Pre Gene Modal
BGIBMGA010221
Annotation
PREDICTED:_histone-lysine_N-methyltransferase_trithorax-like_[Bombyx_mori]
Full name
Histone-lysine N-methyltransferase trithorax
Alternative Name
Lysine N-methyltransferase 2A
Location in the cell
Nuclear Reliability : 3.962
Sequence
CDS
ATGGGAAGGTCGAGATTCCCTGGAAAGCCACTCAAATTTCAAAACAGAAAGCGTATCAGTGTTTTATCTGGGACTGTTTATCATGAAACTGCTGCAGAGGGCCCGCCAGCCCGCAGCGTTGCTGCTAATGATTTTGCTGGGGAACAAGAGGAAGAAGAAAAGAAAGAAGCAAACAATGAAGTCAAAAATGAAATTGAAGCCACTGAAAACGAATTAAGTCAACCAAACAAAAAACAAGACTCTAAAAGTATCCATACATCAAAGTCTCCTGTGCGTACCCGGTCGCAAAATAAAATGGAGGCCACAAAAGCTGATAAACCTGTAAAGAAAACAGTAACCTTTGGTACTGTTGAAAGCTGTGAAGATATATTTTTTCCCCTAAAAAAGCTTCCTTCAAAACATCATGCTCCTCTTGTCCCTATTATAAAGAAAAAATCTTTATTGAAACAAACTGAATATTCAACATTCAACAGTATACTTAAACCCGCGAAACTTACTGATTTGAGCTCTAAGTCTTCATCAGAACATCAAGAAGGGTATTTAAGAAAAAATTTGAATCCTTTGTCAAAACCTATGAATAAATTTTCACAGCTGAGTGAGAACCGTTGTATTTCACCACCACCAAGAAATTCATCACCTGTTGAAAGAGATAATAATGGAACAACAACAAAATTTGTATTGCCTGTTAGAAGTGCCCATTCATCTCGTGTTATTAAACCCAATAAAAGGTTTATAGATGGTGAGGAGCCAACAGCAATAACAAGTATAATATCTTCAGGAAAGGTTCTTAAGAAACCAAAGCTAAAGAGATTGGTTTTCAATAATATACATAATGACGATGATGAAACTCCAGATGAAGATGAACTCAATAAAATTATTGAAGCAGAAAAAAATAAGGAAAAATCTGTTCTTAAAACTTCTAGTTTATTCAAAGACAAAACAACAAACTCCTTTTTATCTCTTAATAGTGGTTCACGAAAAGGAGTTCATGATCTATTTTCTTATGATAAGGAACGCGAACATCAAGATGAGAATTCCAATGTAGAATGTTCAGAAAAGGTGAAAACAACTGAATCAGCCAAGGATGACAGGTCCGGGCATGCTATGAGAAAATTAATGGACATATCTGATGCAAGTAGCTCAAGCAGCACCAGTAGTGGTTCTGAATCTGAAGAGAGTTGGGAGAGTGATAGTGCTGAGGGAAGTGGAGAAGAATTAGATAAACCAATTTTACCAAGTCCAGATAAAGACAAATCAGCTTCTCAGTTACTAAGTGGAAAAGTTATAATAAGGGAGGCTAGATTACAACTTAATTCTCCCGCTCAAACAACTTCTGGATTAGATGGTCCTTTCTCGATGCTCACATCAGCCTCATCAAACAATCCACCAACAACTGTAACTTGTGGAGTTTGTGGAGCTGTGAGGTTTTACAGATTTGTGAAACAAGCCAGAAAATTTGGAATTTATTCATGTGAATCTTGTCGCAAATTTATCACAAAACTCTTGAAAAGAGATAAAATGGCTCATAGAATGGGTCCTGTCTCAATGCACTGCCTAAAAGGAGAAGGAAATTGTCATGTACCACCAATAGTTAGATCACAACAGTGGAAGTTATTACGATGTACAAATAAAACTAGATGTCCTGCGTGCTGGCTGAAAATGTGCTTAAAGGCTTTTCAAGTACCACCCAGCATTAGAGCTAGCCTTACTGCTATGTTGCCACCTAACATGAGGCCAAGTGTTAAGCCTACTCCTTTATCACCAGCGAATCCGCTAAGAGTGCCTACTACAAACGCTGCTGTAACCAGTCAGCCTGTTTTTGGGTTAAGTGTGAATGACAATGAAACAAACATATTTGGTAGTTTGACGTCAACCAAGAAAACAGTAGAGGAGCCAGAAAAAGTTGAGGAGAAGGTTTCAAAGGAACAATCAAATACAGAAGAAAACAATGAAGATTTTTGTGCCAGTAGGAAGCGCCAATTAACAAGGATAAAAGTTAGGAAAAAAGATAAATCAGAGGCCAAACAAATTGAAGACCCTAAGAGGCAAAAAATGGAACTCAAAGGTCCAAGAGTTAAGCATGTCTGTCGAAGTGCATCCATTGTATTGGGACAACCTATTGCTACTTTTCCTACTATGGAAGAAAAAGACAAACATGACAAAGTTATATCTGAAGAAGATAACACTGTCTCTACCATTGATAAAGATATTGAAGCACCTGATTTATCAAGTGAAGAATCTGAGGTAGATCTGGAGAATAAAGTACCACAGATAATTCTTGAAGCGGTTTCAGTAAAGGATGTAGAGGAATCCCCTGTAGAACCAAAGAAAAGAAAAGTTGATCCATTGCTGGCTAAACAGGGTAAAGCAGAATCAAGTGAGGATGAAACTGTAATGGACCTCATACCCAAGAAAACTATACAGAAACCTTTATCCAACATCACTAATGTCCGCGGGCGCACACAGAAATGTGGACAAAATCGACCAGAATTAATATGTGTCGATTTTTGGGAGAGTTACGACCCTGATGAAGTATGCAATTCTGGATTTGGTCTCATCGGCACTTTACCATTCACTGTTGCCAAATTGTGTTTCTTATGCGGAAGTGCTGGCCAAGAAAAACAGATGGTAGTGTGCTCGAGCTGTTGCGAGTGGTACCACACGTGGTGCGCGGAGGACGCGAGCGGCGGGCGCGGCTGGCGGTGCGCGCGCTGTGCGTGCTGTGCCGTGTGCGAGCGCGCCGCCGCCCGTTTACGATGTCGTCTGTGCGCTGCGCCACATCATGCAATTTGTCTGCCCGCTGCACCTCCGGACCATCGTAGTGACTGGCCACAGATCTGCAGTGCGTGTCTGAAATGTAAAAGCTGCGAAAGTACTCGCGTGAGCAAGTTTGTTGGTAGTTTACCTTTTTGTGGTCCATGCTTTAAACTTAGACAAAAAGGAAATTATTGTCCGCTCTGTCAAGCGTGTTACAGAGATAATGATTTTGATAGCAAGATGATGGAATGTGGTTGGTGTGGCCGCTGGGTACATGCAAGCTGTGAAGGTTTATCTGGAGAGGAGTACCAACTTCTTTCCGCACTTCCGCCCTCGATCGAGTATATTTGTTGTAAATGCATGCCTCATGATCCCCCTTGGAGGAAAATGCTTACTGAACATTTAAAAGGACGACTTTTACATCTACTCAAACTACTTGCCAAGAGTAAAAAAGCTTGTGCATTACTAAAATTGACACCACACAAAAATACGCCGATCGCTAACAAACCGTACCGCATTACATCACCACAGGCTATCAGAAAACTACACTTTGAATCCGAAGATGATTCTTTGAAAACAACTGAAACTAAAGTCTACAGAAACAGCTCTAGAGGAAAACGTAATAATGCACAAACCAAAGATGATACAACCGAGTCGCAAGTATGGCGTTGTTCATCGCTGTTAGCTGATGTCGATATGGAAAAGGAAGACATTCCACATACTTCTCATAAAGTTGTAAATCTTCAGGAACCCTTGATGCAGAATAAAGAGGTCTGCTTTTCAACAGGTCTTTATGGTACCAAGACAGAGTTTGATGCCCCTTGTGTTGAAGTACACGAAAATTACCCTTCTCAGAAACAAAACGACAAAGCAACAACAATGCTACCAGCATCTCCTAATGTTGAAAAATATTGTGATGATGAGACAGTGAGGAGCTTCCCACAAGCTCGAAGTGAACAAGACTTGAGCCCAGCCATTGTAAGAATTAATGATACAATAGTTGCTGAAATGACTGAAAATAATAAGATGGTGTCACCATCTTTACTAGACATAAAGAAAAGAGTCAATAATGATGAATATGTTTCTTTAAAAGATTTTAATCATGATATGAAGGAAGTTATTACCAGGACAGTAAATGACGACTTGAAGAAAATTTACAAAGATTTATTCTCAGAAACATTTCCCTGGTTTGATTGTGAAAACAATTGTCTTCAACCAAATTTGGAAGTTGAGGGTGAACTGGAAGATAGTGAATCCTTAAAAGATGATGACATGTCTGATAATAAAGGGCTTAAAGCTTCTGCACAATCAATCGAAAGACCCCAAGATCAGATAGTTCCAAAAATTGAAAACGATGAAAATAAAATAGAAGAAGATTTGATAGACTTTTATCCAGTTTTTGATTCTAGAACTTGTGTCTTGTGCAAAGTGGTCGGTGACGCTACTCCGTCAATGGAAGGACGCTTGCTTTATTGTGGTCAGAATGATTGGATTCATGCTAATTGTGCTTTATGGTCAGCAGAAGTGTTTGAAGAAATAGATGGATCTTTGCAAAATGTACATTCAGCAATATCCAGAGGAAAAATGATTAAATGTGCTGCATGTGAAACAAAAGGTGCAAGTGTCGGTTGTTGCGCTAAAAATTGTAGTGAGACCTACCACTATGCCTGTGCAAGAAAACAAACTTGTGCCTTTATGGATGATAAAAGAGTGTTTTGCCCTACACATGGGAAAGATGTACCTAAGAAAAGTTTACAAAAAGACACAGATTTTGAACTAACAAGACCTGTTTATGTTGAGCTTGACAAGAAAAAGAAAAGGTATGGTGAAATTAATAAAGTTCAATTTATACTTGGATCACTAACAGTAAATACTTTGGGAAAAATTGTACCTTCAGTATCAGATTATGAAGAATTCTTAATCCCTGTTGATTTTTCTTGTACCCGATTATTTTGGTCTTGTAAAAAACCTACGAAAATAGTGAGATACACAATCAAAACCAAATTGATACTAGCAGAACCTTTGCCTGGTTTTGACTTTGGAGTTAATATAACCGTAGATCATAATTTGGAAACTCATGCAGTTGACAGAATGATGGCTGAAATTGGATCATGGCATGAAAGTTTGCAGAATGGGTCCAGTAAATCTGCACTCATGTTATCCAACGATAAGTCTCCAACAAAACAAGGGAATTCTGTTACCTTAGAGGATTTAGCAGTACAGCAAGTGGTTGAACATTTATTAGATAATGTTTGCAAACAAGAACAACAGGATGATGAAGAACCTCAAAATACTGCCGACTTATTACCTCCTGAAGTAAAAGATGCTATTTTCGAAGATTTGAACCATGATTTACTGGATGGTATATCCATGCAAGATATATTTCAAGACTTGAGACATGAATTTTACGGTATAGTTGTACAATCCGAAGACAAAAGTAATGATAAATCAGATTTGCGTCCTACTGATATCATTGACGAATTACTTAATGCAAGATTTGAATCAGGAAGCAAAGAATTGAAAAGAAGTAAATCTGAGATGCTGCTTCAAACTCATGGCCTCAAAAATTTGACAACTGGTCGTGGTCAACAAAGATCAAGCAGTTGGAACAATAAATTTGATACAAGTTTATTGTCATCTACTATAAAACGATGTAAAATTGGAAAAGCATCTACAGTAACAGAAAAACTTAATCCTGCCCAAAGAGGAGGAATAGTAGTTGAAAACCAAACTGTAGCAACAAAGGAAGCCGAAAGTACTAATTCGAGGTCGGAAGAAAAAAAAGCGAAAGTAGATCGTTGCTCCAATAATGTATGCGATGAAGTGCCTCACACGTCTGGTGTAAACTACCGTGAAACTAAAGAAAAAGAAGAATCTACGGCAGTAAAAAATGATAAAACCGAAGGGTACTTTGCAGATGTAATAGACTTCTATACAAAGATACAGTGTAGTCCCATAGCACAACTAGATGGTACTGAAGATTGGTCAGGATCTGAGAGTTCCTGTGGTTCACGTCCAAGCAGCCCCCGAGAAAATGATTTTTCTCCTATTCAGCAACTAGATGGCGCAGAAGATAATATTCCAGGTGATACACAGAGAAGTCAAACAAATCAATTTATGTATAGAGCCAGTGGGACAGAGAGTTACACAGTCACATTTGCTGGGAATTCGGTTAATGGGCAATCAGAGCTTGTTATGAGATCGTTTGAAGATCCTTCAGGGACGATAAATCAAATGGAACAACCCGTGCGATGTGATAGATGTCAATGCACTTATAGAAATAAAGATTCTTATGACAGACATGTGCCATCTTGCGACATGGTGTCAACTAGTGAAAGTGAGAGTGAAAATCCTAAATCGCCAGAAAATCGAACATTAACAACCCTTCAAAATGCTTTTCAAGGTGCTTTTGCACAACCAATGATTATTCATGCAGGAGTTGTCAGTGGCTCAGAAAACACTGTAAAAGCTGAAAGCATATCAGCCAGAAGAACATCTATCAATACGAGGCAAATTACCATTAATGGAACAATTGTGGAAACACCATCTCCGGGACCTTCAAACGAAATGACTATGACAATTACAGAGCAAATGAAATCTGGAACTGTAATATTTGATCAAAGTAAGACTACTAACGTTCAAGTGTCCACTAATCAGCAAATGATGCCATCGCCACAAATCGTTGTTACTCCTCAAATGCTGCTGCCCAACAAATCGAATTCTGGGGCAGGAAAAATGATGACACCTCAAATAATTACACAGCCCGGAATTTTACCATACAATATTTGTGTTAAACAAGGAAACACTAACATACAACAAATTCAAGGAAGTACAGATATGACTCAACTTTTATCTGGATCAGGGGGTATACAAGTTATATCATCGAATTCCAACCAAGTACTTACAATACCTTCAAATCAACAGGGTAATATTACTCCCATTATCCAGGGTAAAAATCAAGTGGCAAATTTCCCAAACATGGCCAGTGCTTCGTCAATAGCTTTACCTGTTAATTCAATACAAGGAATGCCAAATTCTTCTATTATTCAAAATATCCAACCAATGATACGACCATCTAATCCAACCATTGTTGTACCTGCAGTGTCGGCACAAAGACTAGCTTCACCAAACACACACAAGCAACAGATTTTAATGCCTGGAACCCAAAAATCTCCAAAGAAACAACCGACTCCCGTTCAGCCTAAACCCATTTTTCAAACAACGAATAGGCCAAGAGGTCGACCGATACCCAAACCCGCTTCAGTAAAACGACACACTAAACTAGAAAAAACTTTCACGACAATCAATCAGACACCCATCGGCCCCGGAAATACAGTGATTCAATTACAAACTAACAATCAAACAGGTCAGCCTTCAATAATTGTGCAACCTGTAGCCAACCAGAACATTATGTCGGCCTATGTTGAAGCACTATCTCAACAACAAAATCAAAATATGCAATATATCGCCACAATTGCACCTCAGGGAGATTTTAAGACAGGACCGACACAGTTTATATCACAAGGTGGTCTTGTACCTCAAACGTTCCAAATACAACAGACTGAATCTGGAGGATTAGTTGCTGTGCCTAGTGGGGGAATACCAGTATTACTGCCCCAAGGAAACGTCGGAATCTTGCCACAAACTATTCAGCAGGGAGCTACCATCTTACCCCAAGGAGCAATACAGACACAAGGAATAATTTCGCAGGGACCAAATGGACCTACAATTTTACCTCAAACGATTCACACCCAAAATGGTGCAACATTAATACCACAAGGTACACTACAAGGTTTGGCCCCTGGGAATATTACAACGCAAACCGCAACGCTGCTCCCAAATAATACATTGCAGACGGCAGGTGCTACTGTCGTACCACAGAGTGGAATTGGGAATGGTCAAACCACTATAATACCTAATGCGTTACAAACACAAGGTAATACTTTGACAGGTGCAACTATTCTACCACAAGGTACGCTTCTGCCTCAGTTCTGCAACGATCAAGTTTTGCTCGGATCGACACCAACACTGGAAATGGTGACGGATTCATCTGGATGCATGTATTTAACTACGACGCAACCTGTCTATTATGGCTTAGAAACGATTGTGCAGAATACAGTAATGTCATCTCAACAATTTGTCTCGACTGCTATGCAAGGAGTGCTCGCACAAAACAGTAGTTTTTCCGCAACAACTACACAAGTGTTCCAAGCCAGTAAGATTGAACCTATTGTAGAAGTACCAACAGGCTATGTTGTTGTGAACAATGTCGGAGATAATGTTTCATCGTCGACGCCTAACGTTGTAACGGCACAATCGGTTCAGTCTTCTCCGGCTTCCATGAAGGCAGTTAAAACTAGCGTTCCCAATCTTACACTGCAACCATTAACCGAGAAAGCTTTAAATAATAGCATCCGTCAAACACCCAAAGTAATCCATATGAGTTCTTCACCTTTAACAATGGGATCGCAGTCGTGCCCTAACTCAATAATGACTGGGAGACAGACAATAAATCCGATAACGTCGCAGATTCACAGTATGACGTTGTCAAACGCTTCGCATAATATTCACCGAGCCGCCAATGTGACTAAACAAAACGTTTCGATGTCTCCTGTCACTCTAGTTTCTTCCACTGGACAGCCCGTTCTGGCAATATCTCAATCGACTCCAAACTCTACGACAACATTTTCAATGCAACCTATACCGCTGTCACAGCCTATAGTCACAAGCTCTATAGCACCATCTTTAAATAAGAACAATGTTAAAACAGAAAACTCCCATGTCATTGAAATTAGTGGCAATTTGCAAGACAATACGAATTCGTCCAATGTACCGACTATAAGTGTGGCACAGAGTATTAAATCACCAACACCTTGGAGACAAATAAGTACGTTAACCAATAATGCTCATACCGAAAACAAGATAGAAATGCAAGGAACAGGAAAAACGAATATTATTACACCATCAATGACCATACAAAGCAATAATATGCCAGGAAGGTCACATTTACACAATGAACATGATAAAATAAATCAAAGTTGTCTTATGACAATGTCAAATAATGGTAATGGTTTATCAAATGTCAATACACACTCTCATCAGTATGAGCCTAATCTCAATGTGAGCCACCATCAGTCCCATTCTTCGAACAATGTTATACATATAGCAGCGGGAAACATATATCCACCTGTATCAGGTATGAGCACTTTTGATGCTGACACGACATTGAAATTGAGTAAGATAAATGCTCTTTCGAAAACTGAAGGAGGTCATCTGAATTTCTCACAAGAAATAATGGCTTCACACTCGCAACATAATGCTAATAATGAAAAATCTTTTCAAAATTTGGGAACAAATGACAACAAACATAATATGGATTGCATGTCGGGTCAAATGAATATACACAAATTAAACAGTTGCCAGATGGCTGGCAGCATGAACAATGCTCCTGCCATTAGTATTATACCTCACAATGTCATGCGTCCACCATCACAAAGTACTCAAAACAATCTACCTTCCAACAATCAAAACCAAATGTGTTCGATTTCAACAAGTTCTTCTCACGGACAAGTGCAGCTATTGAACTCTGGAAACAACTCTATTCAAAATATAAACTTATCTTGTCAGGAAGCTGTAAACAGTAGAATGAATATTGTTTCATCCAATGATAACATGCAATTGAATCATGAAATCACAAATACATCTAATATGCCTCATGGAAATATGCAAATAGTTTCTCATGAAAATAATCAAATGTCATCATCCAATCAGATTCACATCATGAATGGACAAATTCAACACAATCGTCAAATTGATACTAATAATCAACTACAACAGCAAATTAGTCAAAACAGCTCTGGAAGATCTTTCCATGAAAATATGATGAGCTCCCAGCAAAATCACAACCAAACCATGATGTCCATCCGTAACACTCCTGACAGTAATGACCTTATAAATCAGTCTATGAATATGCACAATTTAGGCAGCAATGCACATCCCAACAGATCGGAAATAAATGATCACAATCATATGCAAATGCAGCAAGCAATGTCAAATATGCAAAATAATAGAATATTAATGGATAATATGCAACCTCACAATTTGAATAACCATAACCACACCATACATTCCAATCGAGGGATGGACAACATGCATAATACACAATTGCAAAACATGCAACAAATAAACCATCATATGAATAGCAACAGTCGTTCTTTGATGGAAAATAATATGCATGTAAACCAGCAGATGAATATGCAACAAAACAGACAAATCGACAATTCAGGCATGCATCATCAACATCAAATGCCCAATGTCATGCAAATGCAAAATAATCGCCAACACAATGAGAGCAATATGATAAATTTGCATCAACATGTAAATCAAATGCATAATAGACAACAAATTGAAACTTCTATGCATATGCATCATATGCCAGCAAATACAACAAATATGAATTTAAATCAGATGGATAATTCTGGCTCACTACCATACATACACGGGAACAGAAATGACAACAATGCAATGGCAATGCAAGGGATGAATGTAATGAATCAAATTCAAAACAATAGATGTGCAATGGATCATTCATCAATCATGCAACACCAAATGAATAATATGAGTTCTATGAATAACATGAACATGCACAATAATCTAAGTAATGCAATGCAAATGAATAACGTAAATCATCAATCTATGAATACTTCATTGATGCACGTTCCTAACATTCCGGATATTAAAACAGAACTTCAAAATTCATGCAGTGGAAGTTGTTCTAGCAATAGTTCTCTCTTCTCTGCAAATCAGAATTCAATGGAAATCTGTTCCAACATGAACGCTCCCAATATGACAATGGGTTCGAGTACGATGTTGCATGGTATGAATGCAAATAATCCAAATATGTCTTCTAGTAATATGATGTTGAATAATATAAATAACAGCAACAATATGTTTGCAACGGGCGCTCAAAACAATATAAATAGCCACGATATGTTGATGAATTGCACCAACGCCGCCGATCATAGTGTCGCTGGCCTGTTGTCTGGAACACCTAATCATAGTATGATGATGAACAGCCCTCAAACTCATGCAACAAATAATGCAAGCCAATCGTTAAATACCCAAATTAGTAACAATTCCCAAGTGAACCTGAATAATTGTAGTATGGCTGCTAATAATGCGCAAAACCCAAATGTACCAAATATGGAGGGTCAATTAAACAGAAACAATTTACCGGTAGAACCACCTAAATTCACCCAGGAACCACTAAGAGGCAAGAATATGATGAGCTCTGCAACAAATAATAATATCTCCATTCCTAATATTCCTAACAATGATTGTGCTAAAGTTAATATCGTCAATAACGACAAGCCGAATCACAACATTTCCGTAAATAATCAAATCGGATATATGCAGATGAATTCACAAAACAACAGAATTATAAATTTACCAGAGAGAAACAACAGACTAAACAATACAAGTATAGACAGCAATATTTCGCAACATGTCCAACAACAGCACAATATACGTGTGGTTACAAATAACAGCAACGGTAATGTAAGCGGAATTGCAAACGATCCGATATCATTCCAGCAGAAGAATGAAAGTTCTGGAACCACAATAAACGTACCTTTTCAAGCTATTCCAAACAGTGCCCCGATGAACATCAACGTGAATTCTAGTAACAACACTGTTAATATAACCGTACAGAATAACCTTGTCGACCCTAAAATAGCTTCAAAAGGTGCTGCGGATATCAGTTTTCCATTGCAAAACAATGCGAATATTTTGCCAAACCAAAATTCCACAAACAATATGATTTGCATTCCAGTACAGAATAATACTATAAATTTACCAACACAGAACAGTTCCAGTATCACTTTACCTAAAGCACCGCCAACTCAACAATCCGGTATACCGACAAATGTTGTGAATCCAATGTCCATGCGACCCATGAACAGAGTATTGCCACTACACAGGGACTGTCAAAGCAAATCGGCTACGAAATCGTCACCTTCGACAAAAACTTTACCAGTGCCAAAACAAAGACCAGTTAGTCATGATATGCCAGATCTAAATATAAAAGACGAAACAATTGACAGTGACCTCGAAAAAGCCATTGAAGAATCCAAGCGAATGATGGAACTTGAAAGGGCTAATAGAGAAAAAGAAGAAAGAGACGCCACTCAAGCTATGCAGCTATCAACTGAACTGAACAGAGCGAACACGAGCTCCGCTTCAGATAACGAGACTATCAGAATAAATGCTCCAGCTGAAATTAAATCTAAGGAATCTTCACTACCAAGCTTAGATGCAGAGATGATCGAAGTTCAACCACCAAGAATATTGATAGAAAAGGACAGAAATAAAGCGCCTGCACCGGCTAAATTATCGACCGCTACAACAAAGCTGTTGAAAAGACCTATACACCACACGGATAAGAAAAATGAAAATGAAACAGTGACGAAGAAGCCCAGCAAGCTTTCTAAGGAAAATAAACCTACTCTGTCCAAGCCGGGTCCGGATATTCCAAAAGATGATGGGCCCAAATTGATTTATGAAGTCTCTTCAGAGGATGGATTTAATTATACATCATCATCATTGAATGATCTTTGGGCAAAAGTAATTGAAGCTGTACAAAATGCAAGAAAACAGTCGGGACTACCACTTATACAATATAATTTACCACCTAGCACATCCGGAACCCATCTTTTGGGACTCAACAACAATGCGCTAAGATATCTTGTTGAACAACTGCCTGGGGCAAGCCGTTGCATCAAATACAAAACACGACAGGGGCGACAATTGAATAGCTTGGATACGGATTTAGACCTTAGTGAAGGATTCAAAGAGAGCCCCTGGGGAAGCGCTAGAACAGGGCCCATAGCGAGGAAACCTAATCACGACATGTTCAGCTGGATGGCCTCACCTTTCAGAGAGGAACCGCCTCCGTTTGGTGGTCAAGAGACTGAGAGCTCGATTTCTAGACGTTTAGCGACTTTACCGCCGGCGATGAGATTCAGACAACTGAAAGAAACTTCTAAGATATCAGTCGGCGTCTACAGGTCGCACATTCACGGACGTGGCTTATTCTGCAAACGTGATATCGAAGAAGGTGATATGGTGATCGAGTACGCGGGAGAAGTGATCCGCGCCGTGCTGGCGGACCAGCGCGAGAAGCGTTACGAGGCGATGAGCGGGCGGCGCGGCGTCGGCGGCTGCTACATGTTCCGCATCGACGACAACCTCGTGGTCGACGCCACGCTCAAGGGAAACGCAGCGAGATTTATCAACCACTCCTGTGACCCGAACTGTTATTCGCGGGTAGTTGACATCCACGGTCACAAACACATTCTGATCTTCGCTCTGCGTCGCATCACCGTGGGAGAGGAACTCACCTACGACTACAAGTTTCCTTTCGAGGAAGTGAAGATTCCATGCACTTGTGGCGCAAAGAAATGCCGCAAATATCTCAATTGA
Protein
MGRSRFPGKPLKFQNRKRISVLSGTVYHETAAEGPPARSVAANDFAGEQEEEEKKEANNEVKNEIEATENELSQPNKKQDSKSIHTSKSPVRTRSQNKMEATKADKPVKKTVTFGTVESCEDIFFPLKKLPSKHHAPLVPIIKKKSLLKQTEYSTFNSILKPAKLTDLSSKSSSEHQEGYLRKNLNPLSKPMNKFSQLSENRCISPPPRNSSPVERDNNGTTTKFVLPVRSAHSSRVIKPNKRFIDGEEPTAITSIISSGKVLKKPKLKRLVFNNIHNDDDETPDEDELNKIIEAEKNKEKSVLKTSSLFKDKTTNSFLSLNSGSRKGVHDLFSYDKEREHQDENSNVECSEKVKTTESAKDDRSGHAMRKLMDISDASSSSSTSSGSESEESWESDSAEGSGEELDKPILPSPDKDKSASQLLSGKVIIREARLQLNSPAQTTSGLDGPFSMLTSASSNNPPTTVTCGVCGAVRFYRFVKQARKFGIYSCESCRKFITKLLKRDKMAHRMGPVSMHCLKGEGNCHVPPIVRSQQWKLLRCTNKTRCPACWLKMCLKAFQVPPSIRASLTAMLPPNMRPSVKPTPLSPANPLRVPTTNAAVTSQPVFGLSVNDNETNIFGSLTSTKKTVEEPEKVEEKVSKEQSNTEENNEDFCASRKRQLTRIKVRKKDKSEAKQIEDPKRQKMELKGPRVKHVCRSASIVLGQPIATFPTMEEKDKHDKVISEEDNTVSTIDKDIEAPDLSSEESEVDLENKVPQIILEAVSVKDVEESPVEPKKRKVDPLLAKQGKAESSEDETVMDLIPKKTIQKPLSNITNVRGRTQKCGQNRPELICVDFWESYDPDEVCNSGFGLIGTLPFTVAKLCFLCGSAGQEKQMVVCSSCCEWYHTWCAEDASGGRGWRCARCACCAVCERAAARLRCRLCAAPHHAICLPAAPPDHRSDWPQICSACLKCKSCESTRVSKFVGSLPFCGPCFKLRQKGNYCPLCQACYRDNDFDSKMMECGWCGRWVHASCEGLSGEEYQLLSALPPSIEYICCKCMPHDPPWRKMLTEHLKGRLLHLLKLLAKSKKACALLKLTPHKNTPIANKPYRITSPQAIRKLHFESEDDSLKTTETKVYRNSSRGKRNNAQTKDDTTESQVWRCSSLLADVDMEKEDIPHTSHKVVNLQEPLMQNKEVCFSTGLYGTKTEFDAPCVEVHENYPSQKQNDKATTMLPASPNVEKYCDDETVRSFPQARSEQDLSPAIVRINDTIVAEMTENNKMVSPSLLDIKKRVNNDEYVSLKDFNHDMKEVITRTVNDDLKKIYKDLFSETFPWFDCENNCLQPNLEVEGELEDSESLKDDDMSDNKGLKASAQSIERPQDQIVPKIENDENKIEEDLIDFYPVFDSRTCVLCKVVGDATPSMEGRLLYCGQNDWIHANCALWSAEVFEEIDGSLQNVHSAISRGKMIKCAACETKGASVGCCAKNCSETYHYACARKQTCAFMDDKRVFCPTHGKDVPKKSLQKDTDFELTRPVYVELDKKKKRYGEINKVQFILGSLTVNTLGKIVPSVSDYEEFLIPVDFSCTRLFWSCKKPTKIVRYTIKTKLILAEPLPGFDFGVNITVDHNLETHAVDRMMAEIGSWHESLQNGSSKSALMLSNDKSPTKQGNSVTLEDLAVQQVVEHLLDNVCKQEQQDDEEPQNTADLLPPEVKDAIFEDLNHDLLDGISMQDIFQDLRHEFYGIVVQSEDKSNDKSDLRPTDIIDELLNARFESGSKELKRSKSEMLLQTHGLKNLTTGRGQQRSSSWNNKFDTSLLSSTIKRCKIGKASTVTEKLNPAQRGGIVVENQTVATKEAESTNSRSEEKKAKVDRCSNNVCDEVPHTSGVNYRETKEKEESTAVKNDKTEGYFADVIDFYTKIQCSPIAQLDGTEDWSGSESSCGSRPSSPRENDFSPIQQLDGAEDNIPGDTQRSQTNQFMYRASGTESYTVTFAGNSVNGQSELVMRSFEDPSGTINQMEQPVRCDRCQCTYRNKDSYDRHVPSCDMVSTSESESENPKSPENRTLTTLQNAFQGAFAQPMIIHAGVVSGSENTVKAESISARRTSINTRQITINGTIVETPSPGPSNEMTMTITEQMKSGTVIFDQSKTTNVQVSTNQQMMPSPQIVVTPQMLLPNKSNSGAGKMMTPQIITQPGILPYNICVKQGNTNIQQIQGSTDMTQLLSGSGGIQVISSNSNQVLTIPSNQQGNITPIIQGKNQVANFPNMASASSIALPVNSIQGMPNSSIIQNIQPMIRPSNPTIVVPAVSAQRLASPNTHKQQILMPGTQKSPKKQPTPVQPKPIFQTTNRPRGRPIPKPASVKRHTKLEKTFTTINQTPIGPGNTVIQLQTNNQTGQPSIIVQPVANQNIMSAYVEALSQQQNQNMQYIATIAPQGDFKTGPTQFISQGGLVPQTFQIQQTESGGLVAVPSGGIPVLLPQGNVGILPQTIQQGATILPQGAIQTQGIISQGPNGPTILPQTIHTQNGATLIPQGTLQGLAPGNITTQTATLLPNNTLQTAGATVVPQSGIGNGQTTIIPNALQTQGNTLTGATILPQGTLLPQFCNDQVLLGSTPTLEMVTDSSGCMYLTTTQPVYYGLETIVQNTVMSSQQFVSTAMQGVLAQNSSFSATTTQVFQASKIEPIVEVPTGYVVVNNVGDNVSSSTPNVVTAQSVQSSPASMKAVKTSVPNLTLQPLTEKALNNSIRQTPKVIHMSSSPLTMGSQSCPNSIMTGRQTINPITSQIHSMTLSNASHNIHRAANVTKQNVSMSPVTLVSSTGQPVLAISQSTPNSTTTFSMQPIPLSQPIVTSSIAPSLNKNNVKTENSHVIEISGNLQDNTNSSNVPTISVAQSIKSPTPWRQISTLTNNAHTENKIEMQGTGKTNIITPSMTIQSNNMPGRSHLHNEHDKINQSCLMTMSNNGNGLSNVNTHSHQYEPNLNVSHHQSHSSNNVIHIAAGNIYPPVSGMSTFDADTTLKLSKINALSKTEGGHLNFSQEIMASHSQHNANNEKSFQNLGTNDNKHNMDCMSGQMNIHKLNSCQMAGSMNNAPAISIIPHNVMRPPSQSTQNNLPSNNQNQMCSISTSSSHGQVQLLNSGNNSIQNINLSCQEAVNSRMNIVSSNDNMQLNHEITNTSNMPHGNMQIVSHENNQMSSSNQIHIMNGQIQHNRQIDTNNQLQQQISQNSSGRSFHENMMSSQQNHNQTMMSIRNTPDSNDLINQSMNMHNLGSNAHPNRSEINDHNHMQMQQAMSNMQNNRILMDNMQPHNLNNHNHTIHSNRGMDNMHNTQLQNMQQINHHMNSNSRSLMENNMHVNQQMNMQQNRQIDNSGMHHQHQMPNVMQMQNNRQHNESNMINLHQHVNQMHNRQQIETSMHMHHMPANTTNMNLNQMDNSGSLPYIHGNRNDNNAMAMQGMNVMNQIQNNRCAMDHSSIMQHQMNNMSSMNNMNMHNNLSNAMQMNNVNHQSMNTSLMHVPNIPDIKTELQNSCSGSCSSNSSLFSANQNSMEICSNMNAPNMTMGSSTMLHGMNANNPNMSSSNMMLNNINNSNNMFATGAQNNINSHDMLMNCTNAADHSVAGLLSGTPNHSMMMNSPQTHATNNASQSLNTQISNNSQVNLNNCSMAANNAQNPNVPNMEGQLNRNNLPVEPPKFTQEPLRGKNMMSSATNNNISIPNIPNNDCAKVNIVNNDKPNHNISVNNQIGYMQMNSQNNRIINLPERNNRLNNTSIDSNISQHVQQQHNIRVVTNNSNGNVSGIANDPISFQQKNESSGTTINVPFQAIPNSAPMNINVNSSNNTVNITVQNNLVDPKIASKGAADISFPLQNNANILPNQNSTNNMICIPVQNNTINLPTQNSSSITLPKAPPTQQSGIPTNVVNPMSMRPMNRVLPLHRDCQSKSATKSSPSTKTLPVPKQRPVSHDMPDLNIKDETIDSDLEKAIEESKRMMELERANREKEERDATQAMQLSTELNRANTSSASDNETIRINAPAEIKSKESSLPSLDAEMIEVQPPRILIEKDRNKAPAPAKLSTATTKLLKRPIHHTDKKNENETVTKKPSKLSKENKPTLSKPGPDIPKDDGPKLIYEVSSEDGFNYTSSSLNDLWAKVIEAVQNARKQSGLPLIQYNLPPSTSGTHLLGLNNNALRYLVEQLPGASRCIKYKTRQGRQLNSLDTDLDLSEGFKESPWGSARTGPIARKPNHDMFSWMASPFREEPPPFGGQETESSISRRLATLPPAMRFRQLKETSKISVGVYRSHIHGRGLFCKRDIEEGDMVIEYAGEVIRAVLADQREKRYEAMSGRRGVGGCYMFRIDDNLVVDATLKGNAARFINHSCDPNCYSRVVDIHGHKHILIFALRRITVGEELTYDYKFPFEEVKIPCTCGAKKCRKYLN
Summary
Description
Histone methyltransferase that methylates 'Lys-4' of histone H3. H3 'Lys-4' methylation represents a specific tag for epigenetic transcriptional activation (PubMed:12408863). Functions in segment determination through interaction with genes of bithorax (BX-C) and antennapedia (ANT-C) complexes (PubMed:2107543, PubMed:7958911). Acts as an activator of BX-C (PubMed:7924996). Involved in the very early regulation of homeotic genes expressed only in the posterior region of the embryo (PubMed:7924996, PubMed:25310983).
Catalytic Activity
L-lysyl-[histone] + S-adenosyl-L-methionine = H(+) + N(6)-methyl-L-lysyl-[histone] + S-adenosyl-L-homocysteine
Subunit
Interacts (via SET domain) with ash1 (via SET domain) (PubMed:10454589, PubMed:10656681). Interacts with Nup98 (PubMed:25310983).
Similarity
Belongs to the class V-like SAM-binding methyltransferase superfamily. Histone-lysine methyltransferase family. TRX/MLL subfamily.
Keywords
Activator
Alternative splicing
Chromatin regulator
Chromosome
Complete proteome
Developmental protein
DNA-binding
Metal-binding
Methyltransferase
Nucleus
Reference proteome
Repeat
S-adenosyl-L-methionine
Transcription
Transcription regulation
Transferase
Zinc
Zinc-finger
Feature
chain Histone-lysine N-methyltransferase trithorax
splice variant In isoform B.
splice variant In isoform B.
Uniprot
EC Number
2.1.1.43
Pubmed
Proteomes
PRIDE
Interpro
SUPFAM
SSF57903
SSF57903
Gene 3D
ProteinModelPortal
PDB
5F6L
E-value=7.75066e-64,
Score=628
Ontologies
GO
GO:0035097
GO:0044665
GO:0000123
GO:0042800
GO:0005634
GO:0032968
GO:0008354
GO:0005704
GO:0045893
GO:0007482
GO:0016573
GO:0043565
GO:0001654
GO:0016571
GO:0051568
GO:0003700
GO:0008023
GO:0008270
GO:0043966
GO:0042802
GO:0007411
GO:0003682
GO:0005700
GO:0008157
GO:0045944
GO:0042803
GO:0005515
GO:0006355
GO:0016021
GO:0004672
GO:0048384
Topology
Subcellular location
Nucleus
Chromosome
Chromosome
Length:
4411
Number of predicted TMHs:
0
Exp number of AAs in TMHs:
0.00036
Exp number, first 60 AAs:
0.00019
Total prob of N-in:
0.00002
outside
1 - 4411
Population Genetic Test Statistics
Pi
233.158392
Theta
213.289923
Tajima's D
0.160939
CLR
174.224912
CSRT
0.411429428528574
Interpretation
Uncertain
