DK11
exonic
DK07
exonic
TGTCGTGTGAAGTATCCACATGAGAGGA
CACGTGTTGGCGACTAAGTTGGGGA
DK08
exonic
TTGCAAGTGCTGCCATATGACCCG
CGGTTCAAGTTTGATCCATCCGCA
DK12
exonic
CGGTTCAAGTTTGATCCATCCGCA
TTGCAAGTGCTGCCATATGACCCG
DK10
exonic
TTGCAAGTGCTGCCATATGACCCG
CGGTTCAAGTTTGATCCATCCGCA
DK18
exonic
CGGTTCAAGTTTGATCCATCCGCA
TTGCAAGTGCTGCCATATGACCCG
DK18
exonic
CGGTTCAAGTTTGATCCATCCGCA
TTGCAAGTGCTGCCATATGACCCG
DK12
exonic
TTGTTGCACTGAAGCCATCCATCA
TGTTGGCCAGAGTTCAGGCTCCTT
DK13
exonic
CACACTGCGAGTTCCAATGTCATCCA
GATGATCGGTCGAGCCACAGCTCC
DK15
exonic
CACACTGCGAGTTCCAATGTCATCCA
GATGATCGGTCGAGCCACAGCTCC
DK16
exonic
GCAGGAGGGTCAACCATCCAAGGAA
AGCTTGAAACAACCTGCGGATGGA
DK07
exonic
GCAGGAGGGTCAACCATCCAAGGAA
AGCTTGAAACAACCTGCGGATGGA
DK09
exonic
CAGATGTTTCTTCTTTGAGCAGTTTGCCC
TGTGGCTCGACCGATCATCCATTG
DK17
exonic
CAGATGTTTCTTCTTTGAGCAGTTTGCCC
TGTGGCTCGACCGATCATCCATTG
DK08
–
intronic
TTGGATGGTTGACCCTCCTGCCAC
AGGGGCATATAGGTTGGGGTGGGG
DK09
–
intronic
TCCAAGCACACACATTTGTTCTGAAAGCA
TTGGATGGTTGACCCTCCTGCCAC
DK12
–
intronic
GCGAGGTGATGGTGATTGTGCTGG
GGATGCTGCAAAGAGCATTGGTGG
DK12
exonic
CAGGGGAACTAAAAGGGGAAAAACCTGA
GCGAGGTGATGGTGATTGTGCTGG
DK09
–
intronic
CCACCAATGCTCTTTGCAGCATCC
CCTGTTGAAATGAATGACAAGTGTGCCTGA
DK10
–
intronic
CCACCAATGCTCTTTGCAGCATCC
CCTGTTGAAATGAATGACAAGTGTGCCTGA
DK14
–
intronic
CCACCAATGCTCTTTGCAGCATCC
CCTGTTGAAATGAATGACAAGTGTGCCTGA
DK15
–
intronic
TCAGGTTTTTCCCCTTTTAGTTCCCCTG
CCCCAGTTTTTCCCCTTTGTCTAGGGA
DK14
–
intronic
TGAAAGCACACACATGGGGTTTGAA
TTGGCACATCCATAGCGCATTTTC
DK13
exonic
TCAAGAATTGAAAGCACACACATGGGG
TTGGCACATCCATAGCGCATTTTC
DK18
exonic
CAGGCACACTTGTCATTCATTTCAACAGGA
TCCACTTGTCCATCATGCACGCAA
DK18
exonic
CAGGCACACTTGTCATTCATTTCAACAGGA
TCCACTTGTCCATCATGCACGCAA
DK03
exonic
CAGGCACACTTGTCATTCATTTCAACAGGA
TCCACTTGTCCATCATGCACGCAA
DK14
exonic
CAGGCACACTTGTCATTCATTTCAACAGGA
TCCACTTGTCCATCATGCACGCAA
DK18
exonic
TCCACTTGTCCATCATGCACGCAA
CAGGCACACTTGTCATTCATTTCAACAGGA
DK18
exonic
TCCACTTGTCCATCATGCACGCAA
CAGGCACACTTGTCATTCATTTCAACAGGA
DK03
exonic
TCCACTTGTCCATCATGCACGCAA
CAGGCACACTTGTCATTCATTTCAACAGGA
DK14
exonic
TCCCTAGACAAAGGGGAAAAACTGGGG
CCACTGGCATTGACTTGGATCCCCT
JPP
exonic
TCAAACCCCATGTGTGTGCTTTCAA
CCACTGGCATTGACTTGGATCCCC
DK08
exonic
TGCCTCTTCGAATTTTTCCCGAGG
TTGCGTGCATGATGGACAAGTGGA
DK19
exonic
TGCCTCTTCGAATTTTTCCCGAGG
TTGCGTGCATGATGGACAAGTGGA
DK19
exonic
TGCCTCTTCGAATTTTTCCCGAGG
TTGCGTGCATGATGGACAAGTGGA
DK14
exonic
CCATGGCTGAGGAACACAGGCAGA
GGGCCCTCAGTGTAACAACAGGGGA
DK14
exonic
CCATGGCTGAGGAACACAGGCAGA
GGGCCCTCAGTGTAACAACAGGGGA
DK08
exonic
CCATGGCTGAGGAACACAGGCAGA
GGGCCCTCAGTGTAACAACAGGGGA
DK11
–
intronic
CCTCGGGAAAAATTCGAAGAGGCA
TGGAAGCATGTTGACTTGGTTTGGGA
JPL
–
intronic
TGGAAGCATGTTGACTTGGTTTGGGA
CCTCGGGAAAAATTCGAAGAGGCA
DK13
–
intronic
TGGAAGCATGTTGACTTGGTTTGGGA
CCTCGGGAAAAATTCGAAGAGGCA
DK13
–
intronic
TGGAAGCATGTTGACTTGGTTTGGGA
CCTCGGGAAAAATTCGAAGAGGCA
DK10
–
intronic
TCCATAAATCAGCTGACCAAGATGCATGA
TGCTGCTTCTCACATTGAGTGCCC
JPL
exonic
GAATCCGCTGGTGGGGGCATATTG
GGGCACTCAATGTGAGAAGCAGCA
DK15
exonic
CAGCATGGCAGTTCAGAGTGCGTG
TGGGGAGAGGGTTGTGTGTCAGCA
DK09
exonic
TGGGGAGAGGGTTGTGTGTCAGCA
CAGCATGGCAGTTCAGAGTGCGTG
DK10
exonic
TCCTGCCTTGAGCTTTTGAGCATGTG
TGCTGACACACAACCCTCTCCCCA
DK02
exonic
TCCTGCCTTGAGCTTTTGAGCATGTG
TGCTGACACACAACCCTCTCCCCA
DK15
exonic
TGCTGACACACAACCCTCTCCCCA
TCCTGCCTTGAGCTTTTGAGCATGTG
DK02
exonic
TGCTGACACACAACCCTCTCCCCA
TCCTGCCTTGAGCTTTTGAGCATGTG
DK05
exonic
TCCTGCCTTGAGCTTTTGAGCATGTG
TGCTGACACACAACCCTCTCCCCA
DK07
–
intronic
ATCCCCCGAACTGTGCGCTAGGAG
TCAGGACTTGAAGTGTGGTGGTGGT
DK10
–
intronic
CAGCTGCTCCTGTTTGTGGACCCAG
TCCTCAAGCAAAAACACATGCTGCAA
DK10
–
intronic
CAGCTGCTCCTGTTTGTGGACCCAG
TCCTCAAGCAAAAACACATGCTGCAA
DK19
–
intronic
CACATGCTGCAAAGGTGCTGCTCT
CAGCTGCTCCTGTTTGTGGACCCAG
DK19
–
intronic
CACATGCTGCAAAGGTGCTGCTCT
CAGCTGCTCCTGTTTGTGGACCCAG
DK11
exonic
CCCCCACCTCCCCCAAATCTATGC
CGTCGCGGGTTGGAACCCATATTT
DK07
exonic
CCCCCACCTCCCCCAAATCTATGC
CGTCGCGGGTTGGAACCCATATTT
DK01
exonic
CAGCTGCTCCTGTTTGTGGACCCAG
CACATGCTGCAAAGGTGCTGCTCT
DK01
exonic
CAGCTGCTCCTGTTTGTGGACCCAG
CACATGCTGCAAAGGTGCTGCTCT
DK15
–
intronic
CGTCGCGGGTTGGAACCCATATTT
CCCCCACCTCCCCCAAATCTATGC
JPA
exonic
TAACCCGACGAGTTGGCTCGCTTG
CCCAAACCTGAATGTTGGGGACCA
JPA
exonic
TAACCCGACGAGTTGGCTCGCTTG
CCCAAACCTGAATGTTGGGGACCA