Mapping open chromatin regions has emerged as a widely used tool for identifying active regulatory elements in eukaryotes. However, existing approaches, limited by reliance on …
Z Shipony, GK Marinov, MP Swaffer… - paper.sciencenet.cn
Mapping open chromatin regions has emerged as a widely used tool for identifying active regulatory elements in eukaryotes. However, existing approaches, limited by reliance on …
Z Shipony, GK Marinov, MP Swaffer… - scholar.archive.org
Active regulatory elements in eukaryotes are typically characterized by an open, nucleosomedepleted chromatin structure; mapping areas of open chromatin has accordingly …
Active regulatory elements in eukaryotes are typically characterized by an open, nucleosome-depleted chromatin structure; mapping areas of open chromatin has …
Mapping open chromatin regions has emerged as a widely used tool for identifying active regulatory elements in eukaryotes. However, existing approaches, limited by reliance on …
Mapping open chromatin regions has emerged as a widely used tool for identifying active regulatory elements in eukaryotes. However, existing approaches, limited by reliance on …
Z Shipony, GK Marinov, MP Swaffer… - (No Title), 2018 - cir.nii.ac.jp
抄録< jats: title> Abstract</jats: title>< jats: p> Active regulatory elements in eukaryotes are typically characterized by an open, nucleosome-depleted chromatin structure; mapping …
Mapping open chromatin regions has emerged as a widely used tool for identifying active regulatory elements in eukaryotes. However, existing approaches, limited by reliance on …
Active regulatory elements in eukaryotes are typically characterized by an open, nucleosome-depleted chromatin structure; mapping areas of open chromatin has …