| New model in OGS2.0 | DPOGS204704 |
|---|---|
| Genomic Position | scaffold2382:- 4619-10042 |
| See gene structure | |
| CDS Length | 5352 |
| Paired RNAseq reads | 125 |
| Single RNAseq reads | 306 |
| Migratory profiles | Query via corresponding ESTs |
| Best Bmobyx hit | BGIBMGA007483 (0.0) |
| Best Drosophila hit | ND |
| Best Human hit | sperm flagellar protein 2 isoform 1 (3e-24) |
| Best NR hit (blastp) | hypothetical protein Phum_PHUM496580 [Pediculus humanus corporis] (2e-130) |
| Best NR hit (blastx) | hypothetical protein Phum_PHUM496580 [Pediculus humanus corporis] (6e-143) |
| GeneOntology terms | GO:0019205 nucleobase, nucleoside, nucleotide kinase activity GO:0046983 protein dimerization activity GO:0006139 nucleobase, nucleoside, nucleotide and nucleic acid metabolic process GO:0005524 ATP binding |
| InterPro families | ND |
| Orthology group | MCL18032 |
Nucleotide sequence:
ATGGCAGAGATTTTAAAGGAGTGGCTGTCAAAAAGATTACAACGTCCTATAAAATGGGAA
GCTGAAGAATTTGGGGACATCATGAAGAATGGATATATAATATCCTGTGTACTGAGAAGT
TACTATGTTATCGACGACGAGAAACATTACCTGATGAGATCTAGCAATTTAAAGGAAGAT
ATAACAAGCAATTGGAAACTTTTGAGGGAATGGTTACGAGGTATCGAAATAAATTTGAGT
GACACAGATTTAACTAATATTATGAATGGAAAAGGTTCAGCACTACTTCGTTTATTCTAT
CAACTGTTCCTTCATTTGGATAAACGAGATAGGATAAATTTTATCAAAGAAGAAAGGAAA
AAAGCATCTGCCTTAGTAGAAAAGTTGGATCATCGATTCACAGTCAATAAAGTGGATGAA
GAGCGGCCATCAGTTGTTGATGACCTTTCGAAACCGCTTCTAGATCAAAGACAATTTATT
GACTGGCAGAGAAAGAAGGCCAAGGAAGTACAAGAAATTTACGATTTTATAAGACACAAA
TACTCCAAGATGCTTTCAAGAATAGATGAATCTAAAACTCCCTTTCAGAACCCCCCAGTT
AAGCCGAAAAAAAAACCGAATAAAGACAAAAAGGAAATGGATAAATTTGAAAAAAGATAT
CCTTGTGAATTTCATAACTACACTTATGAGGAATTATTAAACTTAGAAGAAAAGGCGCTT
GAAAAAAAAAATTCACTTATAGATACAGAATGGGCTAAAAACTATATGGACAACTTATTT
ACGCGAATGCATAACAAATCGGATTCAGAAGAGTTCCAGAAGCAATTGAGAAACGTTTTG
AGCGGCTCATTATGGGACCTTTCAGTTGCTGAAGAAGAATCAAAATTAGATACCGATCTT
GCAAAAACAGTTATGAAACTGTCACAATTTGAAAAGCAAATGTGTACTCAAATAATGGAG
ACTAAACAACAGGCCCGAAACTTAGTAAAGAATAGAATATTAGGTGAAGTCGAATTCGCT
GATCAAAGAACACAACAATTTAACCAGTTTCTAGATAACGTTAAAGAAGAAATTAATTTG
GGTGTAGCTGAAATAGATTTTGAAAAACGGAGGCAAGATATGTTACATCAAAGACTATAT
GCTGAGAAAATGAAAAGGAAAAGGCAACATTACTATGACATATGTTACGATACTATGCTG
TCCATTGTAGATTATGCTACGAAGTACGCTTACTTTAAAAAACTATTAGGAGATGAAATA
CCGGATCATTTTATTCACGAGTGGAAAATTCTGTATTTCAAGAAACAACCTATCTTCGAT
TTGCTTAGTCCCATGGAAGAAATTTTAAAAGATGTAGAATTTGAAGCCGAGAAAACTCCT
GATGAGGAAGAAATAATACGTTTAGAGTTAGATAGACAAGAGGCTTTAAATGAAGAGGAA
TTTATAGAATATCACAATTACTTACCACCATGGAAATTAGAATTGTTAATACCAAACTAT
GATAGTGAATGTGAAGATAGAAAATATGAATATTTGGGGTCAAGGATTCTAGGACATTTA
ATCTATACTTTACTCGAAATAAAGTACCCTTATCCACCACAAAGACCACCAGCTGAGTTA
CCAAATTTTTTTGCAAAAGCCATTTTACGGGGGCTCCCTGATAGATCTATAACAGTTGCT
ATGCAGATATTATTAAATACTCAAAAAATACACGTAGTTCGATTGGAATCGGCTATAAAC
TTCTGTTTAAGAAAGTTCAAAGTTGAGATGATTGGTTGCACTGACATAGAACTGTCATTT
GATAAATTTATCGCCGCTGCTCAGGAGGAAGAGACAAGGGAATTGATAAAATTGGTGAAA
GCTGAAGATGAAATCATATGCAAAAGTAGCGAAACCAACTCTTTATTATTGCTTGGACCT
ACACCAGCCAATACGAAGCAGACCCAAACACCAAAAACTATACCAGAAGAAGACATAACT
TTGTCAACTGCAGCAGAACTTGGTAGATATGCGTACGAATCATTAAATTTTGGCGATACG
CTTACAGATCACTTACTTTCAGCCATGATTGTTGAGTACATAAAAGATCAAGAGGATATT
AATGGATTTGTTATAATAAATTATCCAAATTCTTATCGTGAAGCACAAATTTTAGAGGAA
ACTTTTTCTGGTCGTCCACCACCAGATGAAGGTGAATTGGACGACAGAGATGATATTTAT
CTGGAAGAAAGTATTAGTAAACATAGGAAAAAGGAGAAAGACCCCTTCAAAGATATTAGA
ATTTCAAGACTAGTTAATGATCCTCACAAAAAAAGACTTGACAACCCGTTTACTAGTTAT
TTCACATGTTATCTTAATTTGAAAGAAACAGAAAACATCTTACATGAAATATTTATCTGG
AATTTGGCTGAAGATAATTCTGAGTTAATAGATAGATTTTATGCTGCTCTAGGTATCAAT
TACAGCATGTATTATGAGGTGATAGAGAAAGACCAGCTGGCTTTGATATGCAAATATATA
ATTGGAGATTTTACTATGCCTCTCAAGTCTTACGACAATTTGTTTGGAGACAATGTTTTA
AGCGTTTTAGAATTTCCTACTTCAGAAGACAAAAGAACAAAATCAAAAGTTGTGAAACCA
GAAACATCCAATGGCAAATCTAAAGAAAGATTACGACGAAGTTCTAAATTAAGTAAAATA
TCTTTTACTAATGATTTGGAAGTAGTGAAAGCCCCAGAGTCTTTAGAGGAGGTTCATGAT
GATATAACACGTATAGAAATAATCGAAGAAGAAGAATTTCACAGTAAAACATCGTCAGGT
GTCTTTAGTGTGGAAGAAATCAAATTGTTAGCGGGAGAAGAAGATTGGGATTATGGTGAA
TTACCTATACCAGAAATAATAGGAGTGGCGTTAGCCACATGTTGGGAAGTCATAGAAAAG
TCCTATATTAACGACATAAAGCAATTATTATTCGGAAAAAGATTGCAAATGAACTGTCTT
GTTCCATATACAAGGTTCATAAAGGATAAAATGGAACAAATTATAACGCTACCATCAAAA
AAGCAAGATTTAATCAGCGATTTCCAAAAAGAATATAATGATTTTGAAAACGATTGGCGC
GATGTACATTCAACTAAAAATGAATGGCATTGCAGGATTAAAGATTTGCAACACCATCTA
TACCGAATATGTGACGAAAGAAAGTTACATGCTGAACAACAACGAAAATCACTTATTTGT
GAAAATTGGGCTATGGAGGAATTGACCTCTATGGTCAATACCTACATATCTTGTATGCAA
GCTGAATTAAACAGATCTATTTTAACGTATCAAGCGTTGCATGATTTCTACTTCACAATG
ATAAAACGTTCTCCACCAAATGACAGATTGTCATCTAAAGAATTAACAAAACTTTTAAAG
GAAAGTGACGAAAGCTCTGGAAACAGAAAAGGTGGTGAAGATAAAGTGTTCAGACAACTC
AAATCTGCATTCCTAGACTTGCAACTACGAAATATAGAAATTGATTATACTAACAACCCC
TTTAATACTATTATTGACAATAATATAAAATTTGCTCTTAAAATAATTAAAGACACCAAC
GATAACTATAGGTCCATTATAAGTCGTGAGTATAGTGAAATAGCTAAAATTGTTCCAACT
GCAAAGAAAAAGGATGAAAGCACATCTGAAGATTCAATACATACTGAAATGAATTTTAAA
GACAACGCTTTGAAGTGCATTGAAGAATGGACTATGGGAATAAATGGGGAAATGTTCAGA
GCGGATTTACGACTGCTCGCAATACAGTATATGTGCTATAAAGATATGAAATTGTTTAAT
GATCAAGTTTATAGAACCTTTACGGAAATTCAAGAATTTATAAACAGCTACTACTTAAAT
GAGATAAAGTCAGTGGATCGGCTATGCAAATATTTACAAATGGCAGTAGAAGACGGCAAA
AAGGTTCCCGAAACGCTTATTCTAGAACAAGACACTTTTATAATAGATCCTAATCTAATT
CAATTTTCTGAGCCAGAACCAGAAAGAGATACTGGAATTTTAAAGGAATTCGTGAATGAA
ACAGAGTTTAAAGTTGCGCAGCTAGCAAGATTACGAACTCAATTCAAAATTGTGGCTCCG
AAGGGAATAATTTTATTACAAGCTTTTATATATTTGATACAGGACTTTATATTCTTCGGA
AAAGAATCATGTGAAGGTCCCATTTTTCCGGATGCATGGAAACAGGTGAATCCAGAGCAA
ATTCCAAAATTAGTGTATACCATGTTTGGTGATACAGTTTATGTCGATTGGCGGGATTTT
CTTATTTACTGTCTTAACATTAGATTTCCTACAATAGATGAATTATTGATACTGCGAAAA
ACCTTTCGCTGTATTGATCTTGAGTCAACAGAGACAATTTCTAGGCAAGATTTCGTATCT
GAGAAACTTTGGTTCGAAGACGATTTTGATTTAGAAGATTCTCAAGCTGTATTGCGAATC
AACTTGATCAAACATTTCTTATTTGAGCTTTATGAAATTGCTGAGGATGTTATGAATTAT
TCTGCATTCCTGCTAGCACTTTGTAAAAGTTCAGATCCTGTTGAGGGATTTGCTATGGCT
TTATCTATGGCTGTTGGCAAAAAGGTTTGCTATTTGATGGAAGAATGCCATGAAGTTGTA
TGTAAGCTGATCAAGGAAAAGAAATATCGAGATGAATGCTACACCTGTGCTCTCAAATGT
ACTAACCAATTCTTGGATAAGGTTATTGCGAATGTGATTAGCACTTGTGAAGGTACCACT
ATTATAGAATTAGAGTATTCAGAACCACTACCGGAGACCGATAAGAAAGGAAGAAAAGGT
AAAGGTCAAAAAGCTAAAAAGATTGAAAGCACTCTCAGTGCTAGGTTACCAAAACTGCAA
AAAAGTGGCATCAGTCGTAGTAAGATCACGCAATCTGCAATTAACGTGAAAACTACTTTT
ATTTGTCCGCCGTGTGAAGAAGACACTGAAATTACTGAGGAGAAGCCTCCGGAGAAAGAA
GAAGTGGAAGAAGAACAAAAATATGAACCGCAGGTAGATGTGAATTTAGCTTATACTATT
AGTCAAGCTGCTTTGTGGAACGTGTTAAAAATTTGCCTGCCGTGGCATTTTGAGTTAATA
CCAGAAGTAAAAGTTACTCCATATCTTGAACAAGTGAATGCAGTGATAAAGGAATTAGAA
GTTTACACAGATAATAAAGATATATATGTATGCAAGTTTGTAAAAGATCCAAACGTTTGT
ACCATTATACACAAATCCAAAAAATTTGAAGCTCTTAATCTAGCGCAAGAAATTAGGAAA
ATCATTATGTAA
Protein sequence:
MAEILKEWLSKRLQRPIKWEAEEFGDIMKNGYIISCVLRSYYVIDDEKHYLMRSSNLKED
ITSNWKLLREWLRGIEINLSDTDLTNIMNGKGSALLRLFYQLFLHLDKRDRINFIKEERK
KASALVEKLDHRFTVNKVDEERPSVVDDLSKPLLDQRQFIDWQRKKAKEVQEIYDFIRHK
YSKMLSRIDESKTPFQNPPVKPKKKPNKDKKEMDKFEKRYPCEFHNYTYEELLNLEEKAL
EKKNSLIDTEWAKNYMDNLFTRMHNKSDSEEFQKQLRNVLSGSLWDLSVAEEESKLDTDL
AKTVMKLSQFEKQMCTQIMETKQQARNLVKNRILGEVEFADQRTQQFNQFLDNVKEEINL
GVAEIDFEKRRQDMLHQRLYAEKMKRKRQHYYDICYDTMLSIVDYATKYAYFKKLLGDEI
PDHFIHEWKILYFKKQPIFDLLSPMEEILKDVEFEAEKTPDEEEIIRLELDRQEALNEEE
FIEYHNYLPPWKLELLIPNYDSECEDRKYEYLGSRILGHLIYTLLEIKYPYPPQRPPAEL
PNFFAKAILRGLPDRSITVAMQILLNTQKIHVVRLESAINFCLRKFKVEMIGCTDIELSF
DKFIAAAQEEETRELIKLVKAEDEIICKSSETNSLLLLGPTPANTKQTQTPKTIPEEDIT
LSTAAELGRYAYESLNFGDTLTDHLLSAMIVEYIKDQEDINGFVIINYPNSYREAQILEE
TFSGRPPPDEGELDDRDDIYLEESISKHRKKEKDPFKDIRISRLVNDPHKKRLDNPFTSY
FTCYLNLKETENILHEIFIWNLAEDNSELIDRFYAALGINYSMYYEVIEKDQLALICKYI
IGDFTMPLKSYDNLFGDNVLSVLEFPTSEDKRTKSKVVKPETSNGKSKERLRRSSKLSKI
SFTNDLEVVKAPESLEEVHDDITRIEIIEEEEFHSKTSSGVFSVEEIKLLAGEEDWDYGE
LPIPEIIGVALATCWEVIEKSYINDIKQLLFGKRLQMNCLVPYTRFIKDKMEQIITLPSK
KQDLISDFQKEYNDFENDWRDVHSTKNEWHCRIKDLQHHLYRICDERKLHAEQQRKSLIC
ENWAMEELTSMVNTYISCMQAELNRSILTYQALHDFYFTMIKRSPPNDRLSSKELTKLLK
ESDESSGNRKGGEDKVFRQLKSAFLDLQLRNIEIDYTNNPFNTIIDNNIKFALKIIKDTN
DNYRSIISREYSEIAKIVPTAKKKDESTSEDSIHTEMNFKDNALKCIEEWTMGINGEMFR
ADLRLLAIQYMCYKDMKLFNDQVYRTFTEIQEFINSYYLNEIKSVDRLCKYLQMAVEDGK
KVPETLILEQDTFIIDPNLIQFSEPEPERDTGILKEFVNETEFKVAQLARLRTQFKIVAP
KGIILLQAFIYLIQDFIFFGKESCEGPIFPDAWKQVNPEQIPKLVYTMFGDTVYVDWRDF
LIYCLNIRFPTIDELLILRKTFRCIDLESTETISRQDFVSEKLWFEDDFDLEDSQAVLRI
NLIKHFLFELYEIAEDVMNYSAFLLALCKSSDPVEGFAMALSMAVGKKVCYLMEECHEVV
CKLIKEKKYRDECYTCALKCTNQFLDKVIANVISTCEGTTIIELEYSEPLPETDKKGRKG
KGQKAKKIESTLSARLPKLQKSGISRSKITQSAINVKTTFICPPCEEDTEITEEKPPEKE
EVEEEQKYEPQVDVNLAYTISQAALWNVLKICLPWHFELIPEVKVTPYLEQVNAVIKELE
VYTDNKDIYVCKFVKDPNVCTIIHKSKKFEALNLAQEIRKIIM