Sequence & structural information
gDNA(5103)
GCAAACCTAATCTGATCTGCCTCCTCTCCCCACCTCGACCCGCTCCACCTAGGGTTTCAGCCATCCCCGGCGTGCCCCATCTCCGGCGGCTGCTTCCCCGCCGCGAGCCCGTTCTCGGCAGCGGCTTCCCGTTGCGCGCGCGTCCCATCCTCGCCGGCGCTTAGGCGGCATCCCGACTCGCCCCCTTGAAGGAGGAGCCCTTAGAACTTGGGCACCTCGATGGCCGACGGCGGCGGCGGCGGGGAGGCCGGGTCCGGTGGCTCGGCGCCGGTCTGCAGCTTCGTGAGGAAGCCGCCGAAGAACATCCGGAAGCGCCCGACCGCGCCCGCGGGCTCCGACGACGACGACGAAGACGGGTCCGGCGCCATCGCCGCCGCGCGCGCCAAGAAGGCGCCGTCGTCCACCAGCAAGCTCTTCTTCTCCTCCGCGGACGGCTCGTCGGAGCCCCGCCGGTTCCAGTACGAGTCGTCGCGGACGATCCAGGCCTCCACCGACAGCCGCGCCACCGCCACGCTCGAGACGGAGACGGAGTTCGACCGCGACGCGCGCGCCATCCGCGAGCGGCAGCTCAAGCAGGCCGAGGAGTCCCTGAAGAAGAACCCCTCCGCTCCTGCCTCCAGCTCCGGCTCTGGCTCCGGGGAGGTGTACAAGGGGATCCACGGCTACACGGATTACAAGGCCGGGTTCCGCCGGGAGCACACGGTGTCGTCGGAGAAGGCCGGCGGGTCGCACGGGCCGCTCCGCGCGTCGGCGCACATCCGGCTCTCCGCTCGGTTCGACTACCAGCCGGACATTTGCAAGGACTACAAGGAGACAGGGTACTGTGGCTATGGCGATTCCTGCAAGTTCATGCATGACAGAGGGGACTACAAGTCTGGATGGCAGATAGAGAAGGAGTGGGAGGAGGCGGAGAAGGCCCGCAAGCGCCGCATCGCTATGGGTGGGGATGGTAGTGATTACGAAGCAGGGGAGGAGGATGACGATGATGATGAAGAAGCGTTGCCCTTTGCCTGCTACATTTGCAGGGAGCCTTTTGTTGATCCAGTGGTCACGAAATGCAAGCACTATTTCTGCGAGCACTGTGCATTAAAGGTATGCGGCAGTTTATTCTGTTTTCATTATATGCTTATATTTATGTTTATGTTTCAGTCTGTTCTGCATTCACTATTTATCGATAATCATGAATGCCAACTGACGAATATCTCTTGTAGAGGATCAAATGTAACCATTTACTTGGCTGTGTTGATAGTTCAGACTTCAGACACATAATCTAGGAATGCTTGCAGAAACAAGTGTTAGTCTAGAGTCTAGACTCTAGAGTAAATTAGACAAAACGGTTAGTTTAATGAACGTAGCTCGAGATAAATCTAGGTTTTCTTGGCTAGCGGTGCTTATACCATAAGATTTTGGCCATATGGTTTCACAAGAGCATTGTGCATTGTCAGTGTCATGATGGAGGTTAGTGCTGAAGGTTTTGGTGCTTTGGTCCCACAAAGCAGTGGCTCGACCAGAATACCAGATAGCTCGACAACATCTCATGCAGGTGGTGGGGACTAATGGAGAGAGATGAGAGGTTTGGTTATGGTAGTTTTCTGAACCTAACTATAAAAACCTATGTATAAGTGTTACTGCAAACAAACAAAAATTTATAGTTAGAACTTAGAACTGTAGAAGAGAATAAATGTGAGTGGGATAAGAGAAGGTTTTACCGCTAGAAGCAAGGGCATAGTTTTTTTTGGAGCAGAAGGAGATTTTTCTTGTATTACATTTGATGATAGTTACCGGTCTTTGGAAGCTACTATGAAAGTGTGTGGTATAACATAAAATTCTTCTTTGACAAAATTAAACCCACTTATGAGGCAACTTCTGACATGGATTTTTTTTATGAAGAATATCAAATATGTATATAAAAATCACGATAAAGTTTAGTTACTAACACTAAGTAATTGATTTATATCATGAAACAACGAAATACCATGCAATCTTGGGTGTTGTTACTTTCGTGGAACAAACACTGAAGATAAATACTACTTCCTCCGTTTCACAATGTAAGACTTTCTAGCATTGCCCACATTCATTTAGATGTTAATGAATCTAGATATATGTATGTGTTTAGATTCATTAACATCTATATGTATATGGACAATGTTAGAAAGTCTTACATTGTGAAACGGAGGGAGTAATGCAATACCATTTTGTTTCTCATTTTGTGGGGAATAGTTCTGAAAACTTAGGTGGCTCTTCATTTCTTGTCCAATGTATATGTATGGTGTTGATTATAAAGAAAGGGTCCCACTTAGCCTCGTGTTGGCAAGTTTACAGTTTGTGACAACTGATGCCTCATAAAACCAGTGGTTAAGTACTAGAGACCACATTTTAACTTGCTATTGGAGGATATGCCACTATTTACTCTTATGGCTCTATGTAACCCACCCACAACTCATGATGCATCGATTAGTATAGACATGAGTTTTTTGGGGGCTTGGTACAGTAGGTCTTTTTTGTACATAGACTGCCAATTTGTGATGAGTACCACTACACAAAGTAACCTAACCTTTCATATACTGTGAGTTGGAGAATTTGTCTTGGATGTGAATATTGGGTTAGCTGTAGTTCTGTTGGCTATGTGGTACAATTTATAGGCTTGTTTAGTTTTGTACCTAGGTTCTTATTATGAGGTTATTCTAGATGCATTCTTTGAAACAATAGTTTTGTAAGAATAGCTTCTTCAGGTTATATCTGGTCATATTTCCCGTTTAGAGATGGCATGTGCCACTTGCTTGGGGCAAGGGAGATGACTCGAGAACTGAGTCAGCACTTGTGTGTTAAAACAGCTGCCATGCCGAATGGAAATCATGTCTGGGTGTTATTTTACCTATTTGTTCAAGTGAATTCAGTGTCAAAACTAGACAATCTGAATAGTTGAAGGGGGTTTACATGTGTAATGTATATCATTGTTGGATTCTATTCCTTCTGTGATTTACTGCTGCTAGGCCTTGTACCTGTCTCATCATCTTGCTGTGAGCAAGGGTCAAACTACAGCCATGAGGCAAACAATTAGCTATTTCCTTGAACAAGTCCAGCTGCATCAATCTTTCCAACCTCTAGTCAACTCTTCACTATTGCCAGTTATTGCTCCAGAAGGGACCCATTTTCAGGTCTTGGCTTATCATCTTATCAATAATGGCAAGAGAAAGCATCAGGGAATGTCTAGCAGCTCTTAAAGCCGAAAAGAAGCTTAACTTCTTCCATAAAAGGCTAGCAAGGGAAATGTCTCCTATTGCTCTTGGATCTTATACATGTTCTACACGCACAGGTCATGACACAGAAAGAATGAACGAATGTGCAGGTTTCTGTTAGTGGCTAGTAAAGAAAGGCAGTGATGTATATTCTTATGTTGATGAATCTTTCTTTAAAGAATTCACTCCTCATACATGGTGCATTGACTTAGGTGGCACCGTGCACGTTAAGAATACTTCATGCAGATGGCATTATGTGATGACTGTAAGAGGAGTGTAGCAAAATCTTAGCGTCGCTAACAGAGCAGAGACTCAAGTCAAGACAGTCCTTCAACTTGCATTTAGGAGTCGACTTTAGTCTTTTTTCTTGGTGATGTTCTATTCATTCCCATTGTTGAAATAAACAAGTTATGGCCATCCGGAGAAAGACTGGGAACAAATAAAACATTGTCTCCTAATGCAAGTGGTGAAGCAAAAACTGCCTTAATTTCAATCTCTGTTCCATTGGCGACCCTAAGATGTCACTCCCCTTTTATGGCCCTCACATAACATAATCCATGTAAAGAATTTGTAATATCCACAGTGGCTCCTGAGTCAAATTCACCATGAATTAGGGGTTAATTTAGTAAAGAGATTCATCAACATATGAATTTATTTCATTACCCTTCTTAGCTAGCTTCTGTTTGGAACCTGCATAACCCTTCTGTATGTGTCCTTCCTGCTCGTAGAACTTGCACAACAAAGTTCTAGGAGCAGCATGATTTAGAGGCATTAAAATTACTTGTCTCTGGCTTAAGGTTGAAATGAGGGCTTCTTCTTAGCTTTAGAGCTGCTAGACTCCTTGATGCTTTCTCTTGCCATTGCTGACAAGATGAGCTTTTTCCTTCTGTATCTCAACTTTTTGTGTATCTTCTTCGACTGAACTAGTGAATGACTAATGAGCTGCTATGGACCATTTTTCTTTCTGAATGTTGTGATCTTATATAAATGACATGGACTAAGAGATAAAAAATGGCCATCCATATCCTTTTTAATTAAGTACTTCCTTTTTTTAAGCCTTGAAATGCCAATGGATCCTTCTAGTTTATTTTATTTGATGTGAGTTGTATGCAGAGTGGAATAACGCTGAAAATTTAGATCTTTGTACTGCTTAACTTGGATTAGAACGTGACAGTGAAAATTGAATCAACCATGTTAAAATACTTTTTTTTCTAGAACCTGACTTTTTCAATTCTTTGGTGCACATTGCTGTTTATTTAGTATTGGATTCATGAATTTGATTATGTTGATCATTTCTTAGTGTGTCAGATTGATTATTGTGTTATGTGCAAGTTCCGTTGTGTCATTTGAGATGTTGAAATACGGTTCAGTTGCTCATGTTTCATGCCTCTTATGGCAAAGAAGATTCTGATGATTTGTGTATGTTTTTTGTGTTATTGTTTTCAGCATCACTCGAAGAATAAGAAGTGCTTTGTCTGCAACAAACCAACACTCGGCATCTTCAACGCGGCACAGGAGATCCGCAAGAAGATGGCACAAGACAAGAAGCAATAGTGCCCACTGACAGTTGAAGAATGTGACTTGTACGTTAGAGAGTTGAAGAATCTAAATGATGTGGAATTTTAGATGACAAAGAAAACTACCAATTAGTTTTGCATTCTGTTTATGTAACAATATCTGCTAGCCTACTCTCACTTGCTCGGTTCAGCTCAGCCTTTTGTATGGCAAATGTATTGCTTCTGTGAGGATGTGAATTGTGCAGAGCCCAAATAGATGAGGCAAACATAAAAGGTTCTTGATTTCCTTATCAGATTGTTTGTTGCACGGTGCCTTTTGTCGGCGTCTTGCGGTAATTTTGCTGAGG
cDNA(1510)
GCAAACCTAATCTGATCTGCCTCCTCTCCCCACCTCGACCCGCTCCACCTAGGGTTTCAGCCATCCCCGGCGTGCCCCATCTCCGGCGGCTGCTTCCCCGCCGCGAGCCCGTTCTCGGCAGCGGCTTCCCGTTGCGCGCGCGTCCCATCCTCGCCGGCGCTTAGGCGGCATCCCGACTCGCCCCCTTGAAGGAGGAGCCCTTAGAACTTGGGCACCTCGATGGCCGACGGCGGCGGCGGCGGGGAGGCCGGGTCCGGTGGCTCGGCGCCGGTCTGCAGCTTCGTGAGGAAGCCGCCGAAGAACATCCGGAAGCGCCCGACCGCGCCCGCGGGCTCCGACGACGACGACGAAGACGGGTCCGGCGCCATCGCCGCCGCGCGCGCCAAGAAGGCGCCGTCGTCCACCAGCAAGCTCTTCTTCTCCTCCGCGGACGGCTCGTCGGAGCCCCGCCGGTTCCAGTACGAGTCGTCGCGGACGATCCAGGCCTCCACCGACAGCCGCGCCACCGCCACGCTCGAGACGGAGACGGAGTTCGACCGCGACGCGCGCGCCATCCGCGAGCGGCAGCTCAAGCAGGCCGAGGAGTCCCTGAAGAAGAACCCCTCCGCTCCTGCCTCCAGCTCCGGCTCTGGCTCCGGGGAGGTGTACAAGGGGATCCACGGCTACACGGATTACAAGGCCGGGTTCCGCCGGGAGCACACGGTGTCGTCGGAGAAGGCCGGCGGGTCGCACGGGCCGCTCCGCGCGTCGGCGCACATCCGGCTCTCCGCTCGGTTCGACTACCAGCCGGACATTTGCAAGGACTACAAGGAGACAGGGTACTGTGGCTATGGCGATTCCTGCAAGTTCATGCATGACAGAGGGGACTACAAGTCTGGATGGCAGATAGAGAAGGAGTGGGAGGAGGCGGAGAAGGCCCGCAAGCGCCGCATCGCTATGGGTGGGGATGGTAGTGATTACGAAGCAGGGGAGGAGGATGACGATGATGATGAAGAAGCGTTGCCCTTTGCCTGCTACATTTGCAGGGAGCCTTTTGTTGATCCAGTGGTCACGAAATGCAAGCACTATTTCTGCGAGCACTGTGCATTAAAGCATCACTCGAAGAATAAGAAGTGCTTTGTCTGCAACAAACCAACACTCGGCATCTTCAACGCGGCACAGGAGATCCGCAAGAAGATGGCACAAGACAAGAAGCAATAGTGCCCACTGACAGTTGAAGAATGTGACTTGTACGTTAGAGAGTTGAAGAATCTAAATGATGTGGAATTTTAGATGACAAAGAAAACTACCAATTAGTTTTGCATTCTGTTTATGTAACAATATCTGCTAGCCTACTCTCACTTGCTCGGTTCAGCTCAGCCTTTTGTATGGCAAATGTATTGCTTCTGTGAGGATGTGAATTGTGCAGAGCCCAAATAGATGAGGCAAACATAAAAGGTTCTTGATTTCCTTATCAGATTGTTTGTTGCACGGTGCCTTTTGTCGGCGTCTTGCGGTAATTTTGCTGAGG
CDS(981)
ATGGCCGACGGCGGCGGCGGCGGGGAGGCCGGGTCCGGTGGCTCGGCGCCGGTCTGCAGCTTCGTGAGGAAGCCGCCGAAGAACATCCGGAAGCGCCCGACCGCGCCCGCGGGCTCCGACGACGACGACGAAGACGGGTCCGGCGCCATCGCCGCCGCGCGCGCCAAGAAGGCGCCGTCGTCCACCAGCAAGCTCTTCTTCTCCTCCGCGGACGGCTCGTCGGAGCCCCGCCGGTTCCAGTACGAGTCGTCGCGGACGATCCAGGCCTCCACCGACAGCCGCGCCACCGCCACGCTCGAGACGGAGACGGAGTTCGACCGCGACGCGCGCGCCATCCGCGAGCGGCAGCTCAAGCAGGCCGAGGAGTCCCTGAAGAAGAACCCCTCCGCTCCTGCCTCCAGCTCCGGCTCTGGCTCCGGGGAGGTGTACAAGGGGATCCACGGCTACACGGATTACAAGGCCGGGTTCCGCCGGGAGCACACGGTGTCGTCGGAGAAGGCCGGCGGGTCGCACGGGCCGCTCCGCGCGTCGGCGCACATCCGGCTCTCCGCTCGGTTCGACTACCAGCCGGACATTTGCAAGGACTACAAGGAGACAGGGTACTGTGGCTATGGCGATTCCTGCAAGTTCATGCATGACAGAGGGGACTACAAGTCTGGATGGCAGATAGAGAAGGAGTGGGAGGAGGCGGAGAAGGCCCGCAAGCGCCGCATCGCTATGGGTGGGGATGGTAGTGATTACGAAGCAGGGGAGGAGGATGACGATGATGATGAAGAAGCGTTGCCCTTTGCCTGCTACATTTGCAGGGAGCCTTTTGTTGATCCAGTGGTCACGAAATGCAAGCACTATTTCTGCGAGCACTGTGCATTAAAGCATCACTCGAAGAATAAGAAGTGCTTTGTCTGCAACAAACCAACACTCGGCATCTTCAACGCGGCACAGGAGATCCGCAAGAAGATGGCACAAGACAAGAAGCAATAG
Protein(326)
