MultiQC Report

A modular tool to aggregate results from bioinformatics analyses across many samples into a single report.

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Report generated on 2024-06-14, 15:32 based on data in: /vast/gencore/GENEFLOW/work/c0/5526c144b9f6ac0d25166c07244119/2

General Statistics

Showing ²⁵⁸/₂₅₈ rows and ³/₅ columns.

Sample Name	% Dups	% GC	Length	% Failed	M Seqs
HC5FNDRX5_l02_n01_AtbZIP11_An1AmpPoolHmB-B_ak1	22.8%	40%	101 bp	0%	2.6
HC5FNDRX5_l02_n01_AtbZIP11_An1AmpPoolHmB-B_ak2	22.7%	40%	101 bp	0%	2.6
HC5FNDRX5_l02_n01_AtbZIP11_C24AmpPoolHmB-B_ak1	24.3%	39%	101 bp	0%	3.3
HC5FNDRX5_l02_n01_AtbZIP11_C24AmpPoolHmB-B_ak2	24.4%	39%	101 bp	0%	3.3
HC5FNDRX5_l02_n01_AtbZIP11_ColAmpPoolHmB-B_ak1	23.0%	40%	101 bp	0%	3.2
HC5FNDRX5_l02_n01_AtbZIP11_ColAmpPoolHmB-B_ak2	23.5%	40%	101 bp	0%	3.3
HC5FNDRX5_l02_n01_AtbZIP11_CviAmpPoolHmB-B_ak1	23.2%	39%	101 bp	0%	2.7
HC5FNDRX5_l02_n01_AtbZIP11_CviAmpPoolHmB-B_ak2	23.5%	39%	101 bp	0%	2.8
HC5FNDRX5_l02_n01_AtbZIP11_EriAmpPoolHmB-B_ak1	18.2%	39%	101 bp	0%	2.4
HC5FNDRX5_l02_n01_AtbZIP11_EriAmpPoolHmB-B_ak2	18.4%	39%	101 bp	0%	2.4
HC5FNDRX5_l02_n01_AtbZIP11_KyoAmpPoolHmB-B_ak1	23.0%	40%	101 bp	0%	2.4
HC5FNDRX5_l02_n01_AtbZIP11_KyoAmpPoolHmB-B_ak2	23.0%	40%	101 bp	0%	2.4
HC5FNDRX5_l02_n01_AtbZIP11_LerAmpPoolHmB-B_ak1	23.3%	40%	101 bp	0%	2.7
HC5FNDRX5_l02_n01_AtbZIP11_LerAmpPoolHmB-B_ak2	23.6%	40%	101 bp	0%	2.7
HC5FNDRX5_l02_n01_AtbZIP11_ShaAmpPoolHmB-B_ak1	21.3%	39%	101 bp	0%	3.0
HC5FNDRX5_l02_n01_AtbZIP11_ShaAmpPoolHmB-B_ak2	21.7%	39%	101 bp	0%	3.0
HC5FNDRX5_l02_n01_AtbZIP1_An1AmpPoolHmB-B_ak1	24.6%	38%	101 bp	0%	1.9
HC5FNDRX5_l02_n01_AtbZIP1_An1AmpPoolHmB-B_ak2	22.3%	38%	101 bp	0%	2.1
HC5FNDRX5_l02_n01_AtbZIP1_C24AmpPoolHmB-B_ak1	23.8%	37%	101 bp	0%	2.0
HC5FNDRX5_l02_n01_AtbZIP1_C24AmpPoolHmB-B_ak2	22.5%	38%	101 bp	0%	2.4
HC5FNDRX5_l02_n01_AtbZIP1_ColAmpPoolHmB-B_ak1	24.8%	37%	101 bp	0%	2.4
HC5FNDRX5_l02_n01_AtbZIP1_ColAmpPoolHmB-B_ak2	22.6%	38%	101 bp	0%	2.6
HC5FNDRX5_l02_n01_AtbZIP1_CviAmpPoolHmB-B_ak1	24.6%	37%	101 bp	0%	2.0
HC5FNDRX5_l02_n01_AtbZIP1_CviAmpPoolHmB-B_ak2	22.8%	38%	101 bp	0%	2.1
HC5FNDRX5_l02_n01_AtbZIP1_EriAmpPoolHmB-B_ak1	20.3%	37%	101 bp	0%	1.7
HC5FNDRX5_l02_n01_AtbZIP1_EriAmpPoolHmB-B_ak2	17.6%	37%	101 bp	0%	1.8
HC5FNDRX5_l02_n01_AtbZIP1_KyoAmpPoolHmB-B_ak1	24.1%	38%	101 bp	0%	1.8
HC5FNDRX5_l02_n01_AtbZIP1_KyoAmpPoolHmB-B_ak2	21.5%	38%	101 bp	0%	1.9
HC5FNDRX5_l02_n01_AtbZIP1_LerAmpPoolHmB-B_ak1	25.2%	38%	101 bp	0%	2.0
HC5FNDRX5_l02_n01_AtbZIP1_LerAmpPoolHmB-B_ak2	22.6%	38%	101 bp	0%	2.1
HC5FNDRX5_l02_n01_AtbZIP1_ShaAmpPoolHmB-B_ak1	21.9%	37%	101 bp	0%	2.0
HC5FNDRX5_l02_n01_AtbZIP1_ShaAmpPoolHmB-B_ak2	20.0%	38%	101 bp	0%	2.2
HC5FNDRX5_l02_n01_AtbZIP26_An1AmpPoolHmB-B_ak2	31.8%	38%	101 bp	0%	1.7
HC5FNDRX5_l02_n01_AtbZIP26_C24AmpPoolHmB-B_ak2	28.8%	37%	101 bp	0%	1.3
HC5FNDRX5_l02_n01_AtbZIP26_ColAmpPoolHmB-B_ak2	30.6%	38%	101 bp	0%	1.9
HC5FNDRX5_l02_n01_AtbZIP26_CviAmpPoolHmB-B_ak2	31.1%	38%	101 bp	0%	1.6
HC5FNDRX5_l02_n01_AtbZIP26_EriAmpPoolHmB-B_ak2	26.9%	37%	101 bp	0%	1.3
HC5FNDRX5_l02_n01_AtbZIP26_KyoAmpPoolHmB-B_ak2	30.3%	38%	101 bp	0%	1.5
HC5FNDRX5_l02_n01_AtbZIP26_LerAmpPoolHmB-B_ak2	30.7%	38%	101 bp	0%	1.6
HC5FNDRX5_l02_n01_AtbZIP26_ShaAmpPoolHmB-B_ak2	28.9%	38%	101 bp	0%	1.5
HC5FNDRX5_l02_n01_AtbZIP3_An1AmpPoolHmB-B_ak1	23.6%	39%	101 bp	0%	2.2
HC5FNDRX5_l02_n01_AtbZIP3_An1AmpPoolHmB-B_ak2	23.5%	38%	101 bp	0%	2.5
HC5FNDRX5_l02_n01_AtbZIP3_C24AmpPoolHmB-B_ak1	23.4%	38%	101 bp	0%	2.5
HC5FNDRX5_l02_n01_AtbZIP3_C24AmpPoolHmB-B_ak2	23.5%	37%	101 bp	0%	2.9
HC5FNDRX5_l02_n01_AtbZIP3_ColAmpPoolHmB-B_ak1	23.2%	38%	101 bp	0%	2.7
HC5FNDRX5_l02_n01_AtbZIP3_ColAmpPoolHmB-B_ak2	23.6%	38%	101 bp	0%	3.1
HC5FNDRX5_l02_n01_AtbZIP3_CviAmpPoolHmB-B_ak1	23.8%	38%	101 bp	0%	2.3
HC5FNDRX5_l02_n01_AtbZIP3_CviAmpPoolHmB-B_ak2	23.8%	38%	101 bp	0%	2.6
HC5FNDRX5_l02_n01_AtbZIP3_EriAmpPoolHmB-B_ak1	18.7%	38%	101 bp	0%	2.0
HC5FNDRX5_l02_n01_AtbZIP3_EriAmpPoolHmB-B_ak2	18.6%	37%	101 bp	0%	2.3
HC5FNDRX5_l02_n01_AtbZIP3_KyoAmpPoolHmB-B_ak1	22.6%	38%	101 bp	0%	2.1
HC5FNDRX5_l02_n01_AtbZIP3_KyoAmpPoolHmB-B_ak2	22.7%	38%	101 bp	0%	2.4
HC5FNDRX5_l02_n01_AtbZIP3_LerAmpPoolHmB-B_ak1	23.7%	38%	101 bp	0%	2.3
HC5FNDRX5_l02_n01_AtbZIP3_LerAmpPoolHmB-B_ak2	23.6%	38%	101 bp	0%	2.6
HC5FNDRX5_l02_n01_AtbZIP3_ShaAmpPoolHmB-B_ak1	21.1%	38%	101 bp	0%	2.4
HC5FNDRX5_l02_n01_AtbZIP3_ShaAmpPoolHmB-B_ak2	21.3%	38%	101 bp	0%	2.8
HC5FNDRX5_l02_n01_AtbZIP41_An1AmpPoolHmB-B_ak1	29.4%	39%	101 bp	0%	2.2
HC5FNDRX5_l02_n01_AtbZIP41_An1AmpPoolHmB-B_ak2	26.2%	39%	101 bp	0%	2.3
HC5FNDRX5_l02_n01_AtbZIP41_C24AmpPoolHmB-B_ak1	28.2%	38%	101 bp	0%	1.9
HC5FNDRX5_l02_n01_AtbZIP41_C24AmpPoolHmB-B_ak2	25.5%	38%	101 bp	0%	2.0
HC5FNDRX5_l02_n01_AtbZIP41_ColAmpPoolHmB-B_ak1	29.0%	39%	101 bp	0%	2.6
HC5FNDRX5_l02_n01_AtbZIP41_ColAmpPoolHmB-B_ak2	25.9%	38%	101 bp	0%	2.7
HC5FNDRX5_l02_n01_AtbZIP41_CviAmpPoolHmB-B_ak1	28.8%	38%	101 bp	0%	2.1
HC5FNDRX5_l02_n01_AtbZIP41_CviAmpPoolHmB-B_ak2	25.9%	38%	101 bp	0%	2.3
HC5FNDRX5_l02_n01_AtbZIP41_EriAmpPoolHmB-B_ak1	25.8%	38%	101 bp	0%	1.9
HC5FNDRX5_l02_n01_AtbZIP41_EriAmpPoolHmB-B_ak2	21.8%	38%	101 bp	0%	1.9
HC5FNDRX5_l02_n01_AtbZIP41_KyoAmpPoolHmB-B_ak1	28.5%	38%	101 bp	0%	1.9
HC5FNDRX5_l02_n01_AtbZIP41_KyoAmpPoolHmB-B_ak2	25.2%	39%	101 bp	0%	2.0
HC5FNDRX5_l02_n01_AtbZIP41_LerAmpPoolHmB-B_ak1	29.3%	39%	101 bp	0%	2.1
HC5FNDRX5_l02_n01_AtbZIP41_LerAmpPoolHmB-B_ak2	26.0%	39%	101 bp	0%	2.2
HC5FNDRX5_l02_n01_AtbZIP41_ShaAmpPoolHmB-B_ak1	27.4%	38%	101 bp	0%	2.1
HC5FNDRX5_l02_n01_AtbZIP41_ShaAmpPoolHmB-B_ak2	24.1%	38%	101 bp	0%	2.2
HC5FNDRX5_l02_n01_AtbZIP44_An1AmpPoolHmB-B_ak1	27.2%	41%	101 bp	9%	3.1
HC5FNDRX5_l02_n01_AtbZIP44_An1AmpPoolHmB-B_ak2	26.4%	40%	101 bp	9%	2.6
HC5FNDRX5_l02_n01_AtbZIP44_C24AmpPoolHmB-B_ak1	28.1%	40%	101 bp	0%	4.1
HC5FNDRX5_l02_n01_AtbZIP44_C24AmpPoolHmB-B_ak2	27.1%	40%	101 bp	0%	3.5
HC5FNDRX5_l02_n01_AtbZIP44_ColAmpPoolHmB-B_ak1	27.1%	40%	101 bp	0%	4.2
HC5FNDRX5_l02_n01_AtbZIP44_ColAmpPoolHmB-B_ak2	26.2%	40%	101 bp	0%	3.6
HC5FNDRX5_l02_n01_AtbZIP44_CviAmpPoolHmB-B_ak1	28.2%	40%	101 bp	9%	3.8
HC5FNDRX5_l02_n01_AtbZIP44_CviAmpPoolHmB-B_ak2	27.6%	40%	101 bp	9%	3.3
HC5FNDRX5_l02_n01_AtbZIP44_EriAmpPoolHmB-B_ak1	22.1%	40%	101 bp	0%	3.3
HC5FNDRX5_l02_n01_AtbZIP44_EriAmpPoolHmB-B_ak2	21.2%	39%	101 bp	0%	2.7
HC5FNDRX5_l02_n01_AtbZIP44_KyoAmpPoolHmB-B_ak1	27.1%	40%	101 bp	0%	3.0
HC5FNDRX5_l02_n01_AtbZIP44_KyoAmpPoolHmB-B_ak2	26.0%	40%	101 bp	0%	2.5
HC5FNDRX5_l02_n01_AtbZIP44_LerAmpPoolHmB-B_ak1	27.2%	40%	101 bp	0%	3.3
HC5FNDRX5_l02_n01_AtbZIP44_LerAmpPoolHmB-B_ak2	26.3%	40%	101 bp	0%	2.7
HC5FNDRX5_l02_n01_AtbZIP44_ShaAmpPoolHmB-B_ak1	25.9%	40%	101 bp	9%	4.0
HC5FNDRX5_l02_n01_AtbZIP44_ShaAmpPoolHmB-B_ak2	24.9%	40%	101 bp	9%	3.4
HC5FNDRX5_l02_n01_AtbZIP50_An1AmpPoolHmB-B_ak1	25.7%	40%	101 bp	0%	2.2
HC5FNDRX5_l02_n01_AtbZIP50_An1AmpPoolHmB-B_ak2	23.9%	40%	101 bp	0%	2.0
HC5FNDRX5_l02_n01_AtbZIP50_C24AmpPoolHmB-B_ak1	24.8%	38%	101 bp	0%	2.4
HC5FNDRX5_l02_n01_AtbZIP50_C24AmpPoolHmB-B_ak2	23.7%	39%	101 bp	0%	2.5
HC5FNDRX5_l02_n01_AtbZIP50_ColAmpPoolHmB-B_ak1	25.1%	39%	101 bp	0%	2.5
HC5FNDRX5_l02_n01_AtbZIP50_ColAmpPoolHmB-B_ak2	23.3%	40%	101 bp	0%	2.4
HC5FNDRX5_l02_n01_AtbZIP50_CviAmpPoolHmB-B_ak1	25.2%	39%	101 bp	0%	2.2
HC5FNDRX5_l02_n01_AtbZIP50_CviAmpPoolHmB-B_ak2	23.6%	39%	101 bp	0%	2.1
HC5FNDRX5_l02_n01_AtbZIP50_EriAmpPoolHmB-B_ak1	21.1%	39%	101 bp	0%	2.0
HC5FNDRX5_l02_n01_AtbZIP50_EriAmpPoolHmB-B_ak2	19.0%	39%	101 bp	0%	1.9
HC5FNDRX5_l02_n01_AtbZIP50_KyoAmpPoolHmB-B_ak1	24.7%	39%	101 bp	0%	2.1
HC5FNDRX5_l02_n01_AtbZIP50_KyoAmpPoolHmB-B_ak2	22.6%	39%	101 bp	0%	1.9
HC5FNDRX5_l02_n01_AtbZIP50_LerAmpPoolHmB-B_ak1	26.0%	39%	101 bp	0%	2.3
HC5FNDRX5_l02_n01_AtbZIP50_LerAmpPoolHmB-B_ak2	24.2%	40%	101 bp	0%	2.1
HC5FNDRX5_l02_n01_AtbZIP50_ShaAmpPoolHmB-B_ak1	22.9%	39%	101 bp	0%	2.4
HC5FNDRX5_l02_n01_AtbZIP50_ShaAmpPoolHmB-B_ak2	21.2%	39%	101 bp	0%	2.3
HC5FNDRX5_l02_n01_AtbZIP66_An1AmpPoolHmB-B_ak1	21.6%	38%	101 bp	0%	2.5
HC5FNDRX5_l02_n01_AtbZIP66_An1AmpPoolHmB-B_ak2	22.6%	38%	101 bp	0%	3.0
HC5FNDRX5_l02_n01_AtbZIP66_C24AmpPoolHmB-B_ak1	21.6%	37%	101 bp	0%	2.8
HC5FNDRX5_l02_n01_AtbZIP66_C24AmpPoolHmB-B_ak2	22.7%	37%	101 bp	0%	3.3
HC5FNDRX5_l02_n01_AtbZIP66_ColAmpPoolHmB-B_ak1	21.9%	37%	101 bp	0%	3.2
HC5FNDRX5_l02_n01_AtbZIP66_ColAmpPoolHmB-B_ak2	23.3%	38%	101 bp	0%	3.8
HC5FNDRX5_l02_n01_AtbZIP66_CviAmpPoolHmB-B_ak1	22.1%	37%	101 bp	0%	2.5
HC5FNDRX5_l02_n01_AtbZIP66_CviAmpPoolHmB-B_ak2	23.2%	38%	101 bp	0%	3.0
HC5FNDRX5_l02_n01_AtbZIP66_EriAmpPoolHmB-B_ak1	16.3%	37%	101 bp	0%	2.1
HC5FNDRX5_l02_n01_AtbZIP66_EriAmpPoolHmB-B_ak2	17.5%	37%	101 bp	0%	2.6
HC5FNDRX5_l02_n01_AtbZIP66_KyoAmpPoolHmB-B_ak1	20.8%	37%	101 bp	0%	2.4
HC5FNDRX5_l02_n01_AtbZIP66_KyoAmpPoolHmB-B_ak2	21.9%	38%	101 bp	0%	2.9
HC5FNDRX5_l02_n01_AtbZIP66_LerAmpPoolHmB-B_ak1	21.9%	38%	101 bp	0%	2.5
HC5FNDRX5_l02_n01_AtbZIP66_LerAmpPoolHmB-B_ak2	23.3%	38%	101 bp	0%	3.1
HC5FNDRX5_l02_n01_AtbZIP66_ShaAmpPoolHmB-B_ak1	18.6%	37%	101 bp	0%	2.6
HC5FNDRX5_l02_n01_AtbZIP66_ShaAmpPoolHmB-B_ak2	19.5%	37%	101 bp	0%	3.2
HC5FNDRX5_l02_n01_pIXHALO_An1AmpPoolHm-B_ak2	31.3%	37%	101 bp	0%	0.9
HC5FNDRX5_l02_n01_pIXHALO_C24AmpPoolHm-B_ak2	29.7%	36%	101 bp	0%	0.7
HC5FNDRX5_l02_n01_pIXHALO_ColAmpPoolHm-B_ak2	30.6%	37%	101 bp	0%	1.1
HC5FNDRX5_l02_n01_pIXHALO_CviAmpPoolHm-B_ak2	30.9%	37%	101 bp	0%	0.9
HC5FNDRX5_l02_n01_pIXHALO_EriAmpPoolHm-B_ak2	28.8%	36%	101 bp	0%	0.7
HC5FNDRX5_l02_n01_pIXHALO_KyoAmpPoolHm-B_ak2	30.5%	37%	101 bp	0%	0.8
HC5FNDRX5_l02_n01_pIXHALO_LerAmpPoolHm-B_ak2	30.7%	37%	101 bp	0%	0.9
HC5FNDRX5_l02_n01_pIXHALO_ShaAmpPoolHm-B_ak2	30.0%	36%	101 bp	0%	0.8
HC5FNDRX5_l02_n01_undetermined	63.7%	41%	101 bp	18%	36.6
HC5FNDRX5_l02_n02_AtbZIP11_An1AmpPoolHmB-B_ak1	22.2%	40%	101 bp	0%	2.6
HC5FNDRX5_l02_n02_AtbZIP11_An1AmpPoolHmB-B_ak2	22.3%	40%	101 bp	0%	2.6
HC5FNDRX5_l02_n02_AtbZIP11_C24AmpPoolHmB-B_ak1	23.9%	39%	101 bp	0%	3.3
HC5FNDRX5_l02_n02_AtbZIP11_C24AmpPoolHmB-B_ak2	24.1%	39%	101 bp	0%	3.3
HC5FNDRX5_l02_n02_AtbZIP11_ColAmpPoolHmB-B_ak1	22.3%	39%	101 bp	0%	3.2
HC5FNDRX5_l02_n02_AtbZIP11_ColAmpPoolHmB-B_ak2	23.1%	39%	101 bp	0%	3.3
HC5FNDRX5_l02_n02_AtbZIP11_CviAmpPoolHmB-B_ak1	22.8%	39%	101 bp	0%	2.7
HC5FNDRX5_l02_n02_AtbZIP11_CviAmpPoolHmB-B_ak2	23.2%	39%	101 bp	0%	2.8
HC5FNDRX5_l02_n02_AtbZIP11_EriAmpPoolHmB-B_ak1	17.7%	39%	101 bp	0%	2.4
HC5FNDRX5_l02_n02_AtbZIP11_EriAmpPoolHmB-B_ak2	18.0%	39%	101 bp	0%	2.4
HC5FNDRX5_l02_n02_AtbZIP11_KyoAmpPoolHmB-B_ak1	22.1%	40%	101 bp	0%	2.4
HC5FNDRX5_l02_n02_AtbZIP11_KyoAmpPoolHmB-B_ak2	22.5%	40%	101 bp	0%	2.4
HC5FNDRX5_l02_n02_AtbZIP11_LerAmpPoolHmB-B_ak1	22.7%	40%	101 bp	0%	2.7
HC5FNDRX5_l02_n02_AtbZIP11_LerAmpPoolHmB-B_ak2	23.1%	40%	101 bp	0%	2.7
HC5FNDRX5_l02_n02_AtbZIP11_ShaAmpPoolHmB-B_ak1	20.6%	39%	101 bp	0%	3.0
HC5FNDRX5_l02_n02_AtbZIP11_ShaAmpPoolHmB-B_ak2	21.2%	39%	101 bp	0%	3.0
HC5FNDRX5_l02_n02_AtbZIP1_An1AmpPoolHmB-B_ak1	23.7%	38%	101 bp	0%	1.9
HC5FNDRX5_l02_n02_AtbZIP1_An1AmpPoolHmB-B_ak2	21.6%	38%	101 bp	0%	2.1
HC5FNDRX5_l02_n02_AtbZIP1_C24AmpPoolHmB-B_ak1	23.4%	37%	101 bp	0%	2.0
HC5FNDRX5_l02_n02_AtbZIP1_C24AmpPoolHmB-B_ak2	21.9%	38%	101 bp	0%	2.4
HC5FNDRX5_l02_n02_AtbZIP1_ColAmpPoolHmB-B_ak1	24.1%	37%	101 bp	0%	2.4
HC5FNDRX5_l02_n02_AtbZIP1_ColAmpPoolHmB-B_ak2	22.1%	38%	101 bp	0%	2.6
HC5FNDRX5_l02_n02_AtbZIP1_CviAmpPoolHmB-B_ak1	23.9%	37%	101 bp	0%	2.0
HC5FNDRX5_l02_n02_AtbZIP1_CviAmpPoolHmB-B_ak2	22.4%	38%	101 bp	0%	2.1
HC5FNDRX5_l02_n02_AtbZIP1_EriAmpPoolHmB-B_ak1	19.8%	37%	101 bp	0%	1.7
HC5FNDRX5_l02_n02_AtbZIP1_EriAmpPoolHmB-B_ak2	17.1%	37%	101 bp	0%	1.8
HC5FNDRX5_l02_n02_AtbZIP1_KyoAmpPoolHmB-B_ak1	23.3%	37%	101 bp	0%	1.8
HC5FNDRX5_l02_n02_AtbZIP1_KyoAmpPoolHmB-B_ak2	20.9%	38%	101 bp	0%	1.9
HC5FNDRX5_l02_n02_AtbZIP1_LerAmpPoolHmB-B_ak1	24.4%	38%	101 bp	0%	2.0
HC5FNDRX5_l02_n02_AtbZIP1_LerAmpPoolHmB-B_ak2	22.0%	38%	101 bp	0%	2.1
HC5FNDRX5_l02_n02_AtbZIP1_ShaAmpPoolHmB-B_ak1	21.1%	37%	101 bp	0%	2.0
HC5FNDRX5_l02_n02_AtbZIP1_ShaAmpPoolHmB-B_ak2	19.3%	38%	101 bp	0%	2.2
HC5FNDRX5_l02_n02_AtbZIP26_An1AmpPoolHmB-B_ak2	29.9%	38%	101 bp	0%	1.7
HC5FNDRX5_l02_n02_AtbZIP26_C24AmpPoolHmB-B_ak2	27.5%	37%	101 bp	0%	1.3
HC5FNDRX5_l02_n02_AtbZIP26_ColAmpPoolHmB-B_ak2	29.1%	38%	101 bp	0%	1.9
HC5FNDRX5_l02_n02_AtbZIP26_CviAmpPoolHmB-B_ak2	29.6%	38%	101 bp	0%	1.6
HC5FNDRX5_l02_n02_AtbZIP26_EriAmpPoolHmB-B_ak2	25.6%	37%	101 bp	0%	1.3
HC5FNDRX5_l02_n02_AtbZIP26_KyoAmpPoolHmB-B_ak2	28.6%	38%	101 bp	0%	1.5
HC5FNDRX5_l02_n02_AtbZIP26_LerAmpPoolHmB-B_ak2	29.3%	38%	101 bp	0%	1.6
HC5FNDRX5_l02_n02_AtbZIP26_ShaAmpPoolHmB-B_ak2	27.4%	37%	101 bp	0%	1.5
HC5FNDRX5_l02_n02_AtbZIP3_An1AmpPoolHmB-B_ak1	22.8%	39%	101 bp	0%	2.2
HC5FNDRX5_l02_n02_AtbZIP3_An1AmpPoolHmB-B_ak2	23.0%	38%	101 bp	0%	2.5
HC5FNDRX5_l02_n02_AtbZIP3_C24AmpPoolHmB-B_ak1	22.9%	38%	101 bp	0%	2.5
HC5FNDRX5_l02_n02_AtbZIP3_C24AmpPoolHmB-B_ak2	23.2%	37%	101 bp	0%	2.9
HC5FNDRX5_l02_n02_AtbZIP3_ColAmpPoolHmB-B_ak1	22.5%	38%	101 bp	0%	2.7
HC5FNDRX5_l02_n02_AtbZIP3_ColAmpPoolHmB-B_ak2	23.0%	38%	101 bp	0%	3.1
HC5FNDRX5_l02_n02_AtbZIP3_CviAmpPoolHmB-B_ak1	23.2%	38%	101 bp	0%	2.3
HC5FNDRX5_l02_n02_AtbZIP3_CviAmpPoolHmB-B_ak2	23.4%	38%	101 bp	0%	2.6
HC5FNDRX5_l02_n02_AtbZIP3_EriAmpPoolHmB-B_ak1	18.1%	38%	101 bp	0%	2.0
HC5FNDRX5_l02_n02_AtbZIP3_EriAmpPoolHmB-B_ak2	18.2%	37%	101 bp	0%	2.3
HC5FNDRX5_l02_n02_AtbZIP3_KyoAmpPoolHmB-B_ak1	21.9%	38%	101 bp	0%	2.1
HC5FNDRX5_l02_n02_AtbZIP3_KyoAmpPoolHmB-B_ak2	22.0%	38%	101 bp	0%	2.4
HC5FNDRX5_l02_n02_AtbZIP3_LerAmpPoolHmB-B_ak1	22.9%	38%	101 bp	0%	2.3
HC5FNDRX5_l02_n02_AtbZIP3_LerAmpPoolHmB-B_ak2	23.0%	38%	101 bp	0%	2.6
HC5FNDRX5_l02_n02_AtbZIP3_ShaAmpPoolHmB-B_ak1	20.4%	38%	101 bp	0%	2.4
HC5FNDRX5_l02_n02_AtbZIP3_ShaAmpPoolHmB-B_ak2	20.6%	38%	101 bp	0%	2.8
HC5FNDRX5_l02_n02_AtbZIP41_An1AmpPoolHmB-B_ak1	27.8%	39%	101 bp	0%	2.2
HC5FNDRX5_l02_n02_AtbZIP41_An1AmpPoolHmB-B_ak2	25.0%	39%	101 bp	0%	2.3
HC5FNDRX5_l02_n02_AtbZIP41_C24AmpPoolHmB-B_ak1	27.1%	38%	101 bp	0%	1.9
HC5FNDRX5_l02_n02_AtbZIP41_C24AmpPoolHmB-B_ak2	24.7%	38%	101 bp	0%	2.0
HC5FNDRX5_l02_n02_AtbZIP41_ColAmpPoolHmB-B_ak1	27.6%	38%	101 bp	0%	2.6
HC5FNDRX5_l02_n02_AtbZIP41_ColAmpPoolHmB-B_ak2	24.9%	38%	101 bp	0%	2.7
HC5FNDRX5_l02_n02_AtbZIP41_CviAmpPoolHmB-B_ak1	27.4%	38%	101 bp	0%	2.1
HC5FNDRX5_l02_n02_AtbZIP41_CviAmpPoolHmB-B_ak2	24.8%	38%	101 bp	0%	2.3
HC5FNDRX5_l02_n02_AtbZIP41_EriAmpPoolHmB-B_ak1	24.7%	38%	101 bp	0%	1.9
HC5FNDRX5_l02_n02_AtbZIP41_EriAmpPoolHmB-B_ak2	21.0%	38%	101 bp	0%	1.9
HC5FNDRX5_l02_n02_AtbZIP41_KyoAmpPoolHmB-B_ak1	27.2%	38%	101 bp	0%	1.9
HC5FNDRX5_l02_n02_AtbZIP41_KyoAmpPoolHmB-B_ak2	24.1%	38%	101 bp	0%	2.0
HC5FNDRX5_l02_n02_AtbZIP41_LerAmpPoolHmB-B_ak1	27.8%	39%	101 bp	0%	2.1
HC5FNDRX5_l02_n02_AtbZIP41_LerAmpPoolHmB-B_ak2	25.1%	39%	101 bp	0%	2.2
HC5FNDRX5_l02_n02_AtbZIP41_ShaAmpPoolHmB-B_ak1	26.1%	38%	101 bp	0%	2.1
HC5FNDRX5_l02_n02_AtbZIP41_ShaAmpPoolHmB-B_ak2	23.1%	38%	101 bp	0%	2.2
HC5FNDRX5_l02_n02_AtbZIP44_An1AmpPoolHmB-B_ak1	26.6%	41%	101 bp	9%	3.1
HC5FNDRX5_l02_n02_AtbZIP44_An1AmpPoolHmB-B_ak2	25.7%	40%	101 bp	0%	2.6
HC5FNDRX5_l02_n02_AtbZIP44_C24AmpPoolHmB-B_ak1	27.7%	40%	101 bp	0%	4.1
HC5FNDRX5_l02_n02_AtbZIP44_C24AmpPoolHmB-B_ak2	26.7%	40%	101 bp	0%	3.5
HC5FNDRX5_l02_n02_AtbZIP44_ColAmpPoolHmB-B_ak1	26.5%	40%	101 bp	0%	4.2
HC5FNDRX5_l02_n02_AtbZIP44_ColAmpPoolHmB-B_ak2	25.6%	40%	101 bp	0%	3.6
HC5FNDRX5_l02_n02_AtbZIP44_CviAmpPoolHmB-B_ak1	27.7%	40%	101 bp	9%	3.8
HC5FNDRX5_l02_n02_AtbZIP44_CviAmpPoolHmB-B_ak2	27.1%	40%	101 bp	9%	3.3
HC5FNDRX5_l02_n02_AtbZIP44_EriAmpPoolHmB-B_ak1	21.7%	40%	101 bp	0%	3.3
HC5FNDRX5_l02_n02_AtbZIP44_EriAmpPoolHmB-B_ak2	20.7%	39%	101 bp	0%	2.7
HC5FNDRX5_l02_n02_AtbZIP44_KyoAmpPoolHmB-B_ak1	26.1%	40%	101 bp	0%	3.0
HC5FNDRX5_l02_n02_AtbZIP44_KyoAmpPoolHmB-B_ak2	25.2%	40%	101 bp	0%	2.5
HC5FNDRX5_l02_n02_AtbZIP44_LerAmpPoolHmB-B_ak1	26.6%	40%	101 bp	0%	3.3
HC5FNDRX5_l02_n02_AtbZIP44_LerAmpPoolHmB-B_ak2	25.5%	40%	101 bp	0%	2.7
HC5FNDRX5_l02_n02_AtbZIP44_ShaAmpPoolHmB-B_ak1	25.1%	40%	101 bp	9%	4.0
HC5FNDRX5_l02_n02_AtbZIP44_ShaAmpPoolHmB-B_ak2	24.3%	40%	101 bp	0%	3.4
HC5FNDRX5_l02_n02_AtbZIP50_An1AmpPoolHmB-B_ak1	24.4%	40%	101 bp	0%	2.2
HC5FNDRX5_l02_n02_AtbZIP50_An1AmpPoolHmB-B_ak2	23.2%	40%	101 bp	0%	2.0
HC5FNDRX5_l02_n02_AtbZIP50_C24AmpPoolHmB-B_ak1	23.9%	38%	101 bp	0%	2.4
HC5FNDRX5_l02_n02_AtbZIP50_C24AmpPoolHmB-B_ak2	23.4%	39%	101 bp	0%	2.5
HC5FNDRX5_l02_n02_AtbZIP50_ColAmpPoolHmB-B_ak1	24.0%	39%	101 bp	0%	2.5
HC5FNDRX5_l02_n02_AtbZIP50_ColAmpPoolHmB-B_ak2	22.8%	39%	101 bp	0%	2.4
HC5FNDRX5_l02_n02_AtbZIP50_CviAmpPoolHmB-B_ak1	24.3%	39%	101 bp	0%	2.2
HC5FNDRX5_l02_n02_AtbZIP50_CviAmpPoolHmB-B_ak2	23.1%	39%	101 bp	0%	2.1
HC5FNDRX5_l02_n02_AtbZIP50_EriAmpPoolHmB-B_ak1	20.2%	39%	101 bp	0%	2.0
HC5FNDRX5_l02_n02_AtbZIP50_EriAmpPoolHmB-B_ak2	18.5%	39%	101 bp	0%	1.9
HC5FNDRX5_l02_n02_AtbZIP50_KyoAmpPoolHmB-B_ak1	23.5%	39%	101 bp	0%	2.1
HC5FNDRX5_l02_n02_AtbZIP50_KyoAmpPoolHmB-B_ak2	21.8%	39%	101 bp	0%	1.9
HC5FNDRX5_l02_n02_AtbZIP50_LerAmpPoolHmB-B_ak1	24.7%	39%	101 bp	0%	2.3
HC5FNDRX5_l02_n02_AtbZIP50_LerAmpPoolHmB-B_ak2	23.6%	40%	101 bp	0%	2.1
HC5FNDRX5_l02_n02_AtbZIP50_ShaAmpPoolHmB-B_ak1	21.7%	39%	101 bp	0%	2.4
HC5FNDRX5_l02_n02_AtbZIP50_ShaAmpPoolHmB-B_ak2	20.6%	39%	101 bp	0%	2.3
HC5FNDRX5_l02_n02_AtbZIP66_An1AmpPoolHmB-B_ak1	20.8%	38%	101 bp	0%	2.5
HC5FNDRX5_l02_n02_AtbZIP66_An1AmpPoolHmB-B_ak2	22.1%	38%	101 bp	0%	3.0
HC5FNDRX5_l02_n02_AtbZIP66_C24AmpPoolHmB-B_ak1	21.1%	37%	101 bp	0%	2.8
HC5FNDRX5_l02_n02_AtbZIP66_C24AmpPoolHmB-B_ak2	22.5%	37%	101 bp	0%	3.3
HC5FNDRX5_l02_n02_AtbZIP66_ColAmpPoolHmB-B_ak1	21.3%	37%	101 bp	0%	3.2
HC5FNDRX5_l02_n02_AtbZIP66_ColAmpPoolHmB-B_ak2	22.8%	37%	101 bp	0%	3.8
HC5FNDRX5_l02_n02_AtbZIP66_CviAmpPoolHmB-B_ak1	21.4%	37%	101 bp	0%	2.5
HC5FNDRX5_l02_n02_AtbZIP66_CviAmpPoolHmB-B_ak2	22.7%	37%	101 bp	0%	3.0
HC5FNDRX5_l02_n02_AtbZIP66_EriAmpPoolHmB-B_ak1	15.8%	37%	101 bp	0%	2.1
HC5FNDRX5_l02_n02_AtbZIP66_EriAmpPoolHmB-B_ak2	17.0%	37%	101 bp	0%	2.6
HC5FNDRX5_l02_n02_AtbZIP66_KyoAmpPoolHmB-B_ak1	20.1%	37%	101 bp	0%	2.4
HC5FNDRX5_l02_n02_AtbZIP66_KyoAmpPoolHmB-B_ak2	21.3%	37%	101 bp	0%	2.9
HC5FNDRX5_l02_n02_AtbZIP66_LerAmpPoolHmB-B_ak1	21.2%	38%	101 bp	0%	2.5
HC5FNDRX5_l02_n02_AtbZIP66_LerAmpPoolHmB-B_ak2	22.6%	38%	101 bp	0%	3.1
HC5FNDRX5_l02_n02_AtbZIP66_ShaAmpPoolHmB-B_ak1	17.9%	37%	101 bp	0%	2.6
HC5FNDRX5_l02_n02_AtbZIP66_ShaAmpPoolHmB-B_ak2	19.0%	37%	101 bp	0%	3.2
HC5FNDRX5_l02_n02_pIXHALO_An1AmpPoolHm-B_ak2	29.8%	37%	101 bp	0%	0.9
HC5FNDRX5_l02_n02_pIXHALO_C24AmpPoolHm-B_ak2	28.7%	36%	101 bp	0%	0.7
HC5FNDRX5_l02_n02_pIXHALO_ColAmpPoolHm-B_ak2	29.2%	37%	101 bp	0%	1.1
HC5FNDRX5_l02_n02_pIXHALO_CviAmpPoolHm-B_ak2	29.4%	37%	101 bp	0%	0.9
HC5FNDRX5_l02_n02_pIXHALO_EriAmpPoolHm-B_ak2	27.6%	36%	101 bp	0%	0.7
HC5FNDRX5_l02_n02_pIXHALO_KyoAmpPoolHm-B_ak2	28.9%	37%	101 bp	0%	0.8
HC5FNDRX5_l02_n02_pIXHALO_LerAmpPoolHm-B_ak2	29.5%	37%	101 bp	0%	0.9
HC5FNDRX5_l02_n02_pIXHALO_ShaAmpPoolHm-B_ak2	28.5%	36%	101 bp	0%	0.8
HC5FNDRX5_l02_n02_undetermined	61.6%	42%	101 bp	27%	36.6

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Sort	Group	Column	Description	ID	Scale
\|\|	FastQC	% Dups	% Duplicate Reads	`percent_duplicates`	None
\|\|	FastQC	% GC	Average % GC Content	`percent_gc`	None
\|\|	FastQC	Length	Average Sequence Length (bp)	`avg_sequence_length`	None
\|\|	FastQC	% Failed	Percentage of modules failed in FastQC report (includes those not plotted here)	`percent_fails`	None
\|\|	FastQC	M Seqs	Total Sequences (millions)	`total_sequences`	read_count

Demultiplexing Report

Total Read Count: Total number of PF (Passing Filter) reads in this library.
Portion: The proportion of reads that represent the individual library in the entire Library Pool.

Showing ¹²⁹/₁₂₉ rows and ²/₂ columns.

Library	Total Read Count	Portion (%)
undetermined_library	36600907	10.7
AtbZIP41_ColAmpPoolHmB-B_ak1	2559622	0.8
AtbZIP41_C24AmpPoolHmB-B_ak1	1884259	0.6
AtbZIP41_EriAmpPoolHmB-B_ak1	1869491	0.5
AtbZIP41_CviAmpPoolHmB-B_ak1	2132216	0.6
AtbZIP41_ShaAmpPoolHmB-B_ak1	2087449	0.6
AtbZIP41_KyoAmpPoolHmB-B_ak1	1905709	0.6
AtbZIP41_LerAmpPoolHmB-B_ak1	2099626	0.6
AtbZIP41_An1AmpPoolHmB-B_ak1	2183859	0.6
AtbZIP41_ColAmpPoolHmB-B_ak2	2708050	0.8
AtbZIP41_C24AmpPoolHmB-B_ak2	2046218	0.6
AtbZIP41_EriAmpPoolHmB-B_ak2	1910565	0.6
AtbZIP41_CviAmpPoolHmB-B_ak2	2255650	0.7
AtbZIP41_ShaAmpPoolHmB-B_ak2	2231295	0.7
AtbZIP41_KyoAmpPoolHmB-B_ak2	1982552	0.6
AtbZIP41_LerAmpPoolHmB-B_ak2	2199900	0.6
AtbZIP41_An1AmpPoolHmB-B_ak2	2288941	0.7
AtbZIP11_ColAmpPoolHmB-B_ak1	3213212	0.9
AtbZIP11_C24AmpPoolHmB-B_ak1	3346131	1.0
AtbZIP11_EriAmpPoolHmB-B_ak1	2373288	0.7
AtbZIP11_CviAmpPoolHmB-B_ak1	2693506	0.8
AtbZIP11_ShaAmpPoolHmB-B_ak1	2973112	0.9
AtbZIP11_KyoAmpPoolHmB-B_ak1	2442198	0.7
AtbZIP11_LerAmpPoolHmB-B_ak1	2712331	0.8
AtbZIP11_An1AmpPoolHmB-B_ak1	2565110	0.8
AtbZIP11_ColAmpPoolHmB-B_ak2	3255820	1.0
AtbZIP11_C24AmpPoolHmB-B_ak2	3299859	1.0
AtbZIP11_EriAmpPoolHmB-B_ak2	2383866	0.7
AtbZIP11_CviAmpPoolHmB-B_ak2	2759656	0.8
AtbZIP11_ShaAmpPoolHmB-B_ak2	3028310	0.9
AtbZIP11_KyoAmpPoolHmB-B_ak2	2415269	0.7
AtbZIP11_LerAmpPoolHmB-B_ak2	2683316	0.8
AtbZIP11_An1AmpPoolHmB-B_ak2	2584018	0.8
AtbZIP3_ColAmpPoolHmB-B_ak1	2677328	0.8
AtbZIP3_C24AmpPoolHmB-B_ak1	2493019	0.7
AtbZIP3_EriAmpPoolHmB-B_ak1	2009854	0.6
AtbZIP3_CviAmpPoolHmB-B_ak1	2269912	0.7
AtbZIP3_ShaAmpPoolHmB-B_ak1	2406531	0.7
AtbZIP3_KyoAmpPoolHmB-B_ak1	2101677	0.6
AtbZIP3_LerAmpPoolHmB-B_ak1	2255969	0.7
AtbZIP3_An1AmpPoolHmB-B_ak1	2224890	0.7
AtbZIP3_ColAmpPoolHmB-B_ak2	3126853	0.9
AtbZIP3_C24AmpPoolHmB-B_ak2	2920116	0.9
AtbZIP3_EriAmpPoolHmB-B_ak2	2256595	0.7
AtbZIP3_CviAmpPoolHmB-B_ak2	2610951	0.8
AtbZIP3_ShaAmpPoolHmB-B_ak2	2767087	0.8
AtbZIP3_KyoAmpPoolHmB-B_ak2	2385240	0.7
AtbZIP3_LerAmpPoolHmB-B_ak2	2560278	0.8
AtbZIP3_An1AmpPoolHmB-B_ak2	2514278	0.7
AtbZIP44_ColAmpPoolHmB-B_ak1	4152480	1.2
AtbZIP44_C24AmpPoolHmB-B_ak1	4140654	1.2
AtbZIP44_EriAmpPoolHmB-B_ak1	3256719	1.0
AtbZIP44_CviAmpPoolHmB-B_ak1	3842429	1.1
AtbZIP44_ShaAmpPoolHmB-B_ak1	4030010	1.2
AtbZIP44_KyoAmpPoolHmB-B_ak1	3008333	0.9
AtbZIP44_LerAmpPoolHmB-B_ak1	3322238	1.0
AtbZIP44_An1AmpPoolHmB-B_ak1	3137745	0.9
AtbZIP44_ColAmpPoolHmB-B_ak2	3588782	1.1
AtbZIP44_C24AmpPoolHmB-B_ak2	3485363	1.0
AtbZIP44_EriAmpPoolHmB-B_ak2	2736522	0.8
AtbZIP44_CviAmpPoolHmB-B_ak2	3316281	1.0
AtbZIP44_ShaAmpPoolHmB-B_ak2	3407697	1.0
AtbZIP44_KyoAmpPoolHmB-B_ak2	2530437	0.7
AtbZIP44_LerAmpPoolHmB-B_ak2	2740560	0.8
AtbZIP44_An1AmpPoolHmB-B_ak2	2647425	0.8
AtbZIP1_ColAmpPoolHmB-B_ak1	2378371	0.7
AtbZIP1_C24AmpPoolHmB-B_ak1	2004180	0.6
AtbZIP1_EriAmpPoolHmB-B_ak1	1739580	0.5
AtbZIP1_CviAmpPoolHmB-B_ak1	1955719	0.6
AtbZIP1_ShaAmpPoolHmB-B_ak1	1979624	0.6
AtbZIP1_KyoAmpPoolHmB-B_ak1	1822719	0.5
AtbZIP1_LerAmpPoolHmB-B_ak1	1965857	0.6
AtbZIP1_An1AmpPoolHmB-B_ak1	1920136	0.6
AtbZIP1_ColAmpPoolHmB-B_ak2	2632435	0.8
AtbZIP1_C24AmpPoolHmB-B_ak2	2350529	0.7
AtbZIP1_EriAmpPoolHmB-B_ak2	1809337	0.5
AtbZIP1_CviAmpPoolHmB-B_ak2	2130217	0.6
AtbZIP1_ShaAmpPoolHmB-B_ak2	2179815	0.6
AtbZIP1_KyoAmpPoolHmB-B_ak2	1922765	0.6
AtbZIP1_LerAmpPoolHmB-B_ak2	2116527	0.6
AtbZIP1_An1AmpPoolHmB-B_ak2	2050352	0.6
AtbZIP66_ColAmpPoolHmB-B_ak1	3167670	0.9
AtbZIP66_C24AmpPoolHmB-B_ak1	2773638	0.8
AtbZIP66_EriAmpPoolHmB-B_ak1	2130979	0.6
AtbZIP66_CviAmpPoolHmB-B_ak1	2464763	0.7
AtbZIP66_ShaAmpPoolHmB-B_ak1	2613015	0.8
AtbZIP66_KyoAmpPoolHmB-B_ak1	2375990	0.7
AtbZIP66_LerAmpPoolHmB-B_ak1	2545211	0.7
AtbZIP66_An1AmpPoolHmB-B_ak1	2451340	0.7
AtbZIP66_ColAmpPoolHmB-B_ak2	3831348	1.1
AtbZIP66_C24AmpPoolHmB-B_ak2	3340504	1.0
AtbZIP66_EriAmpPoolHmB-B_ak2	2598782	0.8
AtbZIP66_CviAmpPoolHmB-B_ak2	3013538	0.9
AtbZIP66_ShaAmpPoolHmB-B_ak2	3174253	0.9
AtbZIP66_KyoAmpPoolHmB-B_ak2	2856572	0.8
AtbZIP66_LerAmpPoolHmB-B_ak2	3081568	0.9
AtbZIP66_An1AmpPoolHmB-B_ak2	2988213	0.9
AtbZIP50_ColAmpPoolHmB-B_ak1	2530092	0.7
AtbZIP50_C24AmpPoolHmB-B_ak1	2449760	0.7
AtbZIP50_EriAmpPoolHmB-B_ak1	2025201	0.6
AtbZIP50_CviAmpPoolHmB-B_ak1	2183619	0.6
AtbZIP50_ShaAmpPoolHmB-B_ak1	2352869	0.7
AtbZIP50_KyoAmpPoolHmB-B_ak1	2093856	0.6
AtbZIP50_LerAmpPoolHmB-B_ak1	2306763	0.7
AtbZIP50_An1AmpPoolHmB-B_ak1	2183505	0.6
AtbZIP50_ColAmpPoolHmB-B_ak2	2426470	0.7
AtbZIP50_C24AmpPoolHmB-B_ak2	2491373	0.7
AtbZIP50_EriAmpPoolHmB-B_ak2	1864087	0.5
AtbZIP50_CviAmpPoolHmB-B_ak2	2099487	0.6
AtbZIP50_ShaAmpPoolHmB-B_ak2	2281830	0.7
AtbZIP50_KyoAmpPoolHmB-B_ak2	1926240	0.6
AtbZIP50_LerAmpPoolHmB-B_ak2	2126851	0.6
AtbZIP50_An1AmpPoolHmB-B_ak2	2037961	0.6
AtbZIP26_ColAmpPoolHmB-B_ak2	1944867	0.6
AtbZIP26_C24AmpPoolHmB-B_ak2	1337514	0.4
AtbZIP26_EriAmpPoolHmB-B_ak2	1332505	0.4
AtbZIP26_CviAmpPoolHmB-B_ak2	1583822	0.5
AtbZIP26_ShaAmpPoolHmB-B_ak2	1493540	0.4
AtbZIP26_KyoAmpPoolHmB-B_ak2	1467407	0.4
AtbZIP26_LerAmpPoolHmB-B_ak2	1595479	0.5
AtbZIP26_An1AmpPoolHmB-B_ak2	1658739	0.5
pIXHALO_ColAmpPoolHm-B_ak2	1077046	0.3
pIXHALO_C24AmpPoolHm-B_ak2	694000	0.2
pIXHALO_EriAmpPoolHm-B_ak2	722374	0.2
pIXHALO_CviAmpPoolHm-B_ak2	858396	0.3
pIXHALO_ShaAmpPoolHm-B_ak2	773432	0.2
pIXHALO_KyoAmpPoolHm-B_ak2	752983	0.2
pIXHALO_LerAmpPoolHm-B_ak2	851635	0.2
pIXHALO_An1AmpPoolHm-B_ak2	897434	0.3

Uncheck the tick box to hide columns. Click and drag the handle on the left to change order.

Sort	Visible	Group	Column	Description	ID	Scale
\|\|			Total Read Count	Total Read Count	`Total Read Count`	None
\|\|			Portion (%)	Portion (%)	`Portion (%)`	None

Barcodes of Undetermined Reads

We have determined the barcodes of your undetermined reads. Here are the top 20 barcodes. The full list is available here. If your libraries are dual indexed, the two indices are concatenated.

Showing ²⁰/₂₀ rows and ²/₂ columns.

Barcode Sequence(s)	Count	Frequency (%)
GGGGGGGGAGATCTCG	20372103.0	55.7
GGGGGGGGCTTCGCCT	259337.0	0.7
GGGGGGGGGCCTCTAT	251202.0	0.7
GGGGGGGGTGGAAGCA	233463.0	0.6
GGGGGGGGAGTTCTCG	222921.0	0.6
GGGGGGGGTCTTACGG	214276.0	0.6
GGGGGGGGAACAGGTG	209285.0	0.6
GGGGGGGGACGTCCTG	195395.0	0.5
GGGGGGGGAGTCGAAG	187854.0	0.5
GGGGGGGGAAGGCGTA	176935.0	0.5
GGGGGGGGGTCAGTAC	173270.0	0.5
GGGGGGGGAGGATAGG	164150.0	0.5
GGGGGGGGCGTGTGAT	151995.0	0.4
GGGGGGGGTAAGATTA	140515.0	0.4
GGGGGGGGCTCGTTCT	139851.0	0.4
GGGGGGGGAGGCTATA	130426.0	0.4
GGGGGGGGAACCTCTC	83276.0	0.2
CGGCTAATGGGGGGGG	82423.0	0.2
ATCGATCGGGGGGGGG	76580.0	0.2
TACGCTACGGGGGGGG	74145.0	0.2

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Sort	Visible	Group	Column	Description	ID	Scale
\|\|			Count	Count	`Count`	None
\|\|			Frequency (%)	Frequency (%)	`Frequency (%)`	None

Run Statistics

Showing ¹/₁ rows and ⁴/₄ columns.

Lane	Total # of Single-End Reads	Total # PF Reads	% Undetermined	% PhiX Aligned
2.0	638337024	341386248	10.7	6.0

Uncheck the tick box to hide columns. Click and drag the handle on the left to change order.

Sort	Column	Description	ID	Scale
\|\|	Total # of Single-End Reads	Total # of Single-End Reads	`Total # of Single-End Reads`	None
\|\|	Total # PF Reads	Total # PF Reads	`Total # PF Reads`	None
\|\|	% Undetermined	% Undetermined	`% Undetermined`	None
\|\|	% PhiX Aligned	% PhiX Aligned	`% PhiX Aligned`	None

FastQC

FastQC is a quality control tool for high throughput sequence data, written by Simon Andrews at the Babraham Institute in Cambridge.

Sequence Counts

Sequence counts for each sample. Duplicate read counts are an estimate only.

This plot show the total number of reads, broken down into unique and duplicate if possible (only more recent versions of FastQC give duplicate info).

You can read more about duplicate calculation in the FastQC documentation. A small part has been copied here for convenience:

Only sequences which first appear in the first 100,000 sequences in each file are analysed. This should be enough to get a good impression for the duplication levels in the whole file. Each sequence is tracked to the end of the file to give a representative count of the overall duplication level.

The duplication detection requires an exact sequence match over the whole length of the sequence. Any reads over 75bp in length are truncated to 50bp for this analysis.

Flat image plot. Toolbox functions such as highlighting / hiding samples will not work (see the docs).

Sequence Quality Histograms

The mean quality value across each base position in the read.

To enable multiple samples to be plotted on the same graph, only the mean quality scores are plotted (unlike the box plots seen in FastQC reports).

Taken from the FastQC help:

The y-axis on the graph shows the quality scores. The higher the score, the better the base call. The background of the graph divides the y axis into very good quality calls (green), calls of reasonable quality (orange), and calls of poor quality (red). The quality of calls on most platforms will degrade as the run progresses, so it is common to see base calls falling into the orange area towards the end of a read.

Flat image plot. Toolbox functions such as highlighting / hiding samples will not work (see the docs).

Per Sequence Quality Scores

The number of reads with average quality scores. Shows if a subset of reads has poor quality.

From the FastQC help:

The per sequence quality score report allows you to see if a subset of your sequences have universally low quality values. It is often the case that a subset of sequences will have universally poor quality, however these should represent only a small percentage of the total sequences.

Flat image plot. Toolbox functions such as highlighting / hiding samples will not work (see the docs).

Per Base Sequence Content

The proportion of each base position for which each of the four normal DNA bases has been called.

To enable multiple samples to be shown in a single plot, the base composition data is shown as a heatmap. The colours represent the balance between the four bases: an even distribution should give an even muddy brown colour. Hover over the plot to see the percentage of the four bases under the cursor.

To see the data as a line plot, as in the original FastQC graph, click on a sample track.

From the FastQC help:

Per Base Sequence Content plots out the proportion of each base position in a file for which each of the four normal DNA bases has been called.

In a random library you would expect that there would be little to no difference between the different bases of a sequence run, so the lines in this plot should run parallel with each other. The relative amount of each base should reflect the overall amount of these bases in your genome, but in any case they should not be hugely imbalanced from each other.

It's worth noting that some types of library will always produce biased sequence composition, normally at the start of the read. Libraries produced by priming using random hexamers (including nearly all RNA-Seq libraries) and those which were fragmented using transposases inherit an intrinsic bias in the positions at which reads start. This bias does not concern an absolute sequence, but instead provides enrichement of a number of different K-mers at the 5' end of the reads. Whilst this is a true technical bias, it isn't something which can be corrected by trimming and in most cases doesn't seem to adversely affect the downstream analysis.

Click a sample row to see a line plot for that dataset.

Rollover for sample name

Position: -

%T: -

%C: -

%A: -

%G: -

Per Sequence GC Content

The average GC content of reads. Normal random library typically have a roughly normal distribution of GC content.

From the FastQC help:

This module measures the GC content across the whole length of each sequence in a file and compares it to a modelled normal distribution of GC content.

In a normal random library you would expect to see a roughly normal distribution of GC content where the central peak corresponds to the overall GC content of the underlying genome. Since we don't know the the GC content of the genome the modal GC content is calculated from the observed data and used to build a reference distribution.

An unusually shaped distribution could indicate a contaminated library or some other kinds of biased subset. A normal distribution which is shifted indicates some systematic bias which is independent of base position. If there is a systematic bias which creates a shifted normal distribution then this won't be flagged as an error by the module since it doesn't know what your genome's GC content should be.

Flat image plot. Toolbox functions such as highlighting / hiding samples will not work (see the docs).

Per Base N Content

The percentage of base calls at each position for which an N was called.

From the FastQC help:

If a sequencer is unable to make a base call with sufficient confidence then it will normally substitute an N rather than a conventional base call. This graph shows the percentage of base calls at each position for which an N was called.

It's not unusual to see a very low proportion of Ns appearing in a sequence, especially nearer the end of a sequence. However, if this proportion rises above a few percent it suggests that the analysis pipeline was unable to interpret the data well enough to make valid base calls.

Flat image plot. Toolbox functions such as highlighting / hiding samples will not work (see the docs).

Sequence Length Distribution

All samples have sequences of a single length (101bp).

Sequence Duplication Levels

The relative level of duplication found for every sequence.

From the FastQC Help:

In a diverse library most sequences will occur only once in the final set. A low level of duplication may indicate a very high level of coverage of the target sequence, but a high level of duplication is more likely to indicate some kind of enrichment bias (eg PCR over amplification). This graph shows the degree of duplication for every sequence in a library: the relative number of sequences with different degrees of duplication.

The duplication detection requires an exact sequence match over the whole length of the sequence. Any reads over 75bp in length are truncated to 50bp for this analysis.

In a properly diverse library most sequences should fall into the far left of the plot in both the red and blue lines. A general level of enrichment, indicating broad oversequencing in the library will tend to flatten the lines, lowering the low end and generally raising other categories. More specific enrichments of subsets, or the presence of low complexity contaminants will tend to produce spikes towards the right of the plot.

Flat image plot. Toolbox functions such as highlighting / hiding samples will not work (see the docs).

Overrepresented sequences

The total amount of overrepresented sequences found in each library.

FastQC calculates and lists overrepresented sequences in FastQ files. It would not be possible to show this for all samples in a MultiQC report, so instead this plot shows the number of sequences categorized as over represented.

Sometimes, a single sequence may account for a large number of reads in a dataset. To show this, the bars are split into two: the first shows the overrepresented reads that come from the single most common sequence. The second shows the total count from all remaining overrepresented sequences.

From the FastQC Help:

A normal high-throughput library will contain a diverse set of sequences, with no individual sequence making up a tiny fraction of the whole. Finding that a single sequence is very overrepresented in the set either means that it is highly biologically significant, or indicates that the library is contaminated, or not as diverse as you expected.

FastQC lists all of the sequences which make up more than 0.1% of the total. To conserve memory only sequences which appear in the first 100,000 sequences are tracked to the end of the file. It is therefore possible that a sequence which is overrepresented but doesn't appear at the start of the file for some reason could be missed by this module.

Flat image plot. Toolbox functions such as highlighting / hiding samples will not work (see the docs).

Adapter Content

The cumulative percentage count of the proportion of your library which has seen each of the adapter sequences at each position.

Note that only samples with ≥ 0.1% adapter contamination are shown.

There may be several lines per sample, as one is shown for each adapter detected in the file.

From the FastQC Help:

The plot shows a cumulative percentage count of the proportion of your library which has seen each of the adapter sequences at each position. Once a sequence has been seen in a read it is counted as being present right through to the end of the read so the percentages you see will only increase as the read length goes on.

Flat image plot. Toolbox functions such as highlighting / hiding samples will not work (see the docs).

Status Checks

Status for each FastQC section showing whether results seem entirely normal (green), slightly abnormal (orange) or very unusual (red).

FastQC assigns a status for each section of the report. These give a quick evaluation of whether the results of the analysis seem entirely normal (green), slightly abnormal (orange) or very unusual (red).

It is important to stress that although the analysis results appear to give a pass/fail result, these evaluations must be taken in the context of what you expect from your library. A 'normal' sample as far as FastQC is concerned is random and diverse. Some experiments may be expected to produce libraries which are biased in particular ways. You should treat the summary evaluations therefore as pointers to where you should concentrate your attention and understand why your library may not look random and diverse.

Specific guidance on how to interpret the output of each module can be found in the relevant report section, or in the FastQC help.

In this heatmap, we summarise all of these into a single heatmap for a quick overview. Note that not all FastQC sections have plots in MultiQC reports, but all status checks are shown in this heatmap.

v1.9

MultiQC Toolbox

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Rollover for sample name

Per Sequence GC Content

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Sequence Length Distribution

Sequence Duplication Levels

Overrepresented sequences

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Toggle navigation v1.9

MultiQC Toolbox

Apply Highlight Samples

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About MultiQC

General Statistics

General Statistics: Columns

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Table Tfbr: Columns

Barcodes of Undetermined Reads

Table Iuod: Columns

Run Statistics

Table Dncb: Columns

FastQC

Sequence Counts Help

Sequence Quality Histograms Help

Per Sequence Quality Scores Help

Per Base Sequence Content Help

Rollover for sample name

Per Sequence GC Content Help

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Sequence Length Distribution

Sequence Duplication Levels Help

Overrepresented sequences Help

Adapter Content Help

Status Checks Help

v1.9

Highlight Samples

Rename Samples

Show / Hide Samples

Sequence Counts

Sequence Quality Histograms

Per Sequence Quality Scores

Per Base Sequence Content

Per Sequence GC Content

Per Base N Content

Sequence Duplication Levels

Overrepresented sequences

Adapter Content

Status Checks