[Header],,,
FileFormatVersion,2,,
RunName,cgp_dna_exp0014_exp0012_rna_exp0034,,
,,,
[Reads],,,
Read1Cycles,151,,
Read2Cycles,151,,
Index1Cycles,8,,
Index2Cycles,8,,
,,,
[BCLConvert_Settings],,,
SoftwareVersion,4.3.6,,
OverrideCycles,Y151;I8;I8;Y151,,
NoLaneSplitting,FALSE,,
FastqCompressionFormat,gzip,,
,,,
[BCLConvert_Data],,,
Lane,Sample_ID,Index,Index2
1,dna_s731,GAGCAGTA,ACAGCTCA
2,dna_s731,GAGCAGTA,ACAGCTCA
3,dna_s731,GAGCAGTA,ACAGCTCA
4,dna_s731,GAGCAGTA,ACAGCTCA
1,dna_s732,AGTTCGTC,GATCGAGT
2,dna_s732,AGTTCGTC,GATCGAGT
3,dna_s732,AGTTCGTC,GATCGAGT
4,dna_s732,AGTTCGTC,GATCGAGT
1,dna_s733,TTGCGAAG,AGCGTGTT
2,dna_s733,TTGCGAAG,AGCGTGTT
3,dna_s733,TTGCGAAG,AGCGTGTT
4,dna_s733,TTGCGAAG,AGCGTGTT
1,dna_s734,ATCGCCAT,GTTACGCA
2,dna_s734,ATCGCCAT,GTTACGCA
3,dna_s734,ATCGCCAT,GTTACGCA
4,dna_s734,ATCGCCAT,GTTACGCA
1,dna_s735,TGGCATGT,TGAAGACG
2,dna_s735,TGGCATGT,TGAAGACG
3,dna_s735,TGGCATGT,TGAAGACG
4,dna_s735,TGGCATGT,TGAAGACG
1,dna_s736,CTGTTGAC,ACTGAGGT
2,dna_s736,CTGTTGAC,ACTGAGGT
3,dna_s736,CTGTTGAC,ACTGAGGT
4,dna_s736,CTGTTGAC,ACTGAGGT
1,dna_s737,CATACCAC,CGGTTGTT
2,dna_s737,CATACCAC,CGGTTGTT
3,dna_s737,CATACCAC,CGGTTGTT
4,dna_s737,CATACCAC,CGGTTGTT
1,dna_s738,GAAGTTGG,GTTGTTCG
2,dna_s738,GAAGTTGG,GTTGTTCG
3,dna_s738,GAAGTTGG,GTTGTTCG
4,dna_s738,GAAGTTGG,GTTGTTCG
1,dna_s739,ATGACGTC,GAAGGAAG
2,dna_s739,ATGACGTC,GAAGGAAG
3,dna_s739,ATGACGTC,GAAGGAAG
4,dna_s739,ATGACGTC,GAAGGAAG
1,dna_s740,TTGGACGT,AGCACTTC
2,dna_s740,TTGGACGT,AGCACTTC
3,dna_s740,TTGGACGT,AGCACTTC
4,dna_s740,TTGGACGT,AGCACTTC
1,dna_s741,AGTGGATC,GTCATCGA
2,dna_s741,AGTGGATC,GTCATCGA
3,dna_s741,AGTGGATC,GTCATCGA
4,dna_s741,AGTGGATC,GTCATCGA
1,dna_s742,GATAGGCT,TGTGACTG
2,dna_s742,GATAGGCT,TGTGACTG
3,dna_s742,GATAGGCT,TGTGACTG
4,dna_s742,GATAGGCT,TGTGACTG
1,dna_s743,TGGTAGCT,CAACACCT
2,dna_s743,TGGTAGCT,CAACACCT
3,dna_s743,TGGTAGCT,CAACACCT
4,dna_s743,TGGTAGCT,CAACACCT
1,dna_s744,CGCAATCT,ATGCCTGT
2,dna_s744,CGCAATCT,ATGCCTGT
3,dna_s744,CGCAATCT,ATGCCTGT
4,dna_s744,CGCAATCT,ATGCCTGT
1,dna_s745,GATGTGTG,CATGGCTA
2,dna_s745,GATGTGTG,CATGGCTA
3,dna_s745,GATGTGTG,CATGGCTA
4,dna_s745,GATGTGTG,CATGGCTA
1,dna_s746,GATTGCTC,GTGAAGTG
2,dna_s746,GATTGCTC,GTGAAGTG
3,dna_s746,GATTGCTC,GTGAAGTG
4,dna_s746,GATTGCTC,GTGAAGTG
1,dna_s747,CGCTCTAT,CGTTGCAA
2,dna_s747,CGCTCTAT,CGTTGCAA
3,dna_s747,CGCTCTAT,CGTTGCAA
4,dna_s747,CGCTCTAT,CGTTGCAA
1,dna_s748,TATCGGTC,ATCCGGTA
2,dna_s748,TATCGGTC,ATCCGGTA
3,dna_s748,TATCGGTC,ATCCGGTA
4,dna_s748,TATCGGTC,ATCCGGTA
1,dna_s749,AACGTCTG,GCGTCATT
2,dna_s749,AACGTCTG,GCGTCATT
3,dna_s749,AACGTCTG,GCGTCATT
4,dna_s749,AACGTCTG,GCGTCATT
1,dna_s750,ACGTTCAG,GCACAACT
2,dna_s750,ACGTTCAG,GCACAACT
3,dna_s750,ACGTTCAG,GCACAACT
4,dna_s750,ACGTTCAG,GCACAACT
1,dna_s751,CAGTCCAA,GATTACCG
2,dna_s751,CAGTCCAA,GATTACCG
3,dna_s751,CAGTCCAA,GATTACCG
4,dna_s751,CAGTCCAA,GATTACCG
1,dna_s752,TTGCAGAC,ACCACGAT
2,dna_s752,TTGCAGAC,ACCACGAT
3,dna_s752,TTGCAGAC,ACCACGAT
4,dna_s752,TTGCAGAC,ACCACGAT
1,dna_s753,CAATGTGG,GTCGAAGA
2,dna_s753,CAATGTGG,GTCGAAGA
3,dna_s753,CAATGTGG,GTCGAAGA
4,dna_s753,CAATGTGG,GTCGAAGA
1,dna_s754,ACTCCATC,CCTTGATC
2,dna_s754,ACTCCATC,CCTTGATC
3,dna_s754,ACTCCATC,CCTTGATC
4,dna_s754,ACTCCATC,CCTTGATC
1,dna_s755,GTTGACCT,AAGCACTG
2,dna_s755,GTTGACCT,AAGCACTG
3,dna_s755,GTTGACCT,AAGCACTG
4,dna_s755,GTTGACCT,AAGCACTG
1,dna_s756,CGTGTGTA,TTCGTTGG
2,dna_s756,CGTGTGTA,TTCGTTGG
3,dna_s756,CGTGTGTA,TTCGTTGG
4,dna_s756,CGTGTGTA,TTCGTTGG
1,dna_s757,ACGACTTG,TCGCTGTT
2,dna_s757,ACGACTTG,TCGCTGTT
3,dna_s757,ACGACTTG,TCGCTGTT
4,dna_s757,ACGACTTG,TCGCTGTT
1,dna_s758,CACTAGCT,GAATCCGA
2,dna_s758,CACTAGCT,GAATCCGA
3,dna_s758,CACTAGCT,GAATCCGA
4,dna_s758,CACTAGCT,GAATCCGA
1,dna_s759,ACTAGGAG,GTGCCATA
2,dna_s759,ACTAGGAG,GTGCCATA
3,dna_s759,ACTAGGAG,GTGCCATA
4,dna_s759,ACTAGGAG,GTGCCATA
1,dna_s760,GTAGGAGT,CTTAGGAC
2,dna_s760,GTAGGAGT,CTTAGGAC
3,dna_s760,GTAGGAGT,CTTAGGAC
4,dna_s760,GTAGGAGT,CTTAGGAC
1,dna_s761,CCTGATTG,AACTGAGC
2,dna_s761,CCTGATTG,AACTGAGC
3,dna_s761,CCTGATTG,AACTGAGC
4,dna_s761,CCTGATTG,AACTGAGC
1,dna_s762,ATGCACGA,GACGATCT
2,dna_s762,ATGCACGA,GACGATCT
3,dna_s762,ATGCACGA,GACGATCT
4,dna_s762,ATGCACGA,GACGATCT
1,dna_s763,CGACGTTA,ATCCAGAG
2,dna_s763,CGACGTTA,ATCCAGAG
3,dna_s763,CGACGTTA,ATCCAGAG
4,dna_s763,CGACGTTA,ATCCAGAG
1,dna_s764,TACGCCTT,AGAGTAGC
2,dna_s764,TACGCCTT,AGAGTAGC
3,dna_s764,TACGCCTT,AGAGTAGC
4,dna_s764,TACGCCTT,AGAGTAGC
1,dna_s765,CCGTAAGA,TGGACTCT
2,dna_s765,CCGTAAGA,TGGACTCT
3,dna_s765,CCGTAAGA,TGGACTCT
4,dna_s765,CCGTAAGA,TGGACTCT
1,dna_s766,ATCACACG,TACGCTAC
2,dna_s766,ATCACACG,TACGCTAC
3,dna_s766,ATCACACG,TACGCTAC
4,dna_s766,ATCACACG,TACGCTAC
1,dna_s767,CACCTGTT,GCTATCCT
2,dna_s767,CACCTGTT,GCTATCCT
3,dna_s767,CACCTGTT,GCTATCCT
4,dna_s767,CACCTGTT,GCTATCCT
1,dna_s768,CTTCGACT,GCAAGATC
2,dna_s768,CTTCGACT,GCAAGATC
3,dna_s768,CTTCGACT,GCAAGATC
4,dna_s768,CTTCGACT,GCAAGATC
1,dna_s769,TGCTTCCA,ATCGATCG
2,dna_s769,TGCTTCCA,ATCGATCG
3,dna_s769,TGCTTCCA,ATCGATCG
4,dna_s769,TGCTTCCA,ATCGATCG
1,dna_s770,AGAACGAG,CGGCTAAT
2,dna_s770,AGAACGAG,CGGCTAAT
3,dna_s770,AGAACGAG,CGGCTAAT
4,dna_s770,AGAACGAG,CGGCTAAT
1,dna_s771,GTTCTCGT,ACGGAACA
2,dna_s771,GTTCTCGT,ACGGAACA
3,dna_s771,GTTCTCGT,ACGGAACA
4,dna_s771,GTTCTCGT,ACGGAACA
1,dna_s772,TCAGGCTT,CGCATGAT
2,dna_s772,TCAGGCTT,CGCATGAT
3,dna_s772,TCAGGCTT,CGCATGAT
4,dna_s772,TCAGGCTT,CGCATGAT
1,dna_s773,CCTTGTAG,TTCCAAGG
2,dna_s773,CCTTGTAG,TTCCAAGG
3,dna_s773,CCTTGTAG,TTCCAAGG
4,dna_s773,CCTTGTAG,TTCCAAGG
1,dna_s774,GAACATCG,CTTGTCGA
2,dna_s774,GAACATCG,CTTGTCGA
3,dna_s774,GAACATCG,CTTGTCGA
4,dna_s774,GAACATCG,CTTGTCGA
1,dna_s775,TAACCGGT,GAGACGAT
2,dna_s775,TAACCGGT,GAGACGAT
3,dna_s775,TAACCGGT,GAGACGAT
4,dna_s775,TAACCGGT,GAGACGAT
1,dna_s776,AACCGTTC,TGAGCTAG
2,dna_s776,AACCGTTC,TGAGCTAG
3,dna_s776,AACCGTTC,TGAGCTAG
4,dna_s776,AACCGTTC,TGAGCTAG
1,dna_s777,TGGTACAG,ACTCTCGA
2,dna_s777,TGGTACAG,ACTCTCGA
3,dna_s777,TGGTACAG,ACTCTCGA
4,dna_s777,TGGTACAG,ACTCTCGA
1,dna_s778,ATATGCGC,CTGATCGT
2,dna_s778,ATATGCGC,CTGATCGT
3,dna_s778,ATATGCGC,CTGATCGT
4,dna_s778,ATATGCGC,CTGATCGT
5,dna_s707,CTGATCGT,ATATGCGC
6,dna_s707,CTGATCGT,ATATGCGC
7,dna_s707,CTGATCGT,ATATGCGC
5,dna_s708,CTTGTCGA,GAACATCG
6,dna_s708,CTTGTCGA,GAACATCG
7,dna_s708,CTTGTCGA,GAACATCG
5,dna_s709,ACGGAACA,GTTCTCGT
6,dna_s709,ACGGAACA,GTTCTCGT
7,dna_s709,ACGGAACA,GTTCTCGT
5,dna_s710,GCAAGATC,CTTCGACT
6,dna_s710,GCAAGATC,CTTCGACT
7,dna_s710,GCAAGATC,CTTCGACT
5,dna_s711,GCTATCCT,CACCTGTT
6,dna_s711,GCTATCCT,CACCTGTT
7,dna_s711,GCTATCCT,CACCTGTT
5,dna_s712,ATCCAGAG,CGACGTTA
6,dna_s712,ATCCAGAG,CGACGTTA
7,dna_s712,ATCCAGAG,CGACGTTA
5,dna_s713,AACTGAGC,CCTGATTG
6,dna_s713,AACTGAGC,CCTGATTG
7,dna_s713,AACTGAGC,CCTGATTG
5,dna_s714,GAATCCGA,CACTAGCT
6,dna_s714,GAATCCGA,CACTAGCT
7,dna_s714,GAATCCGA,CACTAGCT
5,dna_s715,TTCGTTGG,CGTGTGTA
6,dna_s715,TTCGTTGG,CGTGTGTA
7,dna_s715,TTCGTTGG,CGTGTGTA
5,dna_s716,GTCGAAGA,CAATGTGG
6,dna_s716,GTCGAAGA,CAATGTGG
7,dna_s716,GTCGAAGA,CAATGTGG
5,dna_s717,ACCACGAT,TTGCAGAC
6,dna_s717,ACCACGAT,TTGCAGAC
7,dna_s717,ACCACGAT,TTGCAGAC
5,dna_s718,GCACAACT,ACGTTCAG
6,dna_s718,GCACAACT,ACGTTCAG
7,dna_s718,GCACAACT,ACGTTCAG
5,dna_s719,ATCCGGTA,TATCGGTC
6,dna_s719,ATCCGGTA,TATCGGTC
7,dna_s719,ATCCGGTA,TATCGGTC
5,dna_s720,CGTTGCAA,CGCTCTAT
6,dna_s720,CGTTGCAA,CGCTCTAT
7,dna_s720,CGTTGCAA,CGCTCTAT
5,dna_s721,CATGGCTA,GATGTGTG
6,dna_s721,CATGGCTA,GATGTGTG
7,dna_s721,CATGGCTA,GATGTGTG
5,dna_s722,ATGCCTGT,CGCAATCT
6,dna_s722,ATGCCTGT,CGCAATCT
7,dna_s722,ATGCCTGT,CGCAATCT
5,dna_s723,CAACACCT,TGGTAGCT
6,dna_s723,CAACACCT,TGGTAGCT
7,dna_s723,CAACACCT,TGGTAGCT
5,dna_s724,GTCATCGA,AGTGGATC
6,dna_s724,GTCATCGA,AGTGGATC
7,dna_s724,GTCATCGA,AGTGGATC
5,dna_s725,GAAGGAAG,ATGACGTC
6,dna_s725,GAAGGAAG,ATGACGTC
7,dna_s725,GAAGGAAG,ATGACGTC
5,dna_s726,GTTGTTCG,GAAGTTGG
6,dna_s726,GTTGTTCG,GAAGTTGG
7,dna_s726,GTTGTTCG,GAAGTTGG
5,dna_s727,CGGTTGTT,CATACCAC
6,dna_s727,CGGTTGTT,CATACCAC
7,dna_s727,CGGTTGTT,CATACCAC
5,dna_s728,GTTACGCA,ATCGCCAT
6,dna_s728,GTTACGCA,ATCGCCAT
7,dna_s728,GTTACGCA,ATCGCCAT
5,dna_s729,AGCGTGTT,TTGCGAAG
6,dna_s729,AGCGTGTT,TTGCGAAG
7,dna_s729,AGCGTGTT,TTGCGAAG
5,dna_s730,GATCGAGT,AGTTCGTC
6,dna_s730,GATCGAGT,AGTTCGTC
7,dna_s730,GATCGAGT,AGTTCGTC
8,659_cX2_T1_TRNA_1_B2372Y3LT4_1,CTGATCGT,ATATGCGC
8,659_v2_T1_TRNA_1_B2372Y3LT4_1,ACTCTCGA,TGGTACAG
8,659_w9_T1_TRNA_1_B2372Y3LT4_1,TGAGCTAG,AACCGTTC
8,659_w0_T1_TRNA_1_B2372Y3LT4_1,GAGACGAT,TAACCGGT
8,659_bdp_T1_TRNA_1_B2372Y3LT4_1,CTTGTCGA,GAACATCG
8,659_yF_T1_TRNA_1_B2372Y3LT4_1,TTCCAAGG,CCTTGTAG
8,659_db9_T1_TRNA_1_B2372Y3LT4_1,CGCATGAT,TCAGGCTT
8,659_bld_T1_TRNA_1_B2372Y3LT4_1,ACGGAACA,GTTCTCGT
8,659_z2_T1_TRNA_1_B2372Y3LT4_1,CGGCTAAT,AGAACGAG
8,659_zC_T1_TRNA_1_B2372Y3LT4_1,ATCGATCG,TGCTTCCA
8,659_epJ_T1_TRNA_1_B2372Y3LT4_1,GCAAGATC,CTTCGACT
8,659_x2_T1_TRNA_1_B2372Y3LT4_1,GCTATCCT,CACCTGTT
8,659_w_T1_TRNA_1_B2372Y3LT4_1,TACGCTAC,ATCACACG
8,659_beZ_T1_TRNA_2_B2372Y3LT4_1,TGGACTCT,CCGTAAGA
8,659_bqK_T1_TRNA_1_B2372Y3LT4_1,AGAGTAGC,TACGCCTT
8,659_dDe_T1_TRNA_1_B2372Y3LT4_1,ATCCAGAG,CGACGTTA
8,659_bW9_T1_TRNA_1_B2372Y3LT4_1,GACGATCT,ATGCACGA
8,659_e1p_T1_TRNA_1_B2372Y3LT4_1,AACTGAGC,CCTGATTG
8,659_exc_T1_TRNA_1_B2372Y3LT4_1,CTTAGGAC,GTAGGAGT
8,659_yV_T1_TRNA_1_B2372Y3LT4_1,GTGCCATA,ACTAGGAG
8,FFPE_V4_0001_RNA_0001_B2372Y3LT4_1,GAATCCGA,CACTAGCT
8,FFPE_V4_0001_RNA_0001_B2372Y3LT4_2,TCGCTGTT,ACGACTTG
8,FFPE_HD789_01_RNA_0012_B2372Y3LT4_1,TTCGTTGG,CGTGTGTA
8,FFPE_HD789_01_RNA_0012_B2372Y3LT4_2,AAGCACTG,GTTGACCT