KAIKObase gene description page [BMgn007769/Gene08928]

Outline

Official gene ID BMgn007769
Local gene ID Gene08928
Chromosome chr15
Start (Chr.) 9812337
End (Chr.) 9871438
Scaffold Bm_scaf3
Start (Scaf.) 82826
End (Scaf.) 141927
Direction +

Member sequences

ID Type Representative
AK384320 full-length cDNA Yes
BGIBMGA007769 predicted gene No

Representative sequence

Nucleotide

 TAAATGAATTGAGTCTGTGAACGTACAAATGCAGTGCAGTCGTTCGTGATTAAAATTGAAATTTGATTTTTACTGAAATTTGTAAAATAATCTAGTTAACTTAGTTATATCTCAAACAAAACTAGAATTTACTTTGATTTTTTAATCATATTAACTATTTTTGGAATTGCAGTATATTCTGATTCGTGTCCCGTCAAATTTTTTTGGGATTTCTGAAATCAAAGTGACAAAGTGGGTAGTTTTTGTATGCTTTTAAAGTAAATATTTAAAAAATATTGTGTTACGAAAGGGTCATGTCGCAGTTTATTAAATAGGAGGCAAATAAAACACCGGTGGTCAAACTGCTCACATCGAATTCTAAGAAACAACATGGAGTCCTTCAAAAGAAAAAATCGCCCTGCTCACCCCAGAGCTTCAGCAAATCCATTGTCAGCCTTAACTTTCACTTGGACCTTGCCAGTATTTTGGAGCAGTTTGAAAAAGGAATTGGAAGAGCAAGATTTGTATGAGCCCTTAGATGAACATTCCTCAGGTCCACTCGGTGATAAATTCGCTCGCCTATGGGAGGAGGAGGTTGCCAAGGCTGGCAATAAACGGAAACCCAGCTTACTCCGCGTCATACTTAAGGCATACGCTGCTAGGTGCATGCTCTACGGATTCATATTGTTGATCATGGAATGCGTGATAAAGATAGCTCAGCCAATATTTCTTGGTTGGCTGGTGGAATATTACAGCCCCGACAGTAAAATGACGCCCTCGGACGCATATCTCTGCGCTGCGGCAGTCGTAGTATGCTCAGCTCTTAATGTATTCGTCATGCATCCATATATGATGGCCATATTACACATGGGAATGAAGTTCAGGGTCGCTTGCTGCTCGCTCATCTACAGAAAGTCTCTACGATTATCGAAGACCGCTCTCGGCGAGACGACAATCGGTCAAGTCGTCAACCTGTTGTCGAACGACGTGAACCGTTTCGACGTCGCGGTGATATTCATCCACTATCTATGGATCGGGCCGCTGGTCACCGTGATCATCACATACTTTATGTGGCTGGAGATCAACTGGGCCGCGGTGGTCGGAGTAGCTTTCATGCTGGCATTCATACCGCTGCAAGCTTACTTGGGAAAGAAGACTTCGGTTTTGAGACTAAAAACAGCATTAAGGACCGACGAACGTGTCCGACTTATGAATGAAATTCTATCCGGCATTCAAGTCATCAAGATGTACACTTGGGAGAAACCTTTCGCTGACCTCGTCGCCAAAGCTAGGAAACACGAAATAAAACAAATCCGAGCGACGTCTTACATCCGAGGAGTGCTCACTTCGTTCATAATGTTCACGACGCGCAGTTGCTTATTCTGTTCGATACTGGCATACGTGCTGGTGAACAATGTGATCACCGCCAAACAAGTGTTCGTTATAACGAGCTTTTACAGTATATTGAGGCAGTCCATGACCGTGTTCTTTCCGCAAGGTATTGCTCAAGTAGCTGAAGCTTTGATATCCATAAAACGGCTTCAGAGCTTCATGTTATACGAAGACACAAACAAACCCGTTCCCGGACTGGCCGAGATACAAACCTCAACGAAACCCAAGGAGGTGACAAAGGATTCTCTGTTGCCCGCCAGCGATGAGTTGGATGTGAAAAAGGATGATTCGAAATTGACAGCCACCGGTGATAGTACCGCAGAAACCAAAGAAGCCAAGGGTAATGGAAACGTGAACTTAGCCCCCATAGAGGCGAGCGAAGAGGACGAACAAGAACTATCGGCTCGCGTCGAAGAGGACTCCCGCGGAGTGAGACTCAAGCACGCCACCGCCAAATGGATACAGTCGCATCCGGAAAACACTCTCACCGATCTGTCTCTCACCATAAAACCGGGGAAGTTAATAGCAGTAATAGGCCCAGTCGGCGCGGGCAAGTCGTCCCTGCTGCACGTGTTACTGCGGGAGTTGCCGCTCGCGTCGGGAAGCGTGCACGTCGGCGGGACAGTGTCCTACGCGAGCCAAGAGCCTTGGCTTTTTGCGGGGAGCGTCCGTCAGAATATCTTGTTCGGTCAGCCGATGGATCGTCCCCGGTACAACACCGTGGTGCGGCGGTGCGCGCTCGACCGCGACTTCGCGCTTTTCCCGCACGGAGACAAGACCGTCGTCGGCGAACGTGGCGTCAGTCTCAGTGGAGGTCAACGCGCCCGTATATCTCTGGCTCGCGCGGTGTACAAGCGCGCCGACATATACTTGCTGGACGACCCGCTGTCCGCCGTCGACGCGCACGTCGGTCGGCACTTGTTCGAGTCGTGCGTGGTCGGCTACCTGCGGAACTCAACGCGTATACTCGTCACGCATCAGCTGCAGTTCCTCAGGGACGTCGATCAGATAATAATATTGAAAAATGGTACAATAGCGGCAGCCGGTAACTTCGATACTTTGAGCGCGTCTGGTCTTGATTTTGCTACGTTGTTGGCGCGCGACCAGCACGAGGAAGAGAAACCGACCGAGGCCGCGGTCCTCACCGACACCGAGGATAATAACTCGGTTCTCCACGGAAGCTTTAGGAAACGACAACTGAGTATTCATTCCGTGAGCTCGGTGGACAACCTGACGGCGACGGCGCCCCCGGAAGGCACCCGCGAGGAGGCGGAGATGAAGTCTGCGGGCGCGGTGTCGGGGCGCGTATACGGCGCCTACCTGCGAGCCTGCGGTAACGCATTCGTGATCACATTGATGCTGCTTGTCGCCGTCTTAGCGCAACTACTCGGTTCTGCCTCCGATTGGTGGACCAGCTTCTGGGTAAAGTTAGAAGAGAAAAATTACGCATCTCATACGTTGCGCACTTTCGATGATCGAAATGAGACGGGAAGTTTACAAGCCGCGGACCCTAGAGTCGATAATGCGATCTTCTCTGACGTCGGCCTGTCTCGCTATGATTGCATTTATATTTACACTGGTATCGTAGCGGCTCTGGTAGCGGTCACGTTGCTGCGTTCGTTTATGTTCTTCTGGATAGCGATGCGCGCCTCGACCCGCCTGCACAACAACATGTTCGCGGCCATCACCCGCGCCCCCATGCGCTTCTTCCACGTCAACCCCTCGGGCCGGATCCTCAACCGCTTCTCCAAGGACATGGGCGCTGTCGATGAAGTGCTGCCCTCTGCCGTTATTGATGTCTTACAAATCGGTCTGTCGCTGATCGGTATCGTGGTCGTGGTGGCGATAGTGAACTACTGGCTTCTGGTGCCGACGGTGGCGATCGGCGTCATCTTCTACGGGCTCCGCATATTCTACCTGGCCACGTCGCGGAACATCAAACGCCTCGAGGGTGTGACTCGGAGTCCCGTGTTCTCACACCTCAACGCTTCGTTGCAAGGTATCACCACCATCAGAGCGTTCGGCGCTCAAGAGGCTCTCATCAGGGAATTCGACAATCATCAGGATCTGCACAGTTCAGCTTGGTACATGTTCATCGCGAGCTCAAGAGCGTTCGGTTTCTGGCTGGACCTGGTGTGCGTTGTGTACATCGCGGTGGTCACCATGAGTTTCCTCGTGCTCGGCAATGAGAAGTACGGAGGGGACGTCGGTCTGGCCATAACGCAGGCGATGGGTCTGACCGGCACGTTCCAGTGGGGCATGCGGCAGTCCACTGAACTGGAGAACCAAATGACCAGTGTCGAGAGGATCGACGAATATTCGAACATAGAATCGGAGCCCCCGCTCCAGTCGGAGGGCGACAAGAAGCCTCCCCCCTCGTGGCCGGAGGCGGGCGGCGTGCAGTTCCGCCATGTACATCTGTACTACGCGCCCGGCGAGCCCGCTGTGCTCCGGGACTTGTCCTTCATCATCCTACCCAAAGAGAAGGTCGGCATCGTCGGCAGGACCGGCGCCGGGAAGTCTTCTCTCATCAATGCTTTGTTCAGGCTTGCGACAATAGAAGGCGAGATCATAATCGATAATCGAGAGACTTCTTCGATGGGCCTGCATGAGCTCCGTAGTCAGATCTCGATAATTCCGCAAGAGCCGGTCCTATTTTCGGGCACCATGAGACACAATCTGGATCCCTTCGATGAATATCCCGACCAAGTATTGTGGAGGGCCTTGGAAGAGGTTGAGCTGAAGGAAGTAGTGCAGGAGCTCCCGGCCGGTCTGAACTCTCGCATGTCGGAGGGCGGCGGGAACTTCTCCGTGGGGCAGCGGCAGCTCGTGTGCCTCGCGCGGGCCATCGTCAGGCGCAACCGCCTGCTCGTGCTGGACGAGGCCACCGCCAACGTCGACCCGCAAACCGATGCCCTCATACAAACGACAATTAGAAACAAATTCGCAGAATGCACAGTACTCACGATTGCTCACAGACTTCACACCGTCATGGATTCTGATAAGGTTCTCGTGATGGACGCTGGTCAAATGGTGGAGTTTGATCATCCGCACGTGCTGCTGCAGAAGCACGAGGGCGTCCTGCGCGGCATGGTCGAGCAGACCGGCAAGGCCATGGCCGACACGCTCGCGCGGGTCGCGCAACAGGCTTACGAGAAGAAAAATTTAGGGAGTGCGACAGAATGATCTAGTTAAACATGAATGTAGGCTACGAATTACTTAAAATACGTGTTATTAATGTTCCTATGAGGGATGTACAAAAGGATCTGTTTTATTCCGTAAGTGTGTAAGGCTGCCCGCCGATACGTCACGCTTATGTCACAAATGTATTCGTTATTTATATGGTAGGAACTATTTGTAAGAATAGGTTTTTGTTAATTATTGCGTGTTTGTAAAACAAGTGAGATTTCCATTGGATGGTTACCAAAATTGATCTTTATGTTAGAGTAGTTAAAAGGAAATTTTGACTGCAATACCAAATCCTTATCGAATATTTTCTTAATTTAAATTTACTACAATGTAAACAGTGTCTTAATTAGTTTTTTTGTTTGTTTGAAGAAATCAAAGCTTTACCGTATTATTATATACAAAAGGTGCTACAATTTTACTTGTAGACTTTGAACGAGGCCTATTATAATAGGTTTAGCGTGTACTTACATTAATTATATAAATAACGGAAAAAATAAAGGAAACGTTACTTATTAACACTGTAAGTGTCTTTGATGATAAATAATATTTTAAGTAGCTAATTTTATTCAGTGATATGTATTGTGTACTTATGTCGATGTGATTATGGATTTGATAAAATTATATTCAACATACAATTTTTATTCTGATAATATACCGATGTTTGTAGAAATTGAAAATGTTTGTTGATTAATACAACAAAATAAAATTTTAGATTGTAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA 

ORF

 ATGGAGTCCTTCAAAAGAAAAAATCGCCCTGCTCACCCCAGAGCTTCAGCAAATCCATTGTCAGCCTTAACTTTCACTTGGACCTTGCCAGTATTTTGGAGCAGTTTGAAAAAGGAATTGGAAGAGCAAGATTTGTATGAGCCCTTAGATGAACATTCCTCAGGTCCACTCGGTGATAAATTCGCTCGCCTATGGGAGGAGGAGGTTGCCAAGGCTGGCAATAAACGGAAACCCAGCTTACTCCGCGTCATACTTAAGGCATACGCTGCTAGGTGCATGCTCTACGGATTCATATTGTTGATCATGGAATGCGTGATAAAGATAGCTCAGCCAATATTTCTTGGTTGGCTGGTGGAATATTACAGCCCCGACAGTAAAATGACGCCCTCGGACGCATATCTCTGCGCTGCGGCAGTCGTAGTATGCTCAGCTCTTAATGTATTCGTCATGCATCCATATATGATGGCCATATTACACATGGGAATGAAGTTCAGGGTCGCTTGCTGCTCGCTCATCTACAGAAAGTCTCTACGATTATCGAAGACCGCTCTCGGCGAGACGACAATCGGTCAAGTCGTCAACCTGTTGTCGAACGACGTGAACCGTTTCGACGTCGCGGTGATATTCATCCACTATCTATGGATCGGGCCGCTGGTCACCGTGATCATCACATACTTTATGTGGCTGGAGATCAACTGGGCCGCGGTGGTCGGAGTAGCTTTCATGCTGGCATTCATACCGCTGCAAGCTTACTTGGGAAAGAAGACTTCGGTTTTGAGACTAAAAACAGCATTAAGGACCGACGAACGTGTCCGACTTATGAATGAAATTCTATCCGGCATTCAAGTCATCAAGATGTACACTTGGGAGAAACCTTTCGCTGACCTCGTCGCCAAAGCTAGGAAACACGAAATAAAACAAATCCGAGCGACGTCTTACATCCGAGGAGTGCTCACTTCGTTCATAATGTTCACGACGCGCAGTTGCTTATTCTGTTCGATACTGGCATACGTGCTGGTGAACAATGTGATCACCGCCAAACAAGTGTTCGTTATAACGAGCTTTTACAGTATATTGAGGCAGTCCATGACCGTGTTCTTTCCGCAAGGTATTGCTCAAGTAGCTGAAGCTTTGATATCCATAAAACGGCTTCAGAGCTTCATGTTATACGAAGACACAAACAAACCCGTTCCCGGACTGGCCGAGATACAAACCTCAACGAAACCCAAGGAGGTGACAAAGGATTCTCTGTTGCCCGCCAGCGATGAGTTGGATGTGAAAAAGGATGATTCGAAATTGACAGCCACCGGTGATAGTACCGCAGAAACCAAAGAAGCCAAGGGTAATGGAAACGTGAACTTAGCCCCCATAGAGGCGAGCGAAGAGGACGAACAAGAACTATCGGCTCGCGTCGAAGAGGACTCCCGCGGAGTGAGACTCAAGCACGCCACCGCCAAATGGATACAGTCGCATCCGGAAAACACTCTCACCGATCTGTCTCTCACCATAAAACCGGGGAAGTTAATAGCAGTAATAGGCCCAGTCGGCGCGGGCAAGTCGTCCCTGCTGCACGTGTTACTGCGGGAGTTGCCGCTCGCGTCGGGAAGCGTGCACGTCGGCGGGACAGTGTCCTACGCGAGCCAAGAGCCTTGGCTTTTTGCGGGGAGCGTCCGTCAGAATATCTTGTTCGGTCAGCCGATGGATCGTCCCCGGTACAACACCGTGGTGCGGCGGTGCGCGCTCGACCGCGACTTCGCGCTTTTCCCGCACGGAGACAAGACCGTCGTCGGCGAACGTGGCGTCAGTCTCAGTGGAGGTCAACGCGCCCGTATATCTCTGGCTCGCGCGGTGTACAAGCGCGCCGACATATACTTGCTGGACGACCCGCTGTCCGCCGTCGACGCGCACGTCGGTCGGCACTTGTTCGAGTCGTGCGTGGTCGGCTACCTGCGGAACTCAACGCGTATACTCGTCACGCATCAGCTGCAGTTCCTCAGGGACGTCGATCAGATAATAATATTGAAAAATGGTACAATAGCGGCAGCCGGTAACTTCGATACTTTGAGCGCGTCTGGTCTTGATTTTGCTACGTTGTTGGCGCGCGACCAGCACGAGGAAGAGAAACCGACCGAGGCCGCGGTCCTCACCGACACCGAGGATAATAACTCGGTTCTCCACGGAAGCTTTAGGAAACGACAACTGAGTATTCATTCCGTGAGCTCGGTGGACAACCTGACGGCGACGGCGCCCCCGGAAGGCACCCGCGAGGAGGCGGAGATGAAGTCTGCGGGCGCGGTGTCGGGGCGCGTATACGGCGCCTACCTGCGAGCCTGCGGTAACGCATTCGTGATCACATTGATGCTGCTTGTCGCCGTCTTAGCGCAACTACTCGGTTCTGCCTCCGATTGGTGGACCAGCTTCTGGGTAAAGTTAGAAGAGAAAAATTACGCATCTCATACGTTGCGCACTTTCGATGATCGAAATGAGACGGGAAGTTTACAAGCCGCGGACCCTAGAGTCGATAATGCGATCTTCTCTGACGTCGGCCTGTCTCGCTATGATTGCATTTATATTTACACTGGTATCGTAGCGGCTCTGGTAGCGGTCACGTTGCTGCGTTCGTTTATGTTCTTCTGGATAGCGATGCGCGCCTCGACCCGCCTGCACAACAACATGTTCGCGGCCATCACCCGCGCCCCCATGCGCTTCTTCCACGTCAACCCCTCGGGCCGGATCCTCAACCGCTTCTCCAAGGACATGGGCGCTGTCGATGAAGTGCTGCCCTCTGCCGTTATTGATGTCTTACAAATCGGTCTGTCGCTGATCGGTATCGTGGTCGTGGTGGCGATAGTGAACTACTGGCTTCTGGTGCCGACGGTGGCGATCGGCGTCATCTTCTACGGGCTCCGCATATTCTACCTGGCCACGTCGCGGAACATCAAACGCCTCGAGGGTGTGACTCGGAGTCCCGTGTTCTCACACCTCAACGCTTCGTTGCAAGGTATCACCACCATCAGAGCGTTCGGCGCTCAAGAGGCTCTCATCAGGGAATTCGACAATCATCAGGATCTGCACAGTTCAGCTTGGTACATGTTCATCGCGAGCTCAAGAGCGTTCGGTTTCTGGCTGGACCTGGTGTGCGTTGTGTACATCGCGGTGGTCACCATGAGTTTCCTCGTGCTCGGCAATGAGAAGTACGGAGGGGACGTCGGTCTGGCCATAACGCAGGCGATGGGTCTGACCGGCACGTTCCAGTGGGGCATGCGGCAGTCCACTGAACTGGAGAACCAAATGACCAGTGTCGAGAGGATCGACGAATATTCGAACATAGAATCGGAGCCCCCGCTCCAGTCGGAGGGCGACAAGAAGCCTCCCCCCTCGTGGCCGGAGGCGGGCGGCGTGCAGTTCCGCCATGTACATCTGTACTACGCGCCCGGCGAGCCCGCTGTGCTCCGGGACTTGTCCTTCATCATCCTACCCAAAGAGAAGGTCGGCATCGTCGGCAGGACCGGCGCCGGGAAGTCTTCTCTCATCAATGCTTTGTTCAGGCTTGCGACAATAGAAGGCGAGATCATAATCGATAATCGAGAGACTTCTTCGATGGGCCTGCATGAGCTCCGTAGTCAGATCTCGATAATTCCGCAAGAGCCGGTCCTATTTTCGGGCACCATGAGACACAATCTGGATCCCTTCGATGAATATCCCGACCAAGTATTGTGGAGGGCCTTGGAAGAGGTTGAGCTGAAGGAAGTAGTGCAGGAGCTCCCGGCCGGTCTGAACTCTCGCATGTCGGAGGGCGGCGGGAACTTCTCCGTGGGGCAGCGGCAGCTCGTGTGCCTCGCGCGGGCCATCGTCAGGCGCAACCGCCTGCTCGTGCTGGACGAGGCCACCGCCAACGTCGACCCGCAAACCGATGCCCTCATACAAACGACAATTAGAAACAAATTCGCAGAATGCACAGTACTCACGATTGCTCACAGACTTCACACCGTCATGGATTCTGATAAGGTTCTCGTGATGGACGCTGGTCAAATGGTGGAGTTTGATCATCCGCACGTGCTGCTGCAGAAGCACGAGGGCGTCCTGCGCGGCATGGTCGAGCAGACCGGCAAGGCCATGGCCGACACGCTCGCGCGGGTCGCGCAACAGGCTTACGAGAAGAAAAATTTAGGGAGTGCGACAGAATGA 

Protein

 MESFKRKNRPAHPRASANPLSALTFTWTLPVFWSSLKKELEEQDLYEPLDEHSSGPLGDKFARLWEEEVAKAGNKRKPSLLRVILKAYAARCMLYGFILLIMECVIKIAQPIFLGWLVEYYSPDSKMTPSDAYLCAAAVVVCSALNVFVMHPYMMAILHMGMKFRVACCSLIYRKSLRLSKTALGETTIGQVVNLLSNDVNRFDVAVIFIHYLWIGPLVTVIITYFMWLEINWAAVVGVAFMLAFIPLQAYLGKKTSVLRLKTALRTDERVRLMNEILSGIQVIKMYTWEKPFADLVAKARKHEIKQIRATSYIRGVLTSFIMFTTRSCLFCSILAYVLVNNVITAKQVFVITSFYSILRQSMTVFFPQGIAQVAEALISIKRLQSFMLYEDTNKPVPGLAEIQTSTKPKEVTKDSLLPASDELDVKKDDSKLTATGDSTAETKEAKGNGNVNLAPIEASEEDEQELSARVEEDSRGVRLKHATAKWIQSHPENTLTDLSLTIKPGKLIAVIGPVGAGKSSLLHVLLRELPLASGSVHVGGTVSYASQEPWLFAGSVRQNILFGQPMDRPRYNTVVRRCALDRDFALFPHGDKTVVGERGVSLSGGQRARISLARAVYKRADIYLLDDPLSAVDAHVGRHLFESCVVGYLRNSTRILVTHQLQFLRDVDQIIILKNGTIAAAGNFDTLSASGLDFATLLARDQHEEEKPTEAAVLTDTEDNNSVLHGSFRKRQLSIHSVSSVDNLTATAPPEGTREEAEMKSAGAVSGRVYGAYLRACGNAFVITLMLLVAVLAQLLGSASDWWTSFWVKLEEKNYASHTLRTFDDRNETGSLQAADPRVDNAIFSDVGLSRYDCIYIYTGIVAALVAVTLLRSFMFFWIAMRASTRLHNNMFAAITRAPMRFFHVNPSGRILNRFSKDMGAVDEVLPSAVIDVLQIGLSLIGIVVVVAIVNYWLLVPTVAIGVIFYGLRIFYLATSRNIKRLEGVTRSPVFSHLNASLQGITTIRAFGAQEALIREFDNHQDLHSSAWYMFIASSRAFGFWLDLVCVVYIAVVTMSFLVLGNEKYGGDVGLAITQAMGLTGTFQWGMRQSTELENQMTSVERIDEYSNIESEPPLQSEGDKKPPPSWPEAGGVQFRHVHLYYAPGEPAVLRDLSFIILPKEKVGIVGRTGAGKSSLINALFRLATIEGEIIIDNRETSSMGLHELRSQISIIPQEPVLFSGTMRHNLDPFDEYPDQVLWRALEEVELKEVVQELPAGLNSRMSEGGGNFSVGQRQLVCLARAIVRRNRLLVLDEATANVDPQTDALIQTTIRNKFAECTVLTIAHRLHTVMDSDKVLVMDAGQMVEFDHPHVLLQKHEGVLRGMVEQTGKAMADTLARVAQQAYEKKNLGSATE* 

Auto annotation result

Program/Analysis Accession Description Score/Expectation
Pfam/Hmmer3 PF13207.1 AAA domain
Pfam/Hmmer3 PF08477.8 Miro-like protein
Pfam/Hmmer3 PF03205.9 Molybdopterin guanine dinucleotide synthesis protein B
Pfam/Hmmer3 PF00664.18 ABC transporter transmembrane region
Pfam/Hmmer3 PF00625.16 Guanylate kinase
Pfam/Hmmer3 PF12846.2 AAA-like domain
Pfam/Hmmer3 PF06414.7 Zeta toxin
Pfam/Hmmer3 PF05049.8 Interferon-inducible GTPase (IIGP)
Pfam/Hmmer3 PF00910.17 RNA helicase
Pfam/Hmmer3 PF00735.13 Septin
Pfam/Hmmer3 PF00350.18 Dynamin family
Pfam/Hmmer3 PF05673.8 Protein of unknown function (DUF815)
Pfam/Hmmer3 PF13191.1 AAA ATPase domain
Pfam/Hmmer3 PF13401.1 AAA domain
Pfam/Hmmer3 PF13604.1 AAA domain
Pfam/Hmmer3 PF01580.13 FtsK/SpoIIIE family
Pfam/Hmmer3 PF13555.1 P-loop containing region of AAA domain
Pfam/Hmmer3 PF13671.1 AAA domain
Pfam/Hmmer3 PF01637.13 Archaeal ATPase
Pfam/Hmmer3 PF01935.12 Domain of unknown function DUF87
Pfam/Hmmer3 PF01926.18 50S ribosome-binding GTPase
Pfam/Hmmer3 PF00005.22 ABC transporter
Pfam/Hmmer3 PF13238.1 AAA domain
Pfam/Hmmer3 PF00437.15 Type II/IV secretion system protein
Pfam/Hmmer3 PF13476.1 AAA domain
Pfam/Hmmer3 PF00009.22 Elongation factor Tu GTP binding domain
Pfam/Hmmer3 PF09900.4 Predicted membrane protein (DUF2127)
Pfam/Hmmer3 PF02492.14 CobW/HypB/UreG, nucleotide-binding domain
Pfam/Hmmer3 PF03308.11 ArgK protein
Pfam/Hmmer3 PF03193.11 Protein of unknown function, DUF258
Pfam/Hmmer3 PF13304.1 AAA domain
BLASTP/NCBI-nr EHJ76393 hypothetical protein KGM_19552 [Danaus plexippus] 0.0
InterPro IPR009147 CysFib_conduc_TM
InterPro IPR003439 ABC_transporter-like
InterPro IPR017940 ABC_transporter_type1
InterPro IPR011527 ABC_transptrTM_dom_typ1
InterPro IPR001140 ABC_transptr_TM_dom
InterPro IPR017871 ABC_transporter_CS
Gene Ontology(CC) GO:0016020 membrane
Gene Ontology(BP) GO:0006810 transport
Gene Ontology(BP) GO:0055085 transmembrane transport
Gene Ontology(MF) GO:0005524 ATP binding
Gene Ontology(MF) GO:0042626 ATPase activity, coupled to transmembrane movement of substances
Gene Ontology(BP) GO:0006811 ion transport
Gene Ontology(CC) GO:0016021 integral to membrane
Gene Ontology(MF) GO:0005254 chloride channel activity
Gene Ontology(MF) GO:0016887 ATPase activity

Expression data (EST count)

Paralog/Ortholog genes

Paralogous genes

Gene ID Official gene ID Chr. Chr. start Chr. end Scaffold ID Start End Direction
Gene07308 BMgn010332 chr12 12952701 12969912 Bm_scaf109 13085 30296 -
Gene07309 BMgn010331 chr12 12979736 12984096 Bm_scaf109 40120 44480 -
Gene08864 BMgn007735 chr15 8909578 8944368 Bm_scaf3 1009896 1044686 -
Gene13511 BMgn011220 chr23 18775517 18805150 Bm_scaf12 4269387 4299020 -
Gene16175 BMgn010849 unknown ND ND Bm_scaf228 47746 61144 -
Gene13915 BMgn017063 chr24 9238454 9243472 Bm_scaf43 3390354 3395372 +
Gene15014 BMgn002317 chr26 7483749 7631668 Bm_scaf34 2053092 2201011 +
Gene08871 BMgn007738 chr15 9021031 9043137 Bm_scaf3 911127 933233 -
Gene08887 BMgn007784 chr15 9188046 9200762 Bm_scaf3 753502 766218 +

Orthologous genes

Species Gene ID Scaffold ID Start End Direction
D. plexippus DPOGS203074 DPSCF300294 4632 25201 -
D. plexippus DPOGS208634 DPSCF300281 373272 387614 -
D. plexippus DPOGS208066 DPSCF300282 99215 127066 -
D. plexippus DPOGS208065 DPSCF300282 161574 175789 -
D. plexippus DPOGS208084 DPSCF300282 147015 157052 +
D. plexippus DPOGS208713 DPSCF300043 81043 90868 -
D. plexippus DPOGS208495 DPSCF300064 915199 919147 -
D. plexippus DPOGS208075 DPSCF300282 21073 39057 +
D. plexippus DPOGS202687 DPSCF300438 43347 66738 +
D. plexippus DPOGS208076 DPSCF300282 44437 53985 +
D. plexippus DPOGS208494 DPSCF300064 919781 939075 -
H. melpomene HMEL003351 HE668909 140330 177350 -
H. melpomene HMEL003354 HE668909 203310 223866 +
H. melpomene HMEL014185 HE671430 51966 67721 +
H. melpomene HMEL011731 HE671216 67233 96598 +
H. melpomene HMEL011589 HE671201 11703 27835 -
H. melpomene HMEL008762 HE670829 176598 205814 -
H. melpomene HMEL003355 HE668909 224456 251325 -
H. melpomene HMEL003342 HE668909 53427 93008 +
H. melpomene HMEL015261 HE672080 644204 655132 +
M. sexta Msex007779-RA scaffold00158 699678 701278 -
M. sexta Msex008857-RA scaffold00192 222223 265463 -
M. sexta Msex018602-RA scaffold00309 328171 332674 +
M. sexta Msex011186-RA scaffold00313 312865 341890 +
M. sexta Msex012667-RA scaffold00439 91228 134211 -
M. sexta Msex014413-RA scaffold00690 79433 92071 -
M. sexta Msex014411-RA scaffold00690 52054 79371 +
M. sexta Msex012427-RA scaffold00415 11 35987 +
M. sexta Msex012670-RA scaffold00439 184359 225466 +
M. sexta Msex018659-RA scaffold00540 107390 123922 -
M. sexta Msex007760-RA scaffold00158 347115 402289 +
M. sexta Msex009419-RA scaffold00215 123662 137975 +
P. xylostella Px001274.1 scaffold_1153 4862 13438 +
P. xylostella Px004042.1 scaffold_164 387212 447458 -
P. xylostella Px005403.1 scaffold_199 854564 879035 +
P. xylostella Px006710.1 scaffold_236 4405 26723 +
P. xylostella Px009834.1 scaffold_352 169022 191602 -
P. xylostella Px009835.1 scaffold_352 192939 220411 -
P. xylostella Px012780.1 scaffold_51 12664 57869 -
P. xylostella Px009134.1 scaffold_321 178892 228000 -
P. xylostella Px001752.1 scaffold_125 132273 134975 +
P. xylostella Px010506.1 scaffold_388 431 2968 -
P. xylostella Px002415.1 scaffold_137 494163 513079 +
P. xylostella Px002416.1 scaffold_137 513599 532977 -
P. xylostella Px002418.1 scaffold_137 552867 576380 +
P. xylostella Px008999.2 scaffold_316 108977 138269 +
P. xylostella Px002419.1 scaffold_137 576715 581467 +