Sequence & structural information

gDNA(1858)

GAAGGGCCGCCGCCTCCCCCGCCATCCGCGTGGCCGCCTTCCCCAACCGCAGCGCTCTGAAACACAAACTTCCCCAATCCCCAATCCCCAATCCCCCAATCTACCCCAGCTTTCTCCCGATAATTCTCTCCTCCGATTTCGCCGCCTTCCCTCCCGCTCGGGCCATCGACGCAGCCTCCCCTAAAGAACAACACCTACCCTCTGCCGCGTCGGCGAAGAGATGGGGAAGCACGAGTTCCTGACGCCGAAGGCGATCGCGAACAGGATCAAGGCGAAGGGGCTGCAGAAGCTGCGGTGGTACTGCCAGATGTGCCAGAAGCAGTGCCGCGACGAGAATGGCTTCAAGTGCCACTGCATGTCGGAGTCGCACCAGCGCCAGATGCAGGTGTTCGGCCAGGCCCCCGACCGAGTCGTCGAGGGCTTCTCCGAGGAGTTCCTCGACGCCTTCCTCACCTTGCTCCGCCGCGCCCACCGCCACTCCCGCATCGCCGCCACCGTCGTCTACAACGAGTTCATCGCCGACCGCCACCACGTCCACATGAACTCCACGCGCTGGGCCACGCTCACCGAGTTCGTCAAGTTCCTCGGGCGCGAGGGCCACTGCAAGGTTGAGGACACTCCCAAAGGGTGGTTCATCACCTACATCGACCGCGACTCCGAGCAGGCCGTGAAGGCCAGGCTCAAGCGCAAGAGGATCAAGTCCGACCTTGCGGAGGACGAGCGGCAGGAGCGCATGATTGCACGCCAGATAGAGCGAGCCCAGCAATCCATGGGTAAAACTAATGGTGAACTTGGTGATGATGCTAGTCCGGATGGTAGCGAAGGTGAGTCCGGCAGCGAAGATGAGTATTCGGACTCAGAAAATGACCATGAGGGACAAGAGGAGGATGCAAAAGAAGCCAACAAAGCAGCAGGGAAGATTGCAATTGCACTTCAGCGGGCTGTGCCAGGGCCAAAGGTTAACCCTCTCGATGATAAGCCAAAGGTTAAATTTGGTTTTGAGGAAGAGGATGAGGTGAGCGCGCGGGATAAGGAGAAGGAAGAGTTGGCCAAGAAGAAGGGAAAGGATGCTATAAACGCAGCAGAAGCTAGGAGGTCAGCATTGGATGAGCTGATGAAGGAGGAGGAGAAAGCGAAGGAGCGGAGCAATAGGAAGGATTACTGGCTATGCCCAGGTATTGTGGTCAAGGTGATGAGCAAGTCGCTGGCAGAGAAGGGGTACTGCAAACAGAAGGGTGTGGTGAAGAGGGTGATTGATAAGTATGTTGGGGAGATTGAGATGCTGGAGAGCAAGCATGTTCTTAGGGTCGACCAAGATGAGCTTGAGACAGTTATCCCCCAGATTGGTGGGCTGGTGCGTATTGTTAATGGAGCTTACCGGGGATCTAATGCAAGGTTGCTTTCAGTGGACACAGAGAGATTTTGTGCCAAAGTGCAGGTTGAGAAGGGCCTCTATGATGGGAAGGTTCTTAAGGCCATTGAGTACGAGGACATTTGCAAGATTTTTCACTGAGATATCATGGAATTCCATCTTATTTCTGGAGCATTACTGCTGTCAAATGTCAAACATATGACTATGCAAGCCAATGTGTTGGACCTTTCTGTTAGTTGCCTGACAATGTATGTGCTTGTGCTAGAATTTGTTCTATCGAATATCTTTCACATGTTGATGTTTCTACTTTCTAGTTCTTCCTAGCTGCCGAAAGAACTCTGTGTAAGAAAATGGTCTGATGCTTTCTTGCTTGTTTGGTGATTAGAATGATATGACAATTTTTCAACATGTAATCTCTCCATAATTGTTTCTGATAAAACTTGTTAGTTACCAAATAAAATTTACTCAGCAGTTCTGTTTTTTTTT

cDNA(1858)

GAAGGGCCGCCGCCTCCCCCGCCATCCGCGTGGCCGCCTTCCCCAACCGCAGCGCTCTGAAACACAAACTTCCCCAATCCCCAATCCCCAATCCCCCAATCTACCCCAGCTTTCTCCCGATAATTCTCTCCTCCGATTTCGCCGCCTTCCCTCCCGCTCGGGCCATCGACGCAGCCTCCCCTAAAGAACAACACCTACCCTCTGCCGCGTCGGCGAAGAGATGGGGAAGCACGAGTTCCTGACGCCGAAGGCGATCGCGAACAGGATCAAGGCGAAGGGGCTGCAGAAGCTGCGGTGGTACTGCCAGATGTGCCAGAAGCAGTGCCGCGACGAGAATGGCTTCAAGTGCCACTGCATGTCGGAGTCGCACCAGCGCCAGATGCAGGTGTTCGGCCAGGCCCCCGACCGAGTCGTCGAGGGCTTCTCCGAGGAGTTCCTCGACGCCTTCCTCACCTTGCTCCGCCGCGCCCACCGCCACTCCCGCATCGCCGCCACCGTCGTCTACAACGAGTTCATCGCCGACCGCCACCACGTCCACATGAACTCCACGCGCTGGGCCACGCTCACCGAGTTCGTCAAGTTCCTCGGGCGCGAGGGCCACTGCAAGGTTGAGGACACTCCCAAAGGGTGGTTCATCACCTACATCGACCGCGACTCCGAGCAGGCCGTGAAGGCCAGGCTCAAGCGCAAGAGGATCAAGTCCGACCTTGCGGAGGACGAGCGGCAGGAGCGCATGATTGCACGCCAGATAGAGCGAGCCCAGCAATCCATGGGTAAAACTAATGGTGAACTTGGTGATGATGCTAGTCCGGATGGTAGCGAAGGTGAGTCCGGCAGCGAAGATGAGTATTCGGACTCAGAAAATGACCATGAGGGACAAGAGGAGGATGCAAAAGAAGCCAACAAAGCAGCAGGGAAGATTGCAATTGCACTTCAGCGGGCTGTGCCAGGGCCAAAGGTTAACCCTCTCGATGATAAGCCAAAGGTTAAATTTGGTTTTGAGGAAGAGGATGAGGTGAGCGCGCGGGATAAGGAGAAGGAAGAGTTGGCCAAGAAGAAGGGAAAGGATGCTATAAACGCAGCAGAAGCTAGGAGGTCAGCATTGGATGAGCTGATGAAGGAGGAGGAGAAAGCGAAGGAGCGGAGCAATAGGAAGGATTACTGGCTATGCCCAGGTATTGTGGTCAAGGTGATGAGCAAGTCGCTGGCAGAGAAGGGGTACTGCAAACAGAAGGGTGTGGTGAAGAGGGTGATTGATAAGTATGTTGGGGAGATTGAGATGCTGGAGAGCAAGCATGTTCTTAGGGTCGACCAAGATGAGCTTGAGACAGTTATCCCCCAGATTGGTGGGCTGGTGCGTATTGTTAATGGAGCTTACCGGGGATCTAATGCAAGGTTGCTTTCAGTGGACACAGAGAGATTTTGTGCCAAAGTGCAGGTTGAGAAGGGCCTCTATGATGGGAAGGTTCTTAAGGCCATTGAGTACGAGGACATTTGCAAGATTTTTCACTGAGATATCATGGAATTCCATCTTATTTCTGGAGCATTACTGCTGTCAAATGTCAAACATATGACTATGCAAGCCAATGTGTTGGACCTTTCTGTTAGTTGCCTGACAATGTATGTGCTTGTGCTAGAATTTGTTCTATCGAATATCTTTCACATGTTGATGTTTCTACTTTCTAGTTCTTCCTAGCTGCCGAAAGAACTCTGTGTAAGAAAATGGTCTGATGCTTTCTTGCTTGTTTGGTGATTAGAATGATATGACAATTTTTCAACATGTAATCTCTCCATAATTGTTTCTGATAAAACTTGTTAGTTACCAAATAAAATTTACTCAGCAGTTCTGTTTTTTTTT

CDS(1293)

ATGGGGAAGCACGAGTTCCTGACGCCGAAGGCGATCGCGAACAGGATCAAGGCGAAGGGGCTGCAGAAGCTGCGGTGGTACTGCCAGATGTGCCAGAAGCAGTGCCGCGACGAGAATGGCTTCAAGTGCCACTGCATGTCGGAGTCGCACCAGCGCCAGATGCAGGTGTTCGGCCAGGCCCCCGACCGAGTCGTCGAGGGCTTCTCCGAGGAGTTCCTCGACGCCTTCCTCACCTTGCTCCGCCGCGCCCACCGCCACTCCCGCATCGCCGCCACCGTCGTCTACAACGAGTTCATCGCCGACCGCCACCACGTCCACATGAACTCCACGCGCTGGGCCACGCTCACCGAGTTCGTCAAGTTCCTCGGGCGCGAGGGCCACTGCAAGGTTGAGGACACTCCCAAAGGGTGGTTCATCACCTACATCGACCGCGACTCCGAGCAGGCCGTGAAGGCCAGGCTCAAGCGCAAGAGGATCAAGTCCGACCTTGCGGAGGACGAGCGGCAGGAGCGCATGATTGCACGCCAGATAGAGCGAGCCCAGCAATCCATGGGTAAAACTAATGGTGAACTTGGTGATGATGCTAGTCCGGATGGTAGCGAAGGTGAGTCCGGCAGCGAAGATGAGTATTCGGACTCAGAAAATGACCATGAGGGACAAGAGGAGGATGCAAAAGAAGCCAACAAAGCAGCAGGGAAGATTGCAATTGCACTTCAGCGGGCTGTGCCAGGGCCAAAGGTTAACCCTCTCGATGATAAGCCAAAGGTTAAATTTGGTTTTGAGGAAGAGGATGAGGTGAGCGCGCGGGATAAGGAGAAGGAAGAGTTGGCCAAGAAGAAGGGAAAGGATGCTATAAACGCAGCAGAAGCTAGGAGGTCAGCATTGGATGAGCTGATGAAGGAGGAGGAGAAAGCGAAGGAGCGGAGCAATAGGAAGGATTACTGGCTATGCCCAGGTATTGTGGTCAAGGTGATGAGCAAGTCGCTGGCAGAGAAGGGGTACTGCAAACAGAAGGGTGTGGTGAAGAGGGTGATTGATAAGTATGTTGGGGAGATTGAGATGCTGGAGAGCAAGCATGTTCTTAGGGTCGACCAAGATGAGCTTGAGACAGTTATCCCCCAGATTGGTGGGCTGGTGCGTATTGTTAATGGAGCTTACCGGGGATCTAATGCAAGGTTGCTTTCAGTGGACACAGAGAGATTTTGTGCCAAAGTGCAGGTTGAGAAGGGCCTCTATGATGGGAAGGTTCTTAAGGCCATTGAGTACGAGGACATTTGCAAGATTTTTCACTGA

Protein(430)

MGKHEFLTPKAIANRIKAKGLQKLRWYCQMCQKQCRDENGFKCHCMSESHQRQMQVFGQAPDRVVEGFSEEFLDAFLTLLRRAHRHSRIAATVVYNEFIADRHHVHMNSTRWATLTEFVKFLGREGHCKVEDTPKGWFITYIDRDSEQAVKARLKRKRIKSDLAEDERQERMIARQIERAQQSMGKTNGELGDDASPDGSEGESGSEDEYSDSENDHEGQEEDAKEANKAAGKIAIALQRAVPGPKVNPLDDKPKVKFGFEEEDEVSARDKEKEELAKKKGKDAINAAEARRSALDELMKEEEKAKERSNRKDYWLCPGIVVKVMSKSLAEKGYCKQKGVVKRVIDKYVGEIEMLESKHVLRVDQDELETVIPQIGGLVRIVNGAYRGSNARLLSVDTERFCAKVQVEKGLYDGKVLKAIEYEDICKIFH*

(Click here to access the structure if any)