DK18
30151946
–
–
intergenic
GATGTCCCCCTTCATTCCCTCCCA
TGCATCTGGAACTGGTTTAGGGGCAG
DK18
30151946
–
–
intergenic
GATGTCCCCCTTCATTCCCTCCCA
TGCATCTGGAACTGGTTTAGGGGCAG
DK18
30151946
–
intronic
TGCATGAGTTCAGCTTGCCATTCC
TGGGGAGCAGAACCACAACAGGCT
DK18
30151946
–
intronic
TGCATGAGTTCAGCTTGCCATTCC
TGGGGAGCAGAACCACAACAGGCT
DK18
30151946
–
intronic
CCCTAATCCCTGACCTGCCCGATG
TGAAAAGAACCGACCTTGTTCTCCAAA
DK18
30151946
–
intronic
CCCTAATCCCTGACCTGCCCGATG
TGAAAAGAACCGACCTTGTTCTCCAAA
DK18
30151946
–
intronic
TGCATGAGTTCAGCTTGCCATTCCT
TGAGGCAATGTGGATGTGGCCAGT
DK18
30151946
–
intronic
TGCATGAGTTCAGCTTGCCATTCCT
TGAGGCAATGTGGATGTGGCCAGT
DK18
30151946
exonic
TCAAAGGGAGCAGGTCTTCAGAGCA
GGGTTCTGGGTGTTTACCTTTCTGGA
DK18
30151946
exonic
TCAAAGGGAGCAGGTCTTCAGAGCA
GGGTTCTGGGTGTTTACCTTTCTGGA
DK18
30151946
–
–
intergenic
GCCTGTGACATGGCACGGAAGAGA
GCGTGAGATTGCAATGATCGGCTG
DK18
30151946
–
–
intergenic
GCCTGTGACATGGCACGGAAGAGA
GCGTGAGATTGCAATGATCGGCTG
DK18
30151946
–
intronic
GATGTCCCCCTTCATTCCCTCCCA
TGCATCTGGAACTGGTTTAGGGGCAG
DK18
30151946
–
intronic
GATGTCCCCCTTCATTCCCTCCCA
TGCATCTGGAACTGGTTTAGGGGCAG
DK18
30151946
–
intronic
TGCATGAGTTCAGCTTGCCATTCCT
TGAGGCAATGTGGATGTGGCCAGT
DK18
30151946
–
intronic
TGCATGAGTTCAGCTTGCCATTCCT
TGAGGCAATGTGGATGTGGCCAGT
DK18
30151946
exonic
TGCATGAGTTCAGCTTGCCATTCCT
TGAGGCAATGTGGATGTGGCCAGT
DK18
30151946
exonic
TGCATGAGTTCAGCTTGCCATTCCT
TGAGGCAATGTGGATGTGGCCAGT
DK18
30151946
exonic
TCCAACATGTCCGAGCAACAAGGC
GGACAGTGGCTTTGCTGGTGTGTCC
DK18
30151946
exonic
TCCAACATGTCCGAGCAACAAGGC
GGACAGTGGCTTTGCTGGTGTGTCC
DK18
30151946
–
intronic
TGGAAGCAAGGACAATGCACAAGC
TCAGCTTGAAGACCAGTTTCCGAAAGA
DK18
30151946
–
intronic
TGGAAGCAAGGACAATGCACAAGC
TCAGCTTGAAGACCAGTTTCCGAAAGA
DK18
30151946
–
intronic
TGCATGAGTTCAGCTTGCCATTCCT
TGAGGCAATGTGGATGTGGCCAGT
DK18
30151946
–
intronic
TGCATGAGTTCAGCTTGCCATTCCT
TGAGGCAATGTGGATGTGGCCAGT
DK18
30151946
exonic
TGCATGAGTTCAGCTTGCCATTCCT
TGAGGCAATGTGGATGTGGCCAGT
DK18
30151946
exonic
TGCATGAGTTCAGCTTGCCATTCCT
TGAGGCAATGTGGATGTGGCCAGT
DK18
30151946
–
intronic
ATGGCACTTTGGGCATCCTGCATA
GGGAAGGGGGCATTTTGATAGCCA
DK18
30151946
–
intronic
ATGGCACTTTGGGCATCCTGCATA
GGGAAGGGGGCATTTTGATAGCCA
DK18
30151946
–
intronic
TGGTGTGGAAAGAACACCAAGTGGCA
CGGTGACTCTCGTCGCAAGTACGC
DK18
30151946
–
intronic
TGGTGTGGAAAGAACACCAAGTGGCA
CGGTGACTCTCGTCGCAAGTACGC
DK18
30151946
–
–
intergenic
TGCCATGCTGTCTGTGTTCGTTGC
TGCAAAATTCTTTCCACTGCCTTTCA
DK18
30151946
–
–
intergenic
TGCCATGCTGTCTGTGTTCGTTGC
TGCAAAATTCTTTCCACTGCCTTTCA
DK18
30151946
–
intronic
CTTCACCTGGCCATCACCAAGCCT
CCCAGCTCACATTGAACCATGCCA
DK18
30151946
–
intronic
CTTCACCTGGCCATCACCAAGCCT
CCCAGCTCACATTGAACCATGCCA
DK18
30151946
–
intronic
TGCATGAGTTCAGCTTGCCATTCCT
TGAGGCAATGTGGATGTGGCCAGT
DK18
30151946
–
intronic
TGCATGAGTTCAGCTTGCCATTCCT
TGAGGCAATGTGGATGTGGCCAGT
DK18
30151946
exonic
TCATCGTGCATGAGTTCAGCTTGCC
TGAGGCAATGTGGATGTGGCCAGT
DK18
30151946
exonic
TCATCGTGCATGAGTTCAGCTTGCC
TGAGGCAATGTGGATGTGGCCAGT
DK18
30151946
exonic
ATGGCACTTTGGGCATCCTGCATA
GGGAAGGGGGCATTTTGATAGCCA
DK18
30151946
exonic
ATGGCACTTTGGGCATCCTGCATA
GGGAAGGGGGCATTTTGATAGCCA
DK18
30151946
–
–
intergenic
TGATGTCCCCTTTCATTCCCTCCCA
TGCATCTGGAACTGGTTTAGGGGCAG
DK18
30151946
–
–
intergenic
TGATGTCCCCTTTCATTCCCTCCCA
TGCATCTGGAACTGGTTTAGGGGCAG
DK18
30151946
exonic
TCCAAACGCAGTGTCATGAACCAA
TGGGATTTCAACTTTCCAATTCTCCACA
DK18
30151946
exonic
TCCAAACGCAGTGTCATGAACCAA
TGGGATTTCAACTTTCCAATTCTCCACA
DK18
30151946
–
–
intergenic
TCCAACATGTCCGAGCAACAAGGC
GGACAGTGGCTTTGCTGGTGTGTCC
DK18
30151946
–
–
intergenic
TCCAACATGTCCGAGCAACAAGGC
GGACAGTGGCTTTGCTGGTGTGTCC
DK18
30151946
–
intronic
TTTCCACCAAGGCACCTTCCTCCA
GGGCATTGATTCCTTCAAGGCGGA
DK18
30151946
–
intronic
TTTCCACCAAGGCACCTTCCTCCA
GGGCATTGATTCCTTCAAGGCGGA
DK18
30151946
exonic
TGTGCACTTGTGTTCCTGAGTGGCA
CCGAGCATCCCAATCAAGAGGGCT
DK18
30151946
exonic
TGTGCACTTGTGTTCCTGAGTGGCA
CCGAGCATCCCAATCAAGAGGGCT
DK18
30151946
exonic
TGCGCAAGTTCATCAATGCGATGG
TGCAGCTAACATCCAATCCAACATTGTTCC
DK18
30151946
exonic
TGCGCAAGTTCATCAATGCGATGG
TGCAGCTAACATCCAATCCAACATTGTTCC
DK18
30151946
exonic
CCCTCCCAATAAACCACTGCAGCCA
TGCATCTGGAACTGGTTTAGGGGC
DK18
30151946
exonic
CCCTCCCAATAAACCACTGCAGCCA
TGCATCTGGAACTGGTTTAGGGGC