| Genomic Position | scaffold2833:- 901-8461 |
|---|---|
| See gene structure | |
| CDS Length | 3465 |
| Paired RNAseq reads | 4314 |
| Single RNAseq reads | 11635 |
| Migratory profiles | Query via corresponding ESTs |
| Best Bmobyx hit | BGIBMGA013779 (4e-07) |
| Best Drosophila hit | CG14692 (1e-08) |
| Best Human hit | ND |
| Best NR hit (blastp) | SRP [Trichomonas vaginalis G3] (1e-46) |
| Best NR hit (blastx) | PREDICTED: hypothetical protein, partial [Strongylocentrotus purpuratus] (2e-87) |
| GeneOntology terms | GO:0007165 signal transduction GO:0008603 cAMP-dependent protein kinase regulator activity GO:0032027 myosin light chain binding |
| InterPro families | ND |
| Orthology group | MCL23896 |
Nucleotide sequence:
ATGTGCCTGCATCGTGGTAATCGCTCCGTCCATAAACCACGTACAGATTTGACCCGGTTA
TTTTGTTATCTCAGATATATTTCGACGGTTACATCCCTCGAAGGTGGTGGTGGATTTGAA
CATAAAAGCACGCAACAAGCTAGCTTAGTACAGTGTGCCTCCGATAGCACTACACACACG
CTGGTCCAGGAGGAAATTATCCAGATCAAGGTGGGAAGTATCCCGGCAAGGGTGGTAGCT
ACCCAGGCCAAGGTGGTAATTACCCCGGGCAAGGTAGCAACTACCCTGGACAAGGTGGTA
ACTATCCTGGGCAGGGTGGAAACTTACCAGGACAAGGTGGCAACTACCCTGGACAAGGAA
GCAACTACCCTGGACAAGGTGGTAACTATCCTGGGCAGGGTGGAAACTTACCAGGACAAG
GTGGCAACTACCCTGGACAAGGAAGCAACTACCCTGGACAAGGTGGTAACTATCCTGGGC
AGGGTGGAAACTTACCAGGACAAGGTGGCAACTACCCTGGACAAGGAAGCAACTACCCTG
GACAAGGTGGTAACTATCCTGGGCAGGGTGGAAACTTACCAGGACAAGGTGGCAACTACC
CTGGACAAGGAAGCAACTACCCTGGACAAGGTGGTAACTATCCTGGGCAGGGTGGAAACT
TACCAGGACAAGGTGGCAACTACCCTGGACAAGGAAGCAACTACCCTGGACAAGGTGGTA
ACTATCCTGGGCAGGGTGGAAACTTACCAGGACAAGGTGGCAACTACCCTGGACAAGGAA
GCAACTACCCTGGACAAGGTGGTAACTATCCTGGGCAGGGTGGAAACTTACCAGGACAAG
GTGGCAACTACCCTGGACAAGGAAGCAACTACCCTGGACAAGGTGGTAACTATCCTGGGC
AGGGTGGAAACTTACCAGGACAAGGTGGCAACTACCCTGGACAAGGAAGCAACTACCCTG
GACAAGGTGGTAACTATCCTGGGCAGGGTGGAAACTTACCAGGACAAGGTGGCAACTACC
CTGGACAAGGAAGCAACTACCCTGGACAAGGTGGTAACTATCCTGGGCAGGGTGGAAACT
TACCAGGACAAGGTGGCAACTACCCTGGACAAGGAAGCAACTACCCTGGACAAGGTGGTA
ACTATCCTGGGCAGGGTGGAAACTTACCAGGACAAGGTGGCAACTACCCTGGACAAGGAA
GCAACTACCCTGGACAAGGTGGTAACTATCCTGGGCAGGGTGGAAACTTACCAGGACAAG
GTGGCAACTACCCTGGACAAGGAAGCAACTACCCTGGACAAGGTGGTAACTATCCTGGGC
AGGGTGGAAACTTACCAGGACAAGGTGGCAACTACCCTGGACAAGGAAGCAACTACCCTG
GACAAGGTGGTAACTATCCTGGGCAGGGTGGAAACTTACCAGGACAAGGTGGCAACTACC
CTGGACAAGGAAGCAACTACCCTGGACAAGGTGGTAACTATCCTGGGCAGGGTGGAAACT
TACCAGGACAAGGTGGCAACTACCCTGGACAAGGAAGCAACTACCCTGGACAAGGTGGTA
ACTATCCTGGGCAGGGTGGAAACTTACCAGGACAAGGTGGCAACTACCCTGGACAAGGAA
GCAACTACCCTGGACAAGGTGGTAACTATCCTGGGCAGGGTGGAAACTTACCAGGACAAG
GTGGCAACTACCCTGGACAAGGAAGCAACTACCCTGGACAAGGTGGTAACTATCCTGGGC
AGGGTGGAAACTTACCAGGACAAGGTGGCAACTACCCTGGACAAGGAAGCAACTACCCTG
GACAAGGTGGTAACTATCCTGGGCAGGGTGGAAACTTACCAGGACAAGGTGGCAACTACC
CTGGACAAGGAAGCAACTACCCTGGACAAGGTGGTAACTATCCTGGGCAGGGTGGAAACT
TACCAGGACAAGGTGGCAACTACCCTGGACAAGGAAGCAACTACCCTGGACAAGGTGGTA
ACTATCCTGGGCAGGGTGGAAACTTACCAGGACAAGGTGGCAACTACCCTGGACAAGGAA
GCAACTACCCTGGACAAGGTGGTAACTATCCTGGGCAGGGTGGAAACTTACCAGGACAAG
GTGGCAACTACCCTGGACAAGGAAGCAACTACCCTGGACAAGGTGGTAACTATCCTGGGC
AGGGTGGAAACTTACCAGGACAAGGTGGCAACTACCCTGGACAAGGAAGCAACTACCCTG
GACAAGGTGGTAACTATCCTGGGCAGGGTGGAAACTTACCAGGACAAGGTGGCAACTACC
CTGGACAAGGAAGCAACTACCCTGGACAAGGTGGTAACTATCCTGGGCAGGGTGGAAACT
TACCAGGACAAGGTGGCAACTACCCTGGACAAGGAAGCAACTACCCTGGACAAGGTGGTA
ACTATCCTGGGCAGGGTGGAAACTTACCAGGACAAGGTGGCAACTACCCTGGACAAGGAA
GCAACTACCCTGGACAAGGTGGTAACTATCCTGGGCAGGGTGGAAACTTACCAGGACAAG
GTGGCAACTACCCTGGACAAGGAAGCAACTACCCTGGACAAGGTGGTAACTATCCTGGGC
AGGGTGGAAACTTACCAGGACAAGGTGGCAACTACCCTGGACAAGGAAGCAACTACCCTG
GACAAGGTGGTAACTATCCTGGGCAGGGTGGAAACTTACCAGGACAAGGTGGCAACTACC
CTGGACAAGGAAGCAACTACCCTGGACAAGGTGGTAACTATCCTGGGCAGGGTGGAAACT
TACCAGGACAAGGTGGCAACTACCCTGGACAAGGAAGCAACTACCCTGGACAAGGTGGTA
ACTATCCTGGGCAGGGTGGAAACTTACCAGGACAAGGTGGCAACTACCCTGGACAAGGAA
GCAACTACCCTGGACAAGGTGGTAACTATCCTGGGCAGGGTGGAAACTTACCAGGACAAG
GTGGCAACTACCCTGGACAAGGAAGCAACTACCCTGGACAAGGTGGTAACTATCCTGGGC
AGGGTGGAAACTTACCAGGACAAGGTGGCAACTAAAAAAAAAACAAAAATAAAATATAAA
CTTATACGATATGTTAATTTTTTTATGCTATGGCTTCATTCGTTCTGTTCAGGATTGTTA
AATACATATAAAAAAATAAATTATTGCTTGTATAGATTAATACTGATATATCTAGACTTA
CCCTGTTTGGTTTCTTTCTTTACAGTAATTGTATACGGGCAATTGAATTTGGAGCATGCC
AGAACTAACAAGCTATCAAAGTTGTCTGTGAACTCTTCAGCTTTCCTTTCTTCCACCATA
GACTTGGTTGACCGTATGGACCTTAAGGAACGAACACTTCTCGCTGATTTCATGTTTTAT
CAAAATATATATTATCAAAAAAAAACTAACAAAAATGCAATAATAAATTTATCTAAATTA
AAATACACAAGAAACACATCATCAATGTTTATTCTAAAAAAATGA
Protein sequence:
MCLHRGNRSVHKPRTDLTRLFCYLRYISTVTSLEGGGGFEHKSTQQASLVQCASDSTTHT
LVQEEIIQIKVGSIPARVVATQAKVVITPGKVATTLDKVVTILGRVETYQDKVATTLDKE
ATTLDKVVTILGRVETYQDKVATTLDKEATTLDKVVTILGRVETYQDKVATTLDKEATTL
DKVVTILGRVETYQDKVATTLDKEATTLDKVVTILGRVETYQDKVATTLDKEATTLDKVV
TILGRVETYQDKVATTLDKEATTLDKVVTILGRVETYQDKVATTLDKEATTLDKVVTILG
RVETYQDKVATTLDKEATTLDKVVTILGRVETYQDKVATTLDKEATTLDKVVTILGRVET
YQDKVATTLDKEATTLDKVVTILGRVETYQDKVATTLDKEATTLDKVVTILGRVETYQDK
VATTLDKEATTLDKVVTILGRVETYQDKVATTLDKEATTLDKVVTILGRVETYQDKVATT
LDKEATTLDKVVTILGRVETYQDKVATTLDKEATTLDKVVTILGRVETYQDKVATTLDKE
ATTLDKVVTILGRVETYQDKVATTLDKEATTLDKVVTILGRVETYQDKVATTLDKEATTL
DKVVTILGRVETYQDKVATTLDKEATTLDKVVTILGRVETYQDKVATTLDKEATTLDKVV
TILGRVETYQDKVATTLDKEATTLDKVVTILGRVETYQDKVATTLDKEATTLDKVVTILG
RVETYQDKVATTLDKEATTLDKVVTILGRVETYQDKVATTLDKEATTLDKVVTILGRVET
YQDKVATTLDKEATTLDKVVTILGRVETYQDKVATTLDKEATTLDKVVTILGRVETYQDK
VATTLDKEATTLDKVVTILGRVETYQDKVATTLDKEATTLDKVVTILGRVETYQDKVATT
LDKEATTLDKVVTILGRVETYQDKVATTLDKEATTLDKVVTILGRVETYQDKVATTLDKE
ATTLDKVVTILGRVETYQDKVATTLDKEATTLDKVVTILGRVETYQDKVATKKKTKIKYK
LIRYVNFFMLWLHSFCSGLLNTYKKINYCLYRLILIYLDLPCLVSFFTVIVYGQLNLEHA
RTNKLSKLSVNSSAFLSSTIDLVDRMDLKERTLLADFMFYQNIYYQKKTNKNAIINLSKL
KYTRNTSSMFILKK