DK18
30148348
exonic
TGTGGAAGCGGTGGACAGGAGCTT
TCCTTGTCCTCAAGGAATAACCCGAGA
DK18
30148348
exonic
TGTGGAAGCGGTGGACAGGAGCTT
TCCTTGTCCTCAAGGAATAACCCGAGA
DK18
30148348
–
–
intergenic
CCTAAAGATCACTGCCCACCCCCG
CAGGAACGGAAAGGGGGACAGAAA
DK18
30148348
–
–
intergenic
CCTAAAGATCACTGCCCACCCCCG
CAGGAACGGAAAGGGGGACAGAAA
DK18
30148348
–
intronic
TAGTTCGTCCACCCATTCCGCGAC
AATCATGTTGGCAGGGCACAAGCC
DK18
30148348
–
intronic
TAGTTCGTCCACCCATTCCGCGAC
AATCATGTTGGCAGGGCACAAGCC
DK18
30148348
exonic
TGTGGAAGCGGTGGACAGGAGCTT
TCCTTGTCCTCAAGGAATAACCCGAGA
DK18
30148348
exonic
TGTGGAAGCGGTGGACAGGAGCTT
TCCTTGTCCTCAAGGAATAACCCGAGA
DK18
30148348
exonic
TGAGCATGCAGTTGAGGTTGGGCT
GCAGCATCAGCAGCTTTTCTCCAGC
DK18
30148348
exonic
TGAGCATGCAGTTGAGGTTGGGCT
GCAGCATCAGCAGCTTTTCTCCAGC
DK18
30148348
–
intronic
TCTTCCAAGGACTCAACCCAACCCA
TGAGTGGGCTTAAAGACAAGATGGGG
DK18
30148348
–
intronic
TCTTCCAAGGACTCAACCCAACCCA
TGAGTGGGCTTAAAGACAAGATGGGG
DK18
30148348
–
–
intergenic
GGGACCAAAAACTGGATTAAGCCGAA
GGTCGAGCTAGGCTGCTACCAAATGC
DK18
30148348
–
–
intergenic
GGGACCAAAAACTGGATTAAGCCGAA
GGTCGAGCTAGGCTGCTACCAAATGC
DK18
30148348
–
intronic
TAGTTCGTCCACCCATTCCGCGAC
AATCATGTTGGCAGGGCACAAGCC
DK18
30148348
–
intronic
TAGTTCGTCCACCCATTCCGCGAC
AATCATGTTGGCAGGGCACAAGCC
DK18
30148348
–
intronic
CGACTTGCTGACCTGGCAGCCTTC
TGTGGTTGGCAAAGCATGAAATGGA
DK18
30148348
–
intronic
CGACTTGCTGACCTGGCAGCCTTC
TGTGGTTGGCAAAGCATGAAATGGA
DK18
30148348
exonic
TTGGTAGATCCTGCCAGCATGGGC
CAGCAACCATGTCACAGTTCATCGTCA
DK18
30148348
exonic
TTGGTAGATCCTGCCAGCATGGGC
CAGCAACCATGTCACAGTTCATCGTCA
DK18
30148348
–
intronic
GGCAGAGTTCCACTCAACACAGGGC
CACTGTTGCGCCTCACCTTTCTTTG
DK18
30148348
–
intronic
GGCAGAGTTCCACTCAACACAGGGC
CACTGTTGCGCCTCACCTTTCTTTG
DK18
30148348
exonic
TGAGCATGCAGTTGAGGTTGGGCT
TGCCATGAGGGGTTGAGCAAGATT
DK18
30148348
exonic
TGAGCATGCAGTTGAGGTTGGGCT
TGCCATGAGGGGTTGAGCAAGATT
DK18
30148348
exonic
TGTGGAAGCGGTGGACAGGAGCTT
TCCTTGTCCTCAAGGAATAACCCGAGA
DK18
30148348
exonic
TGTGGAAGCGGTGGACAGGAGCTT
TCCTTGTCCTCAAGGAATAACCCGAGA
DK18
30148348
–
intronic
TGCCATACATCAGCAAGTCATTATCAGAAA
GCGCAAGGCCTTATAAACCCCACA
DK18
30148348
–
intronic
TGCCATACATCAGCAAGTCATTATCAGAAA
GCGCAAGGCCTTATAAACCCCACA
DK18
30148348
exonic
GGGAGAGGTCAAAGCGAAAAGCCG
CCTGAGAGCCAAGAATCACAGCATCC
DK18
30148348
exonic
GGGAGAGGTCAAAGCGAAAAGCCG
CCTGAGAGCCAAGAATCACAGCATCC
DK18
30148348
exonic
TGGGGATGACTGTGTGGCTGTGAA
TTCTGCCTGCCCTGGCAAGAGTTC
DK18
30148348
exonic
TGGGGATGACTGTGTGGCTGTGAA
TTCTGCCTGCCCTGGCAAGAGTTC
DK18
30148348
exonic
GTCCCTCCCTCCCCACCAGTCATC
CACCCGCTGCTCCAATTGCAAAGA
DK18
30148348
exonic
GTCCCTCCCTCCCCACCAGTCATC
CACCCGCTGCTCCAATTGCAAAGA
DK18
30148348
–
–
intergenic
TGCCGATGTTTTATGACAACACCAAA
TGGAGTACATACTCAATTCCAACATGGCA
DK18
30148348
–
–
intergenic
TGCCGATGTTTTATGACAACACCAAA
TGGAGTACATACTCAATTCCAACATGGCA
DK18
30148348
exonic
CAATTGTTTGCTTGGGTCCAGCCC
TCTGCACTCCCTCCTTCACAGGCA
DK18
30148348
exonic
CAATTGTTTGCTTGGGTCCAGCCC
TCTGCACTCCCTCCTTCACAGGCA
DK18
30148348
–
–
intergenic
GACAAGATGTGTCTGGCGAACAGTGA
CCAACATGGCAAAGATGAGTATGTGGGA
DK18
30148348
–
–
intergenic
GACAAGATGTGTCTGGCGAACAGTGA
CCAACATGGCAAAGATGAGTATGTGGGA
DK18
30148348
exonic
AATTCAGAAAAGCGGCCACCCTGC
TGCAAAGGCACCTCCTTACTCCTTCA
DK18
30148348
exonic
AATTCAGAAAAGCGGCCACCCTGC
TGCAAAGGCACCTCCTTACTCCTTCA