVDVVAGGMHTVALDSDGKVWTFGCNDEGALGRPTSSDTDEG
TPKQVTLPLPAVAVSAGDSHSAALLQNGDVFAWGSFRDSHGSMGLVVRGREGKPCKEPVR
VDLGESAVGVASGGDHLVILTNTGSVYTMGCGEQGQLGRLAQRSASRDARQGFSALLVPS
KVILKGGACRVWAGYHATFVMDASSDKMFAWGLNNYGQLGITGEKRKTAIYSPTECDGMR
GRRWTDVSAGQHHSLAVDERGLAHSVGRCEYGRLGLGRDGDAVSWEAIPKLQDDTCVCVS
AGTSSSFAVTQTGRVVCWGAGGEGQLGLGGSDDQLEPTPAQLEGRALRVTAGGQHTVVLV
EDPTAQMEVTPAPESEKEEEKTESTEEKKKQNKRQKKQEQDEEITSTSSAQHAEVKDELE
KVNGNEKKDTEPETPMDVNETDKQEDIEDKMDTREESEQTDKPEAEQTDTEVDSKDMDTS
SQDTASDQDALRETDAALNGTDDPPGPREGGVASA