| New model in OGS2.0 | DPOGS213649 |
|---|---|
| Genomic Position | scaffold543:+ 113296-121376 |
| See gene structure | |
| CDS Length | 2994 |
| Paired RNAseq reads | 5394 |
| Single RNAseq reads | 13258 |
| Migratory profiles | Query via corresponding ESTs |
| Best Bmobyx hit | BGIBMGA004568 (0.0) |
| Best Drosophila hit | CG10600, isoform B (1e-145) |
| Best Human hit | round spermatid basic protein 1-like protein (2e-117) |
| Best NR hit (blastp) | PREDICTED: similar to ENSANGP00000023698 [Nasonia vitripennis] (4e-165) |
| Best NR hit (blastx) | PREDICTED: similar to ENSANGP00000023698 [Nasonia vitripennis] (2e-156) |
| GeneOntology terms | GO:0005634 nucleus GO:0005515 protein binding |
| InterPro families | ND |
| Orthology group | MCL18528 |
Nucleotide sequence:
ATGGCGTCTAATGATTCCCACGTAAAAGTTAATGAAAATTGTGATATCTTGGACGATTGC
TACAGTTCATGCAGCGAAACAGATGCCGGTGAAGGTACCAAGCGCCGTAGAGTGACTCAT
GACTATCGAAAACTTTCGAAATTGGGACATGATCCAAGTGTGTCAACTAATTTAAAACAT
GCAACTACTGTTTTCAAAGATCGAAAGCGTAAAGGCAGTACAGATTCCAAGGAGTTGGCA
GTGTGGGGTGAGAATGCACGACCAGCCAAATGCAGCAAGATATGGCCAGTGTTTGACTCC
GGAGGGTTCGGAGATGCTTCAATGTTAACTCTCCACATTGTGCAGAAATCGAGGCCATTA
AAGAATCCGCTGTTGTTTAGTAATAACAGTCTGGGTATAGACCTCGATAACATTCGATTA
GATTGGTTCGGTGGCATCAATACTTCAAAGAAACAAATGCATCTCTCAAACACCATTCCC
AGGGACGATCTCACTAAACGCATATACTCTTCGGTGTCGAAGCAGCTCAGGATAATAAAC
ACGCATCTACAGAGATCCATGTTCAGATACAAGTATCCCAAAGTAACGAGAGCTAATGTT
CTGTTGGAGTCCTCTACTTCCAGACGTCTGTCGACACACTTCAGTTTGTCACTGAGAGCT
ATAAAGTTCCAGTCCACGCCCAGGAGGCAGCTGCCGTGCTACGGGAACCTGGAGCTACCT
CTGAAGATGAAGCAAGAGATATCCACACAGTTCTATCCAGTGATCAGTAGGAGCTTACAC
ACGGAGAGTGACCATAGTGATATTAAAGTGAAAGTTGAAAGGGAACTTGTTAAATATGAA
GAAGAGAAGGAGAAGAAGAAAGGAGACAGAGAGAGGGAGAGGGAGAGAGACAGAGATAGA
TCGCATTCATCTCGTCACTCGTGTCAGCAGTGCAAGCGTCGCGCCAAGGTGAAGAGGTGT
TCCATAGGAGTCCAGTGCAGGAGGGAGCGCGCGCCGCCGCTGTGGGGTCCGCGGGCACAC
AGCCTGCAGCTCAAGGAACTCAAGTATCACAGACTGATGCGTGTGGAGACCCATCCTAAC
GGCGGCGCCAGTGTAGTGTACCTTTACCAGCACGACGTGGACATGTTGAGTGCAATACAG
CAGGAGGAGCTGGCCAAGGAATTCTTGAAGCTGGTGTTCTCGGAGGACAGCGAGGGCTGG
GCTAACTACGTGTGTGGTGTAGTGCGAGGTGCCGCGGGCAGGCTGCCGTGTCTTCTGCAG
TACCTCGCGGAGACCTACCCCACGCTCACCGTGAAGGCCGGAGTCCTCGCCAGAGCCTCG
GACATAGAGACCACCACCATCAGCAGATACTACCAACAGGTGCAGCAGTCGTACCTGGCG
GGCACATTCAGGTCTGGACCTCTCCATCAGATATCATTAGTGGGGACGGTGCATGAAGAA
GTCGGGGGGTACTTCCCGGACATGCTGGACATGTTGACGGATTGCCCCTTCCTTAAACTG
ACGATGCCGTGGGGCCCGATGTCCGCGGTGGAGATGGAGCCGCAGGAGTCCAACGACGGA
CCCATACTGTGGATCAGGCCGGGGGAGCAGCTCGTGCCCACGGCGGAGCTAGGAAAGAGT
CCCATTAAGAAGAGACGAACCGGCATGAACGAGCTCCGGAACCTGCAGTACCTGCCGCGG
TGGAACGAGGCCCGGGAGTTCCTGTTCGAGGACAGGACGCGGGCGCACGCCGACCACGTA
GGACACGGACTCGACAGGATCACTACGGCAGCCGTCGGCGTGTTGAAGGCGGTGCAGTGC
GGAGACTGTGAGCGCGGCCGCATCACCAAGGACGTGGTGGCCTTCCACGCGGCGGACTTT
AACAAGCTGGTGCAGCTGCTGCAGCTGGACCTGTACGAGCCTCCCATCTCACAGTGCGTC
ACATGGCTAGAAGAGGCAAAGCTCAACCAACTGCGGAGAGAGGGAGTTCGTTATTCGCGC
CTCCCTCTGTGCTCTGATGACGTTTACTTCCTGCCTCGGAACATCATCCATCAGTTCAGG
ACCGTGTCCGCTGTGACGTCCATCGCCTGGCATCTCCGTCTGAAGCAGTACTACCCCGGC
TCCGAGGCGTCTTCTCCGGCCGACGAGCGAGCCGCGCCCGCCACGCCCAGGGACGACCTC
GCGGAAAATAAATCAACGAAACATAAAAGCGGGGTCATAGAGATGAGGGCGCTGAGTGCC
AAGTTCAAAGAGAAGGCGGCTTTGAAGATAACGGAGAGCAGGAAGAGCTTAGACGATCAG
AGTAAAGATAGACAGACGAGCAGGGCAGAAGACAAGAAGGAGAGACGGACAGAGAAACAT
TATAGAACAGAGAAGATAGAGAAAGGCGAGAAACACTCCCACAGGCATAGAGACGCTGAG
AAACATAGAGCCGAGAGGTCGGATAGGACGTCCGATAAACAAGACGTGAGAACGTTGGAT
AAAGAAAATAAAGTTGACAAGGCTGATAGAAGTGACAAAGGAGAGCGGCCGGAGAGAGAC
AAGACGGATGCGAAGGTCACAGAGAGGAGTGAACGTGCTGAGAAAAGTGACAAGTCGGAT
AAGTTGGACGGAAAGAGTGAGAGGACAGACAAGGTCGAGACGAGAACTGAGAGAACGGAT
AAAGAAGAAGCGAAACCTGAAACGTCCGAGAAACTTGAAGTGAAATTCGAAAAATTTGAA
GTGAAATCCGAAAAATCCGACAGAACAGAGAAGCCCGAGCAGAGGACGGAAAAGACAGAA
ACCAGGACAGAGAAAGAGAACAGGACGGACAAAGACGAGCGATCCAACAAGTCGCACGCC
CACAGGAAACACTCCTCGAGACACAGATCGTCACATCACAAGGACAGGTCGAGCGACAGG
AGAGAGCACAGGAGACACAGGGCGGGCGACAAGAAACAAGAGAGGCACGCGGAGAAGAGT
GACAAGCTGGACTGTGACAAGTTACCCAGGGTCGTGCACCGCTCACCCGACTAG
Protein sequence:
MASNDSHVKVNENCDILDDCYSSCSETDAGEGTKRRRVTHDYRKLSKLGHDPSVSTNLKH
ATTVFKDRKRKGSTDSKELAVWGENARPAKCSKIWPVFDSGGFGDASMLTLHIVQKSRPL
KNPLLFSNNSLGIDLDNIRLDWFGGINTSKKQMHLSNTIPRDDLTKRIYSSVSKQLRIIN
THLQRSMFRYKYPKVTRANVLLESSTSRRLSTHFSLSLRAIKFQSTPRRQLPCYGNLELP
LKMKQEISTQFYPVISRSLHTESDHSDIKVKVERELVKYEEEKEKKKGDRERERERDRDR
SHSSRHSCQQCKRRAKVKRCSIGVQCRRERAPPLWGPRAHSLQLKELKYHRLMRVETHPN
GGASVVYLYQHDVDMLSAIQQEELAKEFLKLVFSEDSEGWANYVCGVVRGAAGRLPCLLQ
YLAETYPTLTVKAGVLARASDIETTTISRYYQQVQQSYLAGTFRSGPLHQISLVGTVHEE
VGGYFPDMLDMLTDCPFLKLTMPWGPMSAVEMEPQESNDGPILWIRPGEQLVPTAELGKS
PIKKRRTGMNELRNLQYLPRWNEAREFLFEDRTRAHADHVGHGLDRITTAAVGVLKAVQC
GDCERGRITKDVVAFHAADFNKLVQLLQLDLYEPPISQCVTWLEEAKLNQLRREGVRYSR
LPLCSDDVYFLPRNIIHQFRTVSAVTSIAWHLRLKQYYPGSEASSPADERAAPATPRDDL
AENKSTKHKSGVIEMRALSAKFKEKAALKITESRKSLDDQSKDRQTSRAEDKKERRTEKH
YRTEKIEKGEKHSHRHRDAEKHRAERSDRTSDKQDVRTLDKENKVDKADRSDKGERPERD
KTDAKVTERSERAEKSDKSDKLDGKSERTDKVETRTERTDKEEAKPETSEKLEVKFEKFE
VKSEKSDRTEKPEQRTEKTETRTEKENRTDKDERSNKSHAHRKHSSRHRSSHHKDRSSDR
REHRRHRAGDKKQERHAEKSDKLDCDKLPRVVHRSPD