New model in OGS2.0 | DPOGS207790  |
---|---|
Genomic Position | scaffold770:- 7891-13177 |
See gene structure | |
CDS Length | 2931 |
Paired RNAseq reads   | 650 |
Single RNAseq reads   | 1458 |
Migratory profiles | Query via corresponding ESTs |
Best Bmobyx hit | BGIBMGA005483 (0.0) |
Best Drosophila hit   | CAP-D2 condensin subunit (2e-78) |
Best Human hit | condensin complex subunit 1 (2e-64) |
Best NR hit (blastp)   | AGAP003434-PA [Anopheles gambiae str. PEST] (9e-155) |
Best NR hit (blastx)   | AGAP003434-PA [Anopheles gambiae str. PEST] (2e-127) |
GeneOntology terms    | GO:0000793 condensed chromosome GO:0000796 condensin complex GO:0005488 binding GO:0005515 protein binding GO:0005634 nucleus GO:0007049 cell cycle GO:0007067 mitosis GO:0007076 mitotic chromosome condensation GO:0030261 chromosome condensation GO:0042393 histone binding GO:0045120 pronucleus GO:0051301 cell division GO:0000228 nuclear chromosome GO:0005737 cytoplasm |
InterPro families    | IPR011989 Armadillo-like helical IPR016024 Armadillo-type fold |
Orthology group | MCL11765 |
Nucleotide sequence:
ATGAAAAACTTTCAGGTTTTCCTAGAGTGCAACCCATTTTCAGCACAATTGAAATTACAA
CTGTTGGAAGAACAATTGGAAAGCGAGAAGAAGATTTTAGAAGAGCTTCAAAAGAGATTA
AACCCGGGACCGGATCCGGAACTAGAGAAAAAATGGGAGAAAATAGAGAGTGACGTTACT
AAAACGATCAAAGAGAAAATGGATTTGTTGACACAAGACGAGCCCGAGCTGTCTCAGAGC
ACGTTGGAGAATTTGTACGAAGCTATCAGAAAGAGCGTTAAAGCAAAGGACTATTTCAAG
GCTTACTTGATCGTCAAACACACGGAGCGACTGTATCCCGACGCCAAGTTGATGAGGTGT
GATATGGAAAAAAGCGATCAGATCAATTACTTCGTCGCATTGTTGAGAAATATATTCGTA
ATACCAGAGAGACGGCAATCTGTGACTCAGCAGTACGAGAACGAACAGGCTTTGTACAAG
AGATTAGAAGAAAAGGAAAGTATTGTGGCTTTCTTAGAGGAATCTGTGTACTTCAGTCGA
ACTATATCTGACGCTGTGCCGCTAATAAATTCATTGTTGATGTCCAAACAAGCCGGCGAT
GTCAGTGAAGCGATCGACTTCTTCACGACCGCTCATCATTTCAATATAGAATCGGCGAAA
GTAGGGGTCACTAACATGCTCCTGCTCGTATGGTCGCCAGATCAAGTGAGTAGCGTCGAT
AAACGCGAAGCTGTCGAGCGCGCCTACCGTGAGATGTACTTGGAGTGTGAGGCTAAATCA
GAACGCGCGCAGGCTTTTAATGTTGCCAACCGCCTGACGAAACTGGTGTCGCAGCTAGAC
CGCGGGGGGGCGCTAGCGATGCATCATATTGTAGAAAAATGGGTCGCCAAAGGTGACGTC
ACACCCGCTCTCATACAGGTGTTCTGGGAAATGTTCCTGAAGAAAATAAATGGTACCACA
GATATGGACAGCTATGCAGCGTTATCCCTTCTCGTTATGATCGCAAAGGCCAAGCCCTCT
GTTGCGTTGGCTAATTTAGAAGTTATACAGACATACGGGCTGACGGCTGACTACAATTCT
AGGGCTCTGAGCGCCGAATTACTTTTATCTTTGGCCAAAAAGGAGCAGAGGTATCCAGCG
GACCACGCGTTACTGAACTCGTTAATCGAAAGCTTGATCGAGGTTTTCTCTAAATTCAAC
AAGTTTAATTCCTTCGCCGCTAATAGCATAGATCTTATTTACGCTATATGTGATACTCCG
GACAAAGTTTGCACAAAACTCTTGGCAGAAATGTATAGAAGAATGGAGGACGCAGTCGTC
AAAGATAAAGAAAACGAAGACGAAGGCAGTTTCCCGACGGAACTGCTTGCGAGATTCGTC
TTCGTACTTGGACAAGTAGCGCTGCAACAACTTATATATTTAGATATAAGTGTGTACAGT
GAGCTTAGAAGAAGGAATCAGGTGCGCGAGGAACGTAAAGTGGAAGAAAAGCGTAAGAAG
AAGCTAGGCGTGTTCGCTACTCCGGCTAGACGAAGGGTTGACGACCTCAGACGACAGACG
ATCATGAACGCGAGTAACGCCAGCGCCTCCTCCAGGGGACAACGCAGCGCTAGTGTCGCA
TCTAACAAGGGACCTTCGGCGAATACCACACTAACTGAAGAGGAAGGTGTCGAAGGCGCG
GTCGCTGATGACGCGGACGCTGAATACGTCAGAGGAGTGTGTGAGAGAGACATAGTGGGA
GACGGAACTACCCTCGGGCGGTACATACCTCTCATAAAGACTTTGATGACGCACGCTAAA
GCCTCGCACACACTACAGACGGGAGCGGCTCTTACATTTACCAGATACATGTTAGTGTCA
AGTTCATTTTGTGAGGAAGGCCTACAGTTGATGGTCACCGTACTGAAAAGATCCAAGAAT
GTGTCTTTAAGGAAGAATCTTATAATCGCCTTTGCAGATTTAACATTGCGTTTCCCAAAC
CTGACACAACCCTGGACACACCATATATATCACATTTTAAGTGACGAAGAACTAGAAATC
CGTCAGTGCGCTGTCAAGATGCTGTCATTTTTGGTTCTCCACGAGATGGTGCGGGTCAAA
GGTCAGATCGCGGACATGGCACTCTGCTGCGCCGATAAAGACCCTAAGATCGCTTCCATG
ACGAAATTATTCTTCAAACAGTTATCTCAGAAAGGGAACGCCCTGTATAATGTCATGCCC
GATATAATATCGCGTCTCAGCGACCCCGATTTGAATGTACCCGAGGAGCAGTATAGGATT
ATTATGAAATACATAACGTCTCTTATACAAAAGGACAGGCAAATGGAGGCATTGGTTGAA
AAACTATGTCAGAGATTCAAATTTTCGACCGAAGAAAGACAGTGGCGCGATCTAGCGTAT
TGTCTCTCTCTGTTCACATACAATGAGAGGTCGCTGAGGAAACTCATAGAAAACCTTGAC
AACTACAAAGACAAACTACATTGTAAAGCTGTTATGGAGTGTTTCACTATACTCATGAAT
AACACATCAAAAATGGCTAAAAATGAGATAAAGGCGTTAGTAACTGAATTGGGCGACAAA
ATAGAGGAATGTTTCGCTGTGCGTGATAATAATGGGGACGAAGATGATCCAAGAAGCGGC
AGTGACAGTCGAGAGACTCGTGATAAAGACACTGGAACTGACGTGCAACCTAAAGCAACT
CCAAGACGGAAACCAGCGAGAAGGAATAAACGAAAATCATCCTCCAGCCCCGACGAGAAT
GAACCTCCAAATCAAGATACTACAACACAATCAGTAAGAAAATCTAGAAGAAAGGTTGCT
CAAAAAACTAAAACGACTAATGAGTCAGAGGATTCTGATGATGATGATTTCCAAAAGAAA
GAAGTTTTCAAAAAACCCGCCTCTAGAAAAGTAACAAGAAGGAGAATTTGA
Protein sequence:
MKNFQVFLECNPFSAQLKLQLLEEQLESEKKILEELQKRLNPGPDPELEKKWEKIESDVT
KTIKEKMDLLTQDEPELSQSTLENLYEAIRKSVKAKDYFKAYLIVKHTERLYPDAKLMRC
DMEKSDQINYFVALLRNIFVIPERRQSVTQQYENEQALYKRLEEKESIVAFLEESVYFSR
TISDAVPLINSLLMSKQAGDVSEAIDFFTTAHHFNIESAKVGVTNMLLLVWSPDQVSSVD
KREAVERAYREMYLECEAKSERAQAFNVANRLTKLVSQLDRGGALAMHHIVEKWVAKGDV
TPALIQVFWEMFLKKINGTTDMDSYAALSLLVMIAKAKPSVALANLEVIQTYGLTADYNS
RALSAELLLSLAKKEQRYPADHALLNSLIESLIEVFSKFNKFNSFAANSIDLIYAICDTP
DKVCTKLLAEMYRRMEDAVVKDKENEDEGSFPTELLARFVFVLGQVALQQLIYLDISVYS
ELRRRNQVREERKVEEKRKKKLGVFATPARRRVDDLRRQTIMNASNASASSRGQRSASVA
SNKGPSANTTLTEEEGVEGAVADDADAEYVRGVCERDIVGDGTTLGRYIPLIKTLMTHAK
ASHTLQTGAALTFTRYMLVSSSFCEEGLQLMVTVLKRSKNVSLRKNLIIAFADLTLRFPN
LTQPWTHHIYHILSDEELEIRQCAVKMLSFLVLHEMVRVKGQIADMALCCADKDPKIASM
TKLFFKQLSQKGNALYNVMPDIISRLSDPDLNVPEEQYRIIMKYITSLIQKDRQMEALVE
KLCQRFKFSTEERQWRDLAYCLSLFTYNERSLRKLIENLDNYKDKLHCKAVMECFTILMN
NTSKMAKNEIKALVTELGDKIEECFAVRDNNGDEDDPRSGSDSRETRDKDTGTDVQPKAT
PRRKPARRNKRKSSSSPDENEPPNQDTTTQSVRKSRRKVAQKTKTTNESEDSDDDDFQKK
EVFKKPASRKVTRRRI