New model in OGS2.0 | DPOGS207360  |
---|---|
Genomic Position | scaffold865:+ 7706-15138 |
See gene structure | |
CDS Length | 2586 |
Paired RNAseq reads   | 957 |
Single RNAseq reads   | 2672 |
Migratory profiles | Query via corresponding ESTs |
Best Bmobyx hit | BGIBMGA008625 (0.0) |
Best Drosophila hit   | minichromosome maintenance 2 (0.0) |
Best Human hit | DNA replication licensing factor MCM2 (0.0) |
Best NR hit (blastp)   | PREDICTED: similar to DNA replication licensing factor Mcm2 (Minichromosome maintenance 2 protein) (DmMCM2) [Apis mellifera] (0.0) |
Best NR hit (blastx)   | PREDICTED: similar to DNA replication licensing factor Mcm2 (Minichromosome maintenance 2 protein) (DmMCM2) [Apis mellifera] (0.0) |
GeneOntology terms    | GO:0006267 pre-replicative complex assembly GO:0003682 chromatin binding GO:0005656 pre-replicative complex GO:0006260 DNA replication GO:0008283 cell proliferation GO:0005634 nucleus GO:0003677 DNA binding GO:0030261 chromosome condensation GO:0006270 DNA-dependent DNA replication initiation GO:0005524 ATP binding GO:0043138 3'-5' DNA helicase activity |
InterPro families    | IPR001208 DNA-dependent ATPase MCM IPR008045 MCM protein 2 IPR012340 Nucleic acid-binding, OB-fold IPR018525 DNA-dependent ATPase MCM, conserved site IPR016027 Nucleic acid-binding, OB-fold-like |
Orthology group | MCL13997 |
Nucleotide sequence:
ATGAGTTCTCCTATTCCTGATACACCGTCTGACAGAGATGGAGCCCGGTCTCGTATGACA
TCGCCAGCTCGGGAGTACGAAATGTTTGAAGATGAAGGAGCCATCTTGGGTGACAATGCT
GATGAAGAAGAAGAAGATGGAGAGGAATTGTTCAATGATAATATGGAAGCTGATTACCGA
CCGATGCCAGCGTTGGATCGGTATGATGCTGAAGACCTGGACGAGGAGGACTATGACGCC
ATGTCGGTTGAAGATCGTGTGGCCGCAGAACGGGAGCTACAGAGACGGGACAGAGATGAG
GGACGCATACGGAGAGATGATAGGGACTTGTTATATGACAGCAGTGACGCGCCTCGTGCG
AAACGACGGAGGGCCGCGGAGAAGGCGGCCGGGATGGAGGAACCCGTGGAGGGGATCGAA
AGTATTGAAAACCTCGAAGACACCAAGGGATATTCCACTAAAGAATGGGTTTCCATGTTG
GGGCCTCGTACTGAGATCGCTAATAGGTTCAAGAATTTCCTCCGCACCTACACGAACACG
AAAGGCCAATACGTGTACAAAGAAAGAATACGTAGGATGTGCGAACACAATCAGGCCTCA
TTCCACGTGGAGTTCGATGTGTTGGCGAGACGAGAACAGGTGCTAGCCTATTTCCTACCC
GAGGCACCGTTTCAGATGCTGCAAATATTCGACGAAGTGGCCAAAGACATAGTACTCCAG
ATATTCCCGAGCTACGAGCGCGTCACCTCAGAGGTACACGTGCGGATCGCTGATCTTCCT
CTCATAGAAGAGTTGAGGACGTTCAGGAAGCTGCACTTGAACCAGCTGGTGCGCACCGTG
GGCGTTATAACGGCCACTACCGGGGTGATGCCGCAGCTGTCCGTGGTCAAATACGATTGT
AACAGATGTGGCTATATATTGGGACCGTTTGTCCAGTCTCAGAATTCTGAAGTCAAACCG
GGGTCTTGTCCTGAGTGTCAGAGCTCGGGACCTTTTATGGTTAATATGGAACAAACCGTG
TATAGAAACTATCAGAAGGTTACAATCCAGGAATCACCTGGAAGGATTCCAGCTGGTCGT
ATACCGAGGAGTAAGGACTGTGTGCTGTTAGCAGATCTCTGTGATAGATGCAAGCCAGGA
GATGAGGTAGACCTAACGGGGATCTACACAAATAATTATGATGGATCACTCAATACTGAA
CAGGGTTTCCCAGTATTCGCCACTGTTATTATAGCGAACTACATAGTAGTTAAGGACTGC
AAGCACATTGTTGAATCTCTCACTGATGACGATGTTGCCAGCATCCTAAAACTGTCAAAA
GACCCACAAATAGGGGAAAGAATTGTACAGAGTATAGCCCCTTCTATATACGGCTATGAT
TATATCAAAAGAGGTTTGGCGCTCGCTTTGTTTGGCGGCGAACCTAAAAATCCCGGCGAA
AAACATAAACTAAGAGGCGACATTAACGTTTTAATATGCGGAGATCCGGGGACGGCTAAG
TCGCAATTCCTCAAATATACGGAGAAGCCTATAGGAGAGCCCACTGCTAAGCAAAGGCCT
CTTCTCACATGGAGAAGAGATTGGACATTGGAAGCCGGCGCGCTGGTGCTGGCTGACCGC
GGAGTCTGTCTCATAGATGAGTTCGATAAGATGAACGATCAAGATCGTACGTCTATACAC
GAAGCGATGGAACAACAATCCATATCTATATCTAAGGCTGGAATTGTTACATCGTTACAT
GCTAGATGTTCTATAATAGCAGCGGCCAATCCTATCGGCGGTCGTTACGACGCGTCGCTG
ACATTCACCGAGAACGTGAATCTCTCTGAGCCGATATTATCTCGTTTCGACGTGTTGTGT
GTCGTGAGAGACGAGGCAGATCCTATGCAAGACGCGCATCTGGCTAAGTTCGTAGTGAGC
TCTCATATAAGACATCACCCCACGCAACGCGGTACTACCATCGAGGATACTACAGTTGAA
AACGATTTCACATTGCCACAGGATCTATTGAAGAAATACATTGTCTACTCGCGGGAGAAT
ATTCATCCTAAGCTCACGAATATGGATCAAGACAAAGTAGCGAAAATGTACAGCCAGCTA
AGACAAGAGTCGTTAGCCACAGGCAGTTTACCTATCACTGTGCGACATATTGAATCTGTA
ATCCGCATGTCCGAGGCGCATGCTAGAATGCATCTAAGAGCAGCTGTAAACGAGCAAGAC
GTTAACATAGCCATCAGAACTATGTTAGAGAGCTTTGTGGCCACACAAAAGTACAGTGTG
ATGCGGGCTATGAGACAGACCTTCCAAAAATACCTATCATACAAGAAAGATAACAGCGAA
CTACTGTATTACATTTTAAGACAACTCACAATGGACCAGCTAGCATATATGCGAGGCTTG
CATAATCACTCCCAATCGACTATAGAGATATCGGAGCGAGATTTAACAGAAAGAGCAAGA
CAAATCAATATCACAGATCTCAAACCTTTCTATGATAGTAGAATATTCAAAATGAATAAC
TTCAGTTACGATGCTAAACGGAAAGTCATTGTTCACACTCTGCCGGAAGTGCCATCGGTT
AATTAA
Protein sequence:
MSSPIPDTPSDRDGARSRMTSPAREYEMFEDEGAILGDNADEEEEDGEELFNDNMEADYR
PMPALDRYDAEDLDEEDYDAMSVEDRVAAERELQRRDRDEGRIRRDDRDLLYDSSDAPRA
KRRRAAEKAAGMEEPVEGIESIENLEDTKGYSTKEWVSMLGPRTEIANRFKNFLRTYTNT
KGQYVYKERIRRMCEHNQASFHVEFDVLARREQVLAYFLPEAPFQMLQIFDEVAKDIVLQ
IFPSYERVTSEVHVRIADLPLIEELRTFRKLHLNQLVRTVGVITATTGVMPQLSVVKYDC
NRCGYILGPFVQSQNSEVKPGSCPECQSSGPFMVNMEQTVYRNYQKVTIQESPGRIPAGR
IPRSKDCVLLADLCDRCKPGDEVDLTGIYTNNYDGSLNTEQGFPVFATVIIANYIVVKDC
KHIVESLTDDDVASILKLSKDPQIGERIVQSIAPSIYGYDYIKRGLALALFGGEPKNPGE
KHKLRGDINVLICGDPGTAKSQFLKYTEKPIGEPTAKQRPLLTWRRDWTLEAGALVLADR
GVCLIDEFDKMNDQDRTSIHEAMEQQSISISKAGIVTSLHARCSIIAAANPIGGRYDASL
TFTENVNLSEPILSRFDVLCVVRDEADPMQDAHLAKFVVSSHIRHHPTQRGTTIEDTTVE
NDFTLPQDLLKKYIVYSRENIHPKLTNMDQDKVAKMYSQLRQESLATGSLPITVRHIESV
IRMSEAHARMHLRAAVNEQDVNIAIRTMLESFVATQKYSVMRAMRQTFQKYLSYKKDNSE
LLYYILRQLTMDQLAYMRGLHNHSQSTIEISERDLTERARQINITDLKPFYDSRIFKMNN
FSYDAKRKVIVHTLPEVPSVN