DK18
30155212
exonic
TGTTTGGTCCTCGCACTCTGCTGG
TCCCTCACACCAACCAGTGCCTTG
DK18
30155212
exonic
TGTTTGGTCCTCGCACTCTGCTGG
TCCCTCACACCAACCAGTGCCTTG
DK18
30155212
exonic
TCCTCCATGGCCTGCAATCTGACC
TCCAGGGCATGATTGTCCCCAAAG
DK18
30155212
exonic
TCCTCCATGGCCTGCAATCTGACC
TCCAGGGCATGATTGTCCCCAAAG
DK18
30155212
exonic
GAAGCCATGCCCTTCACCGGCTAT
TGGTTTTGCGTGATTGAGTAACACAGGC
DK18
30155212
exonic
GAAGCCATGCCCTTCACCGGCTAT
TGGTTTTGCGTGATTGAGTAACACAGGC
DK18
30155212
–
–
intergenic
TGCTGCTGTGGATTTCTCATGCACCT
GTTGGTGATTGTGTGGACTCGGCG
DK18
30155212
–
–
intergenic
TGCTGCTGTGGATTTCTCATGCACCT
GTTGGTGATTGTGTGGACTCGGCG
DK18
30155212
exonic
TGCTTACACTCTGGCCCTTCCCCC
GCGGGAGTCAGCACTTTCACCGAC
DK18
30155212
exonic
TGCTTACACTCTGGCCCTTCCCCC
GCGGGAGTCAGCACTTTCACCGAC
DK18
30155212
exonic
GAAGCCATGCCCTTCACCGGCTAT
TTGGGGCTACTATGCTTTGGGTTCA
DK18
30155212
exonic
GAAGCCATGCCCTTCACCGGCTAT
TTGGGGCTACTATGCTTTGGGTTCA
DK18
30155212
exonic
GGCTTCATGGTGCTCCCTCCAACA
GGGGGAAGGGCCAGAGTGTAAGCA
DK18
30155212
exonic
GGCTTCATGGTGCTCCCTCCAACA
GGGGGAAGGGCCAGAGTGTAAGCA
DK18
30155212
exonic
TCCTCCATGGCCTGCAATCTGACC
TCCAGGGCATGATTGTCCCCAAAG
DK18
30155212
exonic
TCCTCCATGGCCTGCAATCTGACC
TCCAGGGCATGATTGTCCCCAAAG
DK18
30155212
exonic
TGTTTGGTCCTCGCACTCTGCTGG
TCCCTCACACCAACCAGTGCCTTG
DK18
30155212
exonic
TGTTTGGTCCTCGCACTCTGCTGG
TCCCTCACACCAACCAGTGCCTTG
DK18
30155212
exonic
CACCCAGCCCGACCATAGAGATCG
GGGGGTTTGAAGATTCTGTGCCGGT
DK18
30155212
exonic
CACCCAGCCCGACCATAGAGATCG
GGGGGTTTGAAGATTCTGTGCCGGT
DK18
30155212
–
intronic
TTCAATGGCCGCCAATTATGCCTC
TGTTCATCCGAACCTGTACAAGCATCCA
DK18
30155212
–
intronic
TTCAATGGCCGCCAATTATGCCTC
TGTTCATCCGAACCTGTACAAGCATCCA
DK18
30155212
–
intronic
GAAGCCATGCCCTTCACCGGCTAT
GATGGTCATTGTGTGGGCCGTTGA
DK18
30155212
–
intronic
GAAGCCATGCCCTTCACCGGCTAT
GATGGTCATTGTGTGGGCCGTTGA
DK18
30155212
–
intronic
GGCTTCATGGTGCTCCCTCCAACA
GGGGGAAGGGCCAGAGTGTAAGCA
DK18
30155212
–
intronic
GGCTTCATGGTGCTCCCTCCAACA
GGGGGAAGGGCCAGAGTGTAAGCA
DK18
30155212
exonic
GCTCGAGAGAGAGCATCAGCCACCA
CCAGGGCATGATTGTCCCCAAAGA
DK18
30155212
exonic
GCTCGAGAGAGAGCATCAGCCACCA
CCAGGGCATGATTGTCCCCAAAGA
DK18
30155212
exonic
TGTTTGGTCCTCGCACTCTGCTGG
TCCCTCACACCAACCAGTGCCTTG
DK18
30155212
exonic
TGTTTGGTCCTCGCACTCTGCTGG
TCCCTCACACCAACCAGTGCCTTG
DK18
30155212
–
–
intergenic
GCATGGGACCAATCTGAGGAGTTTGT
GGTGTCACCGTTTCAACTAGGAAGAATTGC
DK18
30155212
–
–
intergenic
GCATGGGACCAATCTGAGGAGTTTGT
GGTGTCACCGTTTCAACTAGGAAGAATTGC
DK18
30155212
–
intronic
GCAAGAAACAAAAACCCTAAACCCATACG
GGTCGCTAGGTTTGCCCCACAATG
DK18
30155212
–
intronic
GCAAGAAACAAAAACCCTAAACCCATACG
GGTCGCTAGGTTTGCCCCACAATG
DK18
30155212
–
intronic
CGGAAATCATGGTTTGCATTGGCG
CCAAATGACAACAGAAAGGTGGAACCCA
DK18
30155212
–
intronic
CGGAAATCATGGTTTGCATTGGCG
CCAAATGACAACAGAAAGGTGGAACCCA
DK18
30155212
exonic
TGCTTACACTCTGGCCCTTCCCCC
TCCAACAACTGAAGCTTACTGCTTCCACC
DK18
30155212
exonic
TGCTTACACTCTGGCCCTTCCCCC
TCCAACAACTGAAGCTTACTGCTTCCACC
DK18
30155212
exonic
GTACCCACAAACGACGCGAAACCG
ACCTCTTCAACACCGTCCGAGGCA
DK18
30155212
exonic
GTACCCACAAACGACGCGAAACCG
ACCTCTTCAACACCGTCCGAGGCA
DK18
30155212
exonic
GGATGAAGACTTTGGGGTCTGGCGA
GACGGACGTGGGTGTGGTGGTAATG
DK18
30155212
exonic
GGATGAAGACTTTGGGGTCTGGCGA
GACGGACGTGGGTGTGGTGGTAATG
DK18
30155212
exonic
CCATTCAGCAGTAGGGCGAGCCTG
TGGCCCGTTTGGTGGACAGGATAA
DK18
30155212
exonic
CCATTCAGCAGTAGGGCGAGCCTG
TGGCCCGTTTGGTGGACAGGATAA
DK18
30155212
exonic
GTACCCACAAACGACGCGAAACCG
ACCTCTTCAACACCGTCCGAGGCA
DK18
30155212
exonic
GTACCCACAAACGACGCGAAACCG
ACCTCTTCAACACCGTCCGAGGCA
DK18
30155212
exonic
GAAGCCATGCCCTTCACCGGGTAT
TCCCTGCTATCTTCAAGCAACACCCA
DK18
30155212
exonic
GAAGCCATGCCCTTCACCGGGTAT
TCCCTGCTATCTTCAAGCAACACCCA
DK18
30155212
–
–
intergenic
TGGCTACACAAGATGTGAATGGCG
CGATTGGTCCGATGATTTTGGATGG
DK18
30155212
–
–
intergenic
TGGCTACACAAGATGTGAATGGCG
CGATTGGTCCGATGATTTTGGATGG