DK18
30152322
exonic
GGACCCCATTGCAAGGTATGGGAC
AGATGGGATGGAATATGGCCCCAA
DK18
30152322
exonic
GGACCCCATTGCAAGGTATGGGAC
AGATGGGATGGAATATGGCCCCAA
DK18
30152322
exonic
CACATCCAACCCAATTTGCAACTCCA
TGGCAGCAGAAGGAGTGAGCCTGA
DK18
30152322
exonic
CACATCCAACCCAATTTGCAACTCCA
TGGCAGCAGAAGGAGTGAGCCTGA
DK18
30152322
–
intronic
GGACCCCATTGCAAGGTATGGGAC
TGCATCAAGGCAGAGCAATGCACA
DK18
30152322
–
intronic
GGACCCCATTGCAAGGTATGGGAC
TGCATCAAGGCAGAGCAATGCACA
DK18
30152322
–
intronic
CGGAGAAGACGCCGTGGAAAAACA
GTGGCCCCATTCTTGAGCAAAGCA
DK18
30152322
–
intronic
CGGAGAAGACGCCGTGGAAAAACA
GTGGCCCCATTCTTGAGCAAAGCA
DK18
30152322
–
–
intergenic
AGTGGAACCATGCCAGAGGGATGC
GGTGATCGGAAACGAATCCACCCA
DK18
30152322
–
–
intergenic
AGTGGAACCATGCCAGAGGGATGC
GGTGATCGGAAACGAATCCACCCA
DK18
30152322
–
intronic
TGTTCCTTGGTGTGTACCTTCCCCA
GGCTGAGAAACAATTGCAGCCTGATGA
DK18
30152322
–
intronic
TGTTCCTTGGTGTGTACCTTCCCCA
GGCTGAGAAACAATTGCAGCCTGATGA
DK18
30152322
exonic
GCCAAATGGGTAGAGAGGAGAAGGTCG
GTTTCGCGTTTTGAGCTAATATAGCCTCTG
DK18
30152322
exonic
GCCAAATGGGTAGAGAGGAGAAGGTCG
GTTTCGCGTTTTGAGCTAATATAGCCTCTG
DK18
30152322
–
intronic
GGACCCCATTGCAAGGTATGGGAC
GCCATTCCATGTTGCTGCCACTTGAT
DK18
30152322
–
intronic
GGACCCCATTGCAAGGTATGGGAC
GCCATTCCATGTTGCTGCCACTTGAT
DK18
30152322
–
intronic
GGACCCCATTGCAAGGTATGGGAC
AGTTATGCCACGACCAGGGGGCAC
DK18
30152322
–
intronic
GGACCCCATTGCAAGGTATGGGAC
AGTTATGCCACGACCAGGGGGCAC
DK18
30152322
–
intronic
TTTGTCCAAGCCGTCATTGGGAGC
GCACCCATATTTGGGCCAACCACA
DK18
30152322
–
intronic
TTTGTCCAAGCCGTCATTGGGAGC
GCACCCATATTTGGGCCAACCACA
DK18
30152322
–
intronic
TCCGCGTCGATGGAGCTGAAGATT
GAAACCTTCCAGGAAACCCAGGCA
DK18
30152322
–
intronic
TCCGCGTCGATGGAGCTGAAGATT
GAAACCTTCCAGGAAACCCAGGCA
DK18
30152322
–
intronic
GGCTGGTGGGACAGGTTTGTTTGG
CGAGCCTCCAATGGATTCCCTTCC
DK18
30152322
–
intronic
GGCTGGTGGGACAGGTTTGTTTGG
CGAGCCTCCAATGGATTCCCTTCC
DK18
30152322
–
intronic
CCCGTCTAGTGAATGCAAGCGCGTTA
GCACGATGAGTAACCGGTCTTCCCC
DK18
30152322
–
intronic
CCCGTCTAGTGAATGCAAGCGCGTTA
GCACGATGAGTAACCGGTCTTCCCC
DK18
30152322
exonic
CACTGTGACTGGCCTGTTGGAGCA
TCCCATGGGGTTTCACACCACGTA
DK18
30152322
exonic
CACTGTGACTGGCCTGTTGGAGCA
TCCCATGGGGTTTCACACCACGTA
DK18
30152322
exonic
TCTCTGGTATCGCACGCAGGGTGA
GACCATCATCACCACCCCCTCCAA
DK18
30152322
exonic
TCTCTGGTATCGCACGCAGGGTGA
GACCATCATCACCACCCCCTCCAA
DK18
30152322
exonic
GAACGAAATGAGATAAAGGGATTCAGGGA
AAATCGAAAAGGGTGTGCCGCTGG
DK18
30152322
exonic
GAACGAAATGAGATAAAGGGATTCAGGGA
AAATCGAAAAGGGTGTGCCGCTGG
DK18
30152322
exonic
GCGTGGTGAATCGTCGGAATCCAG
GCAGTGGTGAGGAGGTTTCAGCCC
DK18
30152322
exonic
GCGTGGTGAATCGTCGGAATCCAG
GCAGTGGTGAGGAGGTTTCAGCCC
DK18
30152322
–
–
intergenic
GACATAATGTGCATAATGGAACGGGTGA
TCACTGGTGAGACAAGCGAAATTCACG
DK18
30152322
–
–
intergenic
GACATAATGTGCATAATGGAACGGGTGA
TCACTGGTGAGACAAGCGAAATTCACG
DK18
30152322
exonic
DK18
30152322
exonic
DK18
30152322
exonic
CCAGCCGTGTGCAAAACATGAAGT
TGGTTGGCTTGCTAATGTGCCTTC
DK18
30152322
exonic
CCAGCCGTGTGCAAAACATGAAGT
TGGTTGGCTTGCTAATGTGCCTTC
DK18
30152322
–
intronic
TGAAAGACGCTTGGGAGGAGCTTG
TTCAAGGACTTGGCCGGTTCCAAA
DK18
30152322
–
intronic
TGAAAGACGCTTGGGAGGAGCTTG
TTCAAGGACTTGGCCGGTTCCAAA