Sequence & structural information
gDNA(6644)
ATCGGCGGCTTCCCTCCCATCGCCGACATGCCTAGGAAGGAGCGCGACAGCGAGAGCAGCCGCCGCCGGCGGCGGCGGCGGCAGCGCAGCCGGTCGCCGTCCGACTCGGAGGAAGCCTCCGACTCCAGCGGCTCGCCGCGGCGGAGCCGGAGCCGGAACCGCCGCAAGAGCCGCCGGAGGGACACCCCTTCGTCCAGCGACGCGAGCGATTCCCAGGCGTCGGACTCCGGGTCGGACTCCGGCGGCCGGGTCCGGAGGAGGAGCGGAAGCCGGAAGAAGGGGGAGGTCACCGAAGAGCAGATCGTGGAGTACATGGCTAAGAAGGCGCAGAAGAAGGTATTGGGGCGGTGGAGGTTCGGGTTTTCCGTTTGGTTGGCTCCATTGTTGCGGCTAGGGTTTTGATTTCTAACTAACTTGTTGATGGTGGTGGTGGCTGTGCAGGCAGAGAAGGTAGCGAAGAAGATGAAGGCGAATGCTGTGTCGGGGTACTCCAATGACTCGAACCCCTTTGGCGATCCCAACCTGACCGAGAAGTACGCGAATTCGTCCCCCTCTCCTGCCACATTATTCGTTCCATTAGTGGTGTTGCTTAGCTAAGTAGAAATTTGGGCTGAAATTTGTTTGAACTGTGTCACGGATGACATAAACAGGAGGCCAAAAGTTACACTTCCCTTGTTTGTTTGATGCCCTAAAATTGTGTGCAGATTGATGATTACTGTCATTTATTTACATTAGTAAGGCTTGAGCTTACTTATTGATCACTTCATTTTGACACCTACAGCCACCAAGGATACATATATCTTGTATAGAAAAAAAAAAGAAAATGCTCTTGGTTACTTGTGTGGCCCAATAAAAAAAAACTCTAAATGTGGTTTGTCTAAGCCAACTGGTAATTGTATTTGGGGAAGACGTCAAGTTGGTTCGTTAGATATAGGTAGTATTTATCAGTTGCAACATTAACACAGCTAACAACTTACAAGTAAAATCGAGGCTATAATGTTTGTCTAACTAGGTAGTGTACTGGACAAATGTATGAAGGATTGAATTGATAGCTTAGTGAACTACTGATTGAGATCATCTGACTACGGTAGATGTCTTCTGACTTGTTTATTCATTTGTTGCACTCTCTAGAATGAGTTATGAACATTTATGAGAAATCTTTCTCTCAACTGTGAGAAATCTCGTAGAGCATTATTTTGCATACTGTTATCAGTAGACAGTTTTGCAGTCAAGATTTCTAATGTTTAACAATGTTATCATGTGATATGACCATATGGAAATGTTGTTGGCTGCACTTCAGATCCTAATTTTATCCCTACTTGTTGCGTTTGCACTGATTGCTTACTTTGACTGTTCAAAAGTAATACTCTCAACCTTGTATTGGTGCAGATTTGTTTGGCGAAAGAAGATTGAGCGTGATGTATCTCAAGGGCAAAAGGTGGACATTTCTGTTAAAGGTGAAAAGAAGAAACAGAGAGAAAGAATGGTACTTCTTTTTTCCTTTTATTATCCTGAACTTCAAATCTTATGATAGGAGTACCACTGGCATGCTTTCTGAACTTGGAGATGACTCTTCATTGAAATTAACAAAAATAAAGGACTCAAAGGACATTTACTCAATACTACTTGCTTTCATTTTAGGATAATAAAACAATATTATCTCGTGTTACCTTGCCAGATTATAATTATATTGTTATCATCTTATGCAAGTGTCCAAATACATAATAACACGTTGGGGTGAGAATACCTATAGTTTCACCCAAAACAATAGTGAGAAACAACAGATTATGTACTAAACATTTGCATCAGTGCCCAATGCCTTGCCCCAAAGAACTACAGCCTAAAATGTGGATGCATGTAAATTTACACATGAGTAGAGATTATATGGATCTGTTTCTTGCAAGAATGCCATTGGCTGGTTCTTTGCAGAAGCAGTTTTATATTTGATGTTATCTTTCAAGATAGAGTAATATGTCACTAGCCTGCAACTTTACTATTTTATTCTTAATATAGGCTGAAATAGAGAAGGTTAAGAAAAGAAGGGAGGAAAGAGCGATCGAAAAGGCACAGCATGAGGAGGAAATGGTCTGTATATATCTCTCTGGTTACCATTAATCTTCTCTTTGTTTCAAGTAACACTTTTTTGTGGAACTAAATGTCTATAATTGTATTTCTTAGGCATTGTTAGCCAGAGAAAGAGCACGCGCTGAGTTTCAGGATTGGGAGAAGAAAGAGGAAGAGGTTCATATTTTACAACATGGCAAATATCATTTGGTCTCATGCTGAATTAAGCCGGACTTCTTTTATGTAACAATTTTTGTCTTCTATTGCAGTTTCATTTTGATCAAAGCAAAGTTAGATCTGAGATCAGGTTACGCGAGGGGCGCACAAAACCTATTGATGTTCTCCTGAAGAATCTCAATTTCTCAGAAGAATTTGATGTTGAGTTAAACGAGCCCTACTTGGTATTCAAGGTAAATTGAACTTCTCTTACCCACTTGATTATAGTTAACCAAAGAGCCGCTATATGGATGCACCTATCGAGAAGTTACTTTGTATGTATCTGGTTCTCACATATGATGTTCACTCAATCATTAGCTGATGTTGGTGCCAGGCTTTCTTTCATACTATCAAACAAATGCAATAAATTTCAGATATACATCATTAACATTCTGGATTCTCTTCTGAAAGAATGGCTCCCTATAACCAACTGTTTATCCTTCTATAATCTCCAGCTTCATCCGCCTTAAGCGTTACCCTTTTAGAACGTGCAGGAATACTGTGTCCTTGTATTCAAAGTAAAAGGTTCAATGTTTCAATATATCCTAAGATACCTTACATCTTAGAAATAGCCTTAAACATTCTAACGATTCATCATTAACTACATTCTAATTAGAGAGGTGGAAACATGTATCTCTCAATGGGTTTGAAATTTAATCACTCCATCTGTTCTTACTTTACAACTAGCCCAGATCTGAAAGAGTTCCCTTTTCCTTTTAACACTTAAACATATGTGATGTGCTAAATGCAGGGATTAACGGTGAAGGAAATGGAAGAGCTGCGCGATGACATTAAGATGCATCTTGATCTGGACAGGGAAAGCCAAATAAATGTCAAATACTGGGAGGTGTGTCTTTGTCTCAACATTCATTATAATATTACCCTTTACTTGAATAATCATATGAATTCATATGACTGATGTGTATGTTGCATAATGTATATTCCTGTTGATTGAGGTTAGTACCAAATGGCATATAGTCCAAAACAGTAATGCTAAATTTTTGAGATTTTGATAATTATGTTTTGTTGGATCGATCTTTGGCAAAAATATTGTGCCGTAGTATGTCAGAACATATTTTTTAGCTTGTTGTATATATGGTTTGCCTATAGGCCGTAGGTTTTCACAAAAAAAAAACTAAATCAAGTTATTCCTAATATGACAGTAGGAACTAATAATTTCTGTGATTTCATGTTGCTCTCTTGATCTAATTAGCAAGGATGCTCAGGGCTGTTGACCAATTGTCCACTCTTTATTTCAAATTCATCAGGCACTCATGGTGGTATGTGACTGGGAGCTAGGTGAGGCTCGGAAAAGAGATGCCTTGGATCGGGCTAGGGTGCGTGGTGAGGAACCACCTCCTGATGTTCTTGCGGAAGAGAGGGGCTTACATGCAAGTATTGAGGGTGATGTAAAGGATCTTTTGGAGGGTAAGACTTCCACAGAACTAGAAGAGATGCAAAGTCAAATTGAGTCCCAAATGCGCTCTGGAACAGCAAAAGTTGTTGAATACTGGGAGGCCATTCTGAAACGCCTTCATATTTACAAAGCAAAGGTATGCCATGCTTGCAGACACTAAAAGACACTCTTCTTTTCTTCTTGTAGCAAATGTGATTCCATCCATATCACACTATCTTGGTTGTTTCATTTGCATTACACAAATAAAATGTGTTCTGGTATCTTGATTTGACCTTAGTTCTTGCATCATAATCAGATCCTGGTTTGGATTCTTATATGAACTTGTGAAACTGCTTTGCCTAACTTTCTGAATTTGCAGTTTATATGGTTGCCCGGTTTAAATAGTGTATAATAGGTGAAAGCTTACCTTTTTCTGCATTGCAGGCTTGCCTGAGGGAAATCCATGCTTCGATCTTACGGAAGCATCTACATCGTCTGGAGCATCCTGATTCCATTGAGCAGGATAAGGAATCTGAGGATGAAATCGATGCTAAAGAGAAGGATGCAACACATATTGACGATGATGATGATGATGATGATGAAGGTTTAGTTTTATTTCTGTATTTCCAGTCACTCAAATACTCCCTTCCATGCTGTAACTCTAGCGACTATGAGTTCTTATACCTACTTTATGTGTAGATGATAAGCGATATTCGCCTGAACCTATAGCGGAGCAAACAGAGAGTCATTTGGATGAAGAAGACGGATCCTTTTCTCCTGAGCTAATGCATGGCAATGAAGATGAAGATGCAATTGATCCTGAGGAGGACAAGGCAGAACTGGTAGTGTCCTCACTCCTGCTACACTTAGCTTTTAATACTGCCTCCGTTTCAGGTTATAAGACTTTCTAGTATTGTCCACATTCATATAGATGTTAATGAATCTGGGCACACATATATGTCTAGATTCATCAATATATATATATAAATGTGGGCAATGCTAGAAAGTCTTATAATATGAAACGGAGGAAGTAAATGCTAAGAAAATAGTGGTAGTTTTTATGTAGTGAAGTGAACTGCAATTGTTTTACAAATTGGCAGACTTACTATTTATTAGACACTATATTGTGCAAAAAGATGAACAAGCCAGTACAATTGTTTAGGTATCATATAGATCTTTTCTTAAGGCACCAACTGGATTCCCATTGACCCATTCATGTTTACCCTGAGAAAGGCCTTTTAGTTTCATCGTGTACCATAGTACACTTACGGTCATTTGTCAGTGTAAGGTGTTATTATTGGCTTATATATTGGAGTTTACATACATGAAATTTTTATCTCAATTCAGGATTACATCATTAGGTACATTCGTGAGTTGATTGCAGATTTTAAATGTTGGCAATTCATAGAATATTCCTATGCACTTTGAATTAATGTCCAGGATCGAAAACGTGAAGCTGTAGTTATGGAGCATCAAAAGAAAGTTCAGCAGGCCATCGCAGTGAAGACAAGAGTACCCGATGAGATGGAGATGAAAGCAATGAAAGCAATGGGAGCTATGGAGGAAGGAGATGCTGTGTTTGGTTCAGGAGCTGAAGTGAACCTTGATTCACAGGTAACATGAATTTTTTTATATCTAGAGAAACAGCAATGCTATCACTGTACCACCTTGCCTTCTAAACAGAACAGTATCTGATACCCATATTGCAATATTCTGTGTTGTAAAAACTTTGTGGTTGGAATGCTTTTACCAGAGTCCAGCTCTAACTCTGCATACTTTGGCAAGTTTTTAGCCCCTACAGAGCTCATAACCACCCATGTCTGGTAAAAGGTGGTCCTGTTGAATCATGAACCTTATGCAGGATAGCTTTACACTAATTTGTTCATTGAACAACCCTCTACAACATGGTCTGTCACAAAGACCTTCACTGCACTTGTTATTTCCTCATTTAACCCCAAGATCATTTGATCTGGATTGTGCACATAATATTAGCCCAAAGCAATATTGTGGAGGCTGGCTTGCTTTTACATGCTAGAAGATTTATTTAACAACTTAAGTGCATTGATCTGCTTCCAGTGAACTTGAATGCAAGCTGACTTTGTTTCTGATGAAAATATGCCTGTTTAATGTGCTCACAGGTATATTGGTGGCACGACAAGTATCGACCAAGAAAACCGAAGTACTTCAATCGGGTGCATACTGGATATGAGTGGAACAAATACAACCAGACTCACTATGACCACGACAACCCCCCACCGAAAATCGTCCAGGGCTACAAGTTCAATATATTTTACCCTGACCTGGTGGATAAATCAAAGGCGCCAACATACACGATAGAGAAAGACGGGAGCACCGGTGAGACATGCCTCATAAGATTCCATGCGGGCCCTCCATATGAGGATATAGTAAGCCTCTATTCCCATATCTTCAAATTTAATCCTGTAGAGTTTCATGGGCACTTCACTTAATTACTCTGTTTTCTTCACCAGGCTTTCCGTATTGTCAACAAGGAGTGGGAATACTCACATAAGAAGGGCTTCAAGTGCACATTCGAACGTGGGATTCTCCACCTCTATTTCAACTTCAAGCGCTACCGCTACAGGCGATAAAATGCCACGCAAGGAAGACGTTTTGATCTCCATTGTGCTGTTAGAAGTTGGTCTTGCTTTTCTTACCTGAGAGCCCTATGCAAATAGGTTTGCTCGGATACCAACTCTGGAGTCGACTACACATGCTCATCCGAGATCATATGTACTAAGTGAGAACAGGGTAGCATACTAGCATCCCGTACTTATGCTGATTAGGCTCTTTGTTAGCGGTTTGAAAATAGCAACGAAGTCTCCTGTGTACATTGTAACTTCCTTTTTTCTGCTTTGGAAATTGAGTTCAGATGTCAAAAATCAACACATCTTTTTGGTGGCAATCAAACTAATAGTGCGTATATCATTAAACTTCTTGTTTCTGGAAC
cDNA(2405)
ATCGGCGGCTTCCCTCCCATCGCCGACATGCCTAGGAAGGAGCGCGACAGCGAGAGCAGCCGCCGCCGGCGGCGGCGGCGGCAGCGCAGCCGGTCGCCGTCCGACTCGGAGGAAGCCTCCGACTCCAGCGGCTCGCCGCGGCGGAGCCGGAGCCGGAACCGCCGCAAGAGCCGCCGGAGGGACACCCCTTCGTCCAGCGACGCGAGCGATTCCCAGGCGTCGGACTCCGGGTCGGACTCCGGCGGCCGGGTCCGGAGGAGGAGCGGAAGCCGGAAGAAGGGGGAGGTCACCGAAGAGCAGATCGTGGAGTACATGGCTAAGAAGGCGCAGAAGAAGGCAGAGAAGGTAGCGAAGAAGATGAAGGCGAATGCTGTGTCGGGGTACTCCAATGACTCGAACCCCTTTGGCGATCCCAACCTGACCGAGAAATTTGTTTGGCGAAAGAAGATTGAGCGTGATGTATCTCAAGGGCAAAAGGTGGACATTTCTGTTAAAGGTGAAAAGAAGAAACAGAGAGAAAGAATGGCTGAAATAGAGAAGGTTAAGAAAAGAAGGGAGGAAAGAGCGATCGAAAAGGCACAGCATGAGGAGGAAATGGCATTGTTAGCCAGAGAAAGAGCACGCGCTGAGTTTCAGGATTGGGAGAAGAAAGAGGAAGAGTTTCATTTTGATCAAAGCAAAGTTAGATCTGAGATCAGGTTACGCGAGGGGCGCACAAAACCTATTGATGTTCTCCTGAAGAATCTCAATTTCTCAGAAGAATTTGATGTTGAGTTAAACGAGCCCTACTTGGTATTCAAGGGATTAACGGTGAAGGAAATGGAAGAGCTGCGCGATGACATTAAGATGCATCTTGATCTGGACAGGGAAAGCCAAATAAATGTCAAATACTGGGAGGCACTCATGGTGGTATGTGACTGGGAGCTAGGTGAGGCTCGGAAAAGAGATGCCTTGGATCGGGCTAGGGTGCGTGGTGAGGAACCACCTCCTGATGTTCTTGCGGAAGAGAGGGGCTTACATGCAAGTATTGAGGGTGATGTAAAGGATCTTTTGGAGGGTAAGACTTCCACAGAACTAGAAGAGATGCAAAGTCAAATTGAGTCCCAAATGCGCTCTGGAACAGCAAAAGTTGTTGAATACTGGGAGGCCATTCTGAAACGCCTTCATATTTACAAAGCAAAGGCTTGCCTGAGGGAAATCCATGCTTCGATCTTACGGAAGCATCTACATCGTCTGGAGCATCCTGATTCCATTGAGCAGGATAAGGAATCTGAGGATGAAATCGATGCTAAAGAGAAGGATGCAACACATATTGACGATGATGATGATGATGATGATGAAGATGATAAGCGATATTCGCCTGAACCTATAGCGGAGCAAACAGAGAGTCATTTGGATGAAGAAGACGGATCCTTTTCTCCTGAGCTAATGCATGGCAATGAAGATGAAGATGCAATTGATCCTGAGGAGGACAAGGCAGAACTGGATCGAAAACGTGAAGCTGTAGTTATGGAGCATCAAAAGAAAGTTCAGCAGGCCATCGCAGTGAAGACAAGAGTACCCGATGAGATGGAGATGAAAGCAATGAAAGCAATGGGAGCTATGGAGGAAGGAGATGCTGTGTTTGGTTCAGGAGCTGAAGTGAACCTTGATTCACAGGTATATTGGTGGCACGACAAGTATCGACCAAGAAAACCGAAGTACTTCAATCGGGTGCATACTGGATATGAGTGGAACAAATACAACCAGACTCACTATGACCACGACAACCCCCCACCGAAAATCGTCCAGGGCTACAAGTTCAATATATTTTACCCTGACCTGGTGGATAAATCAAAGGCGCCAACATACACGATAGAGAAAGACGGGAGCACCGGTGAGACATGCCTCATAAGATTCCATGCGGGCCCTCCATATGAGGATATAGCTTTCCGTATTGTCAACAAGGAGTGGGAATACTCACATAAGAAGGGCTTCAAGTGCACATTCGAACGTGGGATTCTCCACCTCTATTTCAACTTCAAGCGCTACCGCTACAGGCGATAAAATGCCACGCAAGGAAGACGTTTTGATCTCCATTGTGCTGTTAGAAGTTGGTCTTGCTTTTCTTACCTGAGAGCCCTATGCAAATAGGTTTGCTCGGATACCAACTCTGGAGTCGACTACACATGCTCATCCGAGATCATATGTACTAAGTGAGAACAGGGTAGCATACTAGCATCCCGTACTTATGCTGATTAGGCTCTTTGTTAGCGGTTTGAAAATAGCAACGAAGTCTCCTGTGTACATTGTAACTTCCTTTTTTCTGCTTTGGAAATTGAGTTCAGATGTCAAAAATCAACACATCTTTTTGGTGGCAATCAAACTAATAGTGCGTATATCATTAAACTTCTTGTTTCTGGAAC
CDS(2019)
ATGCCTAGGAAGGAGCGCGACAGCGAGAGCAGCCGCCGCCGGCGGCGGCGGCGGCAGCGCAGCCGGTCGCCGTCCGACTCGGAGGAAGCCTCCGACTCCAGCGGCTCGCCGCGGCGGAGCCGGAGCCGGAACCGCCGCAAGAGCCGCCGGAGGGACACCCCTTCGTCCAGCGACGCGAGCGATTCCCAGGCGTCGGACTCCGGGTCGGACTCCGGCGGCCGGGTCCGGAGGAGGAGCGGAAGCCGGAAGAAGGGGGAGGTCACCGAAGAGCAGATCGTGGAGTACATGGCTAAGAAGGCGCAGAAGAAGGCAGAGAAGGTAGCGAAGAAGATGAAGGCGAATGCTGTGTCGGGGTACTCCAATGACTCGAACCCCTTTGGCGATCCCAACCTGACCGAGAAATTTGTTTGGCGAAAGAAGATTGAGCGTGATGTATCTCAAGGGCAAAAGGTGGACATTTCTGTTAAAGGTGAAAAGAAGAAACAGAGAGAAAGAATGGCTGAAATAGAGAAGGTTAAGAAAAGAAGGGAGGAAAGAGCGATCGAAAAGGCACAGCATGAGGAGGAAATGGCATTGTTAGCCAGAGAAAGAGCACGCGCTGAGTTTCAGGATTGGGAGAAGAAAGAGGAAGAGTTTCATTTTGATCAAAGCAAAGTTAGATCTGAGATCAGGTTACGCGAGGGGCGCACAAAACCTATTGATGTTCTCCTGAAGAATCTCAATTTCTCAGAAGAATTTGATGTTGAGTTAAACGAGCCCTACTTGGTATTCAAGGGATTAACGGTGAAGGAAATGGAAGAGCTGCGCGATGACATTAAGATGCATCTTGATCTGGACAGGGAAAGCCAAATAAATGTCAAATACTGGGAGGCACTCATGGTGGTATGTGACTGGGAGCTAGGTGAGGCTCGGAAAAGAGATGCCTTGGATCGGGCTAGGGTGCGTGGTGAGGAACCACCTCCTGATGTTCTTGCGGAAGAGAGGGGCTTACATGCAAGTATTGAGGGTGATGTAAAGGATCTTTTGGAGGGTAAGACTTCCACAGAACTAGAAGAGATGCAAAGTCAAATTGAGTCCCAAATGCGCTCTGGAACAGCAAAAGTTGTTGAATACTGGGAGGCCATTCTGAAACGCCTTCATATTTACAAAGCAAAGGCTTGCCTGAGGGAAATCCATGCTTCGATCTTACGGAAGCATCTACATCGTCTGGAGCATCCTGATTCCATTGAGCAGGATAAGGAATCTGAGGATGAAATCGATGCTAAAGAGAAGGATGCAACACATATTGACGATGATGATGATGATGATGATGAAGATGATAAGCGATATTCGCCTGAACCTATAGCGGAGCAAACAGAGAGTCATTTGGATGAAGAAGACGGATCCTTTTCTCCTGAGCTAATGCATGGCAATGAAGATGAAGATGCAATTGATCCTGAGGAGGACAAGGCAGAACTGGATCGAAAACGTGAAGCTGTAGTTATGGAGCATCAAAAGAAAGTTCAGCAGGCCATCGCAGTGAAGACAAGAGTACCCGATGAGATGGAGATGAAAGCAATGAAAGCAATGGGAGCTATGGAGGAAGGAGATGCTGTGTTTGGTTCAGGAGCTGAAGTGAACCTTGATTCACAGGTATATTGGTGGCACGACAAGTATCGACCAAGAAAACCGAAGTACTTCAATCGGGTGCATACTGGATATGAGTGGAACAAATACAACCAGACTCACTATGACCACGACAACCCCCCACCGAAAATCGTCCAGGGCTACAAGTTCAATATATTTTACCCTGACCTGGTGGATAAATCAAAGGCGCCAACATACACGATAGAGAAAGACGGGAGCACCGGTGAGACATGCCTCATAAGATTCCATGCGGGCCCTCCATATGAGGATATAGCTTTCCGTATTGTCAACAAGGAGTGGGAATACTCACATAAGAAGGGCTTCAAGTGCACATTCGAACGTGGGATTCTCCACCTCTATTTCAACTTCAAGCGCTACCGCTACAGGCGATAA
Protein(672)
