10.6084/m9.figshare.5728797.v1
Jian Zhong
Jian
Zhong
Zhenqing Ye
Zhenqing
Ye
Samuel Lenz
Samuel
Lenz
Chad Clark
Chad
Clark
Adil Bharucha
Adil
Bharucha
Gianrico Farrugia
Gianrico
Farrugia
Keith Robertson
Keith
Robertson
Zhiguo Zhang
Zhiguo
Zhang
Tamas Ordog
Tamas
Ordog
Jeong-Heon Lee
Jeong-Heon
Lee
Additional file 9: of Purification of nanogram-range immunoprecipitated DNA in ChIP-seq application
Springer Nature
2017
Nanogram DNA
ChIP-seq
DNA purification
DNA storage
2017-12-21 05:00:00
Journal contribution
https://springernature.figshare.com/articles/journal_contribution/Additional_file_9_of_Purification_of_nanogram-range_immunoprecipitated_DNA_in_ChIP-seq_application/5728797
ChIP-seq data generated with different purification reagents are highly correlated with the corresponding ENCODE datasets. Scatter plots showing the correlation between the ENCODE reference ChIP-seq data (ENB and ENw) and the corresponding datasets obtained either with standard protocol for the lab (St) or by using different purification reagents as identified in Fig. 1. The genome was divided into 5Â kb bins for H3K4me3 and 100Â kb bins for H3K27me3, and the number of mapped reads in the individual bins was calculated. r, Pearson correlation coefficient. P value in all correlation analysis was 0.001. A and B panels show H3K4me3 and H3K27me3 ChIP-seq data, respectively. (PDF 248Â kb)