DK18
30156644
–
–
intergenic
AAGGCAAGTCGGGGTCTTTCCTCG
AGGGCCGGGTCTTGTACACCCCTA
DK18
30156644
–
–
intergenic
AAGGCAAGTCGGGGTCTTTCCTCG
AGGGCCGGGTCTTGTACACCCCTA
DK18
30156644
–
intronic
ATCCGGGTCAGAACCCCAATCTGC
GCTCCTTCGAGCCTGGTTTCACAGG
DK18
30156644
–
intronic
ATCCGGGTCAGAACCCCAATCTGC
GCTCCTTCGAGCCTGGTTTCACAGG
DK18
30156644
–
intronic
ATCCGGGTCAGAACCCCAATCTGC
GCTCCTCGAGCCTGGTTTCACAGG
DK18
30156644
–
intronic
ATCCGGGTCAGAACCCCAATCTGC
GCTCCTCGAGCCTGGTTTCACAGG
DK18
30156644
exonic
ATCCGGGTCAGAACCCCAATCTGC
GCTCCTCGAGCCTGGTTTCACAGG
DK18
30156644
exonic
ATCCGGGTCAGAACCCCAATCTGC
GCTCCTCGAGCCTGGTTTCACAGG
DK18
30156644
–
intronic
GGGGCCAAAGAACACACATGAGCC
GCGAGAGATCATCGCAGGTTTGGC
DK18
30156644
–
intronic
GGGGCCAAAGAACACACATGAGCC
GCGAGAGATCATCGCAGGTTTGGC
DK18
30156644
exonic
ATCCGGGTCAGAACCCCAATCTGC
GCTCCTCGAGCCTGGTTTCACAGG
DK18
30156644
exonic
ATCCGGGTCAGAACCCCAATCTGC
GCTCCTCGAGCCTGGTTTCACAGG
DK18
30156644
exonic
TGGTTGAGCCTTGATGAGACCAGGC
GGGTGGAAAATTCAACGTGGGGCT
DK18
30156644
exonic
TGGTTGAGCCTTGATGAGACCAGGC
GGGTGGAAAATTCAACGTGGGGCT
DK18
30156644
–
intronic
ATCCGGGTCAGAACCCCAATCTGC
GCTCCTCGAGCCTGGTTTCACAGG
DK18
30156644
–
intronic
ATCCGGGTCAGAACCCCAATCTGC
GCTCCTCGAGCCTGGTTTCACAGG
DK18
30156644
exonic
TTGATCATCTCTGGGGCAATCCGC
CCTGGGCTGTACATGCAACTTTCTGC
DK18
30156644
exonic
TTGATCATCTCTGGGGCAATCCGC
CCTGGGCTGTACATGCAACTTTCTGC
DK18
30156644
exonic
ACGGCGGCGAGTAAGGTGAAGAGG
ATGTGGGCACACACACACATGCAG
DK18
30156644
exonic
ACGGCGGCGAGTAAGGTGAAGAGG
ATGTGGGCACACACACACATGCAG
DK18
30156644
exonic
ATCCGGGTCAGAACCCCAATCTGC
GCTCCTCGAGCCTGGTTTCACAGG
DK18
30156644
exonic
ATCCGGGTCAGAACCCCAATCTGC
GCTCCTCGAGCCTGGTTTCACAGG
DK18
30156644
–
intronic
ATCCGGGTCAGAACCCCAATCTGC
GCTCCTCGAGCCTGGTTTCACAGG
DK18
30156644
–
intronic
ATCCGGGTCAGAACCCCAATCTGC
GCTCCTCGAGCCTGGTTTCACAGG
DK18
30156644
exonic
TCACTCCACCCAGATAGCGCCACA
TCCACCGATGCATGGCTCAACAAT
DK18
30156644
exonic
TCACTCCACCCAGATAGCGCCACA
TCCACCGATGCATGGCTCAACAAT
DK18
30156644
–
intronic
TCCCTGTTGACTTGCCCATTACGCA
TGACCCATCCCCTTTTTGCAGCTT
DK18
30156644
–
intronic
TCCCTGTTGACTTGCCCATTACGCA
TGACCCATCCCCTTTTTGCAGCTT
DK18
30156644
–
–
intergenic
ATCCGGGTCAGAACCCCAATCTGC
GCTCCTCGAGCCTGGTTTCACAGG
DK18
30156644
–
–
intergenic
ATCCGGGTCAGAACCCCAATCTGC
GCTCCTCGAGCCTGGTTTCACAGG
DK18
30156644
–
–
intergenic
CCTTGGGTGCCCAACGCACACTTA
TCGGCTAGTATTGCTCCAGAACGGG
DK18
30156644
–
–
intergenic
CCTTGGGTGCCCAACGCACACTTA
TCGGCTAGTATTGCTCCAGAACGGG
DK18
30156644
–
–
intergenic
TTCTTCCTCCGCTGGGCTCAGGTT
CATTGCACACAGTTACCCCATTCCA
DK18
30156644
–
–
intergenic
TTCTTCCTCCGCTGGGCTCAGGTT
CATTGCACACAGTTACCCCATTCCA
DK18
30156644
exonic
TTGATCATCTCTGGGGCAATCCGC
CCTGGGCTGTACATGCAACTTTCTGC
DK18
30156644
exonic
TTGATCATCTCTGGGGCAATCCGC
CCTGGGCTGTACATGCAACTTTCTGC
DK18
30156644
exonic
TGACAAGGGCATGACAAAGGCACG
TGGGACCGAAGGTGTCAAGAGACCAA
DK18
30156644
exonic
TGACAAGGGCATGACAAAGGCACG
TGGGACCGAAGGTGTCAAGAGACCAA
DK18
30156644
exonic
TGACAAGGGCATGACAAAGGCACG
GCAAAGCCCCCTCTAGCGCTTCCT
DK18
30156644
exonic
TGACAAGGGCATGACAAAGGCACG
GCAAAGCCCCCTCTAGCGCTTCCT
DK18
30156644
–
intronic
TGCTGGTTTCCTCCGAGTGGTACCTT
TGTCCAAGAATTCTGCCCAACGCA
DK18
30156644
–
intronic
TGCTGGTTTCCTCCGAGTGGTACCTT
TGTCCAAGAATTCTGCCCAACGCA
DK18
30156644
–
intronic
TTCACGCGGACATTCGGACGATTT
TTCCCACTGGTGTCTTCCACAGCC
DK18
30156644
–
intronic
TTCACGCGGACATTCGGACGATTT
TTCCCACTGGTGTCTTCCACAGCC
DK18
30156644
exonic
CTAGGGCATCAGGGCATGAATCGC
CGCTGGTGCTAGGTTCCAACAACTCG
DK18
30156644
exonic
CTAGGGCATCAGGGCATGAATCGC
CGCTGGTGCTAGGTTCCAACAACTCG