DK18
30155363
–
intronic
AACTAGCATGCGACCGAATTACTGGAA
TGTCTGCTGTCCAGGCCATGCAAT
DK18
30155363
–
intronic
AACTAGCATGCGACCGAATTACTGGAA
TGTCTGCTGTCCAGGCCATGCAAT
DK18
30155363
–
–
intergenic
CCATGCTCAGAAGTGCAAGGGTGG
TTGATCAGATGCACCTGCTGTGCC
DK18
30155363
–
–
intergenic
CCATGCTCAGAAGTGCAAGGGTGG
TTGATCAGATGCACCTGCTGTGCC
DK18
30155363
exonic
TGGCTTTGATGGACAACTATGCGTG
GCAGGGATGGCCATGAATCCAAAA
DK18
30155363
exonic
TGGCTTTGATGGACAACTATGCGTG
GCAGGGATGGCCATGAATCCAAAA
DK18
30155363
exonic
CCAGCAGAGTGCGAGGACCAAACA
CGCCATGGCTGAAGCAACAAGGTT
DK18
30155363
exonic
CCAGCAGAGTGCGAGGACCAAACA
CGCCATGGCTGAAGCAACAAGGTT
DK18
30155363
exonic
GGCCAACCCAACAACCAGCCTCTT
TGCATCAGCAGGGAGATCAAGCCA
DK18
30155363
exonic
GGCCAACCCAACAACCAGCCTCTT
TGCATCAGCAGGGAGATCAAGCCA
DK18
30155363
–
intronic
TCAACCGTTCCCAATCCACATCACTG
AACCATGACCACTGGCCACGAACA
DK18
30155363
–
intronic
TCAACCGTTCCCAATCCACATCACTG
AACCATGACCACTGGCCACGAACA
DK18
30155363
exonic
TGATTGAGGCTTCAAGGTTGCAGAA
TTGCCCTGATTCTGGCTCGGGTTT
DK18
30155363
exonic
TGATTGAGGCTTCAAGGTTGCAGAA
TTGCCCTGATTCTGGCTCGGGTTT
DK18
30155363
exonic
TCAAACCTGCAATCTGCGAATCAGA
TTTGGTATTTCGTAGCACAAATGGTGTCA
DK18
30155363
exonic
TCAAACCTGCAATCTGCGAATCAGA
TTTGGTATTTCGTAGCACAAATGGTGTCA
DK18
30155363
–
intronic
CGCAGCTTCGAAGGCTTCCACAGAA
TGAAGTGCCAAAGATGTGCCTGGA
DK18
30155363
–
intronic
CGCAGCTTCGAAGGCTTCCACAGAA
TGAAGTGCCAAAGATGTGCCTGGA
DK18
30155363
exonic
TTGCACCTGCAGCAAGCACAGGAT
GCCAATGGAGTGTCGTATCTGACCCA
DK18
30155363
exonic
TTGCACCTGCAGCAAGCACAGGAT
GCCAATGGAGTGTCGTATCTGACCCA
DK18
30155363
–
–
intergenic
CCATGCTCAGAAGTGCAAGGGTGG
TTGATCAGATGCACCTGCTGTGCC
DK18
30155363
–
–
intergenic
CCATGCTCAGAAGTGCAAGGGTGG
TTGATCAGATGCACCTGCTGTGCC
DK18
30155363
exonic
TTTGATACCTGTGGCTGCTCCGGC
TCCTTGACAATAACTGCGTGCCATCA
DK18
30155363
exonic
TTTGATACCTGTGGCTGCTCCGGC
TCCTTGACAATAACTGCGTGCCATCA
DK18
30155363
exonic
GGCAGGGTTGGCTTTGGAGTTGCT
CGTGGCCTGCGACTCTTGGTGTTT
DK18
30155363
exonic
GGCAGGGTTGGCTTTGGAGTTGCT
CGTGGCCTGCGACTCTTGGTGTTT
DK18
30155363
–
intronic
TCAGCCCCCTAACCCCTCTCCTCC
GTGACGCGCCCTAGTTGTGGTGAA
DK18
30155363
–
intronic
TCAGCCCCCTAACCCCTCTCCTCC
GTGACGCGCCCTAGTTGTGGTGAA
DK18
30155363
–
–
intergenic
TCGTCGTGGTTTTCGAACAAGTTTCCA
TGGACTGGAGTGAATATTGGGCTTGGC
DK18
30155363
–
–
intergenic
TCGTCGTGGTTTTCGAACAAGTTTCCA
TGGACTGGAGTGAATATTGGGCTTGGC
DK18
30155363
exonic
CGGCGCAGAGCAAAAGGAATAGCA
AACCGCTTCCTCTCCACCGGAATG
DK18
30155363
exonic
CGGCGCAGAGCAAAAGGAATAGCA
AACCGCTTCCTCTCCACCGGAATG
DK18
30155363
exonic
GGTTGACCGAGAAGGTGGCGACTG
CCCCGATCCACGTTTTCAGAAGCA
DK18
30155363
exonic
GGTTGACCGAGAAGGTGGCGACTG
CCCCGATCCACGTTTTCAGAAGCA
DK18
30155363
–
intronic
TTTTGCACTTGGGCTGAAGGCAGG
AAGCCCATGGGGAAGTTCACGAAT
DK18
30155363
–
intronic
TTTTGCACTTGGGCTGAAGGCAGG
AAGCCCATGGGGAAGTTCACGAAT
DK18
30155363
–
–
intergenic
TCCCTTCTCTTGCACTTTACCCACCG
CCCAAGCCAAAGAGAGCTCCAGCA
DK18
30155363
–
–
intergenic
TCCCTTCTCTTGCACTTTACCCACCG
CCCAAGCCAAAGAGAGCTCCAGCA
DK18
30155363
–
–
intergenic
TGTCCCCGAAGGTTAGCTCAAGTGG
TCTTCAACACCATTTCCAAGTCCAACA
DK18
30155363
–
–
intergenic
TGTCCCCGAAGGTTAGCTCAAGTGG
TCTTCAACACCATTTCCAAGTCCAACA
DK18
30155363
–
–
intergenic
TTCAACCCCATATCAGATGCAGCATTA
CCCAAATTGTAGCAAACTCAGTCACAGGC
DK18
30155363
–
–
intergenic
TTCAACCCCATATCAGATGCAGCATTA
CCCAAATTGTAGCAAACTCAGTCACAGGC
DK18
30155363
exonic
CGAACTCGGTGCTGTATGTTGCGG
ACGTGAGTGTGAGCCAATCGGGGT
DK18
30155363
exonic
CGAACTCGGTGCTGTATGTTGCGG
ACGTGAGTGTGAGCCAATCGGGGT
DK18
30155363
exonic
DK18
30155363
exonic
DK18
30155363
exonic
TGAGGCGGGAAACAACACACCAGA
TGGAATGGCCTCATCATTTTCTGCC
DK18
30155363
exonic
TGAGGCGGGAAACAACACACCAGA
TGGAATGGCCTCATCATTTTCTGCC
DK18
30155363
exonic
TGGTGCAGAGGCCCCTCCTCATAG
GGCATTCAGGCACCCTTTGATGGT
DK18
30155363
exonic
TGGTGCAGAGGCCCCTCCTCATAG
GGCATTCAGGCACCCTTTGATGGT