Allele-specific open chromatin in human iPSC neurons elucidates functional disease variants
Most neuropsychiatric disease risk variants are in noncoding sequences and lack functional
interpretation. Because regulatory sequences often reside in open chromatin, we reasoned …
interpretation. Because regulatory sequences often reside in open chromatin, we reasoned …
[PDF][PDF] Allele-specific open chromatin in human iPSC neurons elucidates functional disease variants
S Zhang, H Zhang, Y Zhou, M Qiao, S Zhao… - Science, 2020 - scholar.archive.org
Most neuropsychiatric disease risk variants are in noncoding sequences and lack functional
interpretation. Because regulatory sequences often reside in open chromatin, we reasoned …
interpretation. Because regulatory sequences often reside in open chromatin, we reasoned …
Allele-specific open chromatin in human iPSC neurons elucidates functional disease variants
S Zhang, H Zhang, Y Zhou, M Qiao, S Zhao, A Kozlova… - paper.sciencenet.cn
Most neuropsychiatric disease risk variants are in noncoding sequences and lack functional
interpretation. Because regulatory sequences often reside in open chromatin, we reasoned …
interpretation. Because regulatory sequences often reside in open chromatin, we reasoned …
Allele-specific open chromatin in human iPSC neurons elucidates functional disease variants
S Zhang, H Zhang, Y Zhou, M Qiao… - … (New York, NY), 2020 - pubmed.ncbi.nlm.nih.gov
Most neuropsychiatric disease risk variants are in noncoding sequences and lack functional
interpretation. Because regulatory sequences often reside in open chromatin, we reasoned …
interpretation. Because regulatory sequences often reside in open chromatin, we reasoned …
Allele-specific open chromatin in human iPSC neurons elucidates functional disease variants
S Zhang, H Zhang, Y Zhou, M Qiao, S Zhao… - Science, 2020 - pure.johnshopkins.edu
Most neuropsychiatric disease risk variants are in noncoding sequences and lack functional
interpretation. Because regulatory sequences often reside in open chromatin, we reasoned …
interpretation. Because regulatory sequences often reside in open chromatin, we reasoned …
[HTML][HTML] Allele-specific open chromatin in human iPSC neurons elucidates functional disease variants
S Zhang, H Zhang, Y Zhou, M Qiao, S Zhao… - Science (New York …, 2020 - ncbi.nlm.nih.gov
Most neuropsychiatric disease risk variants are in noncoding sequences and lack functional
interpretation. Because regulatory sequences often reside in open chromatin, we reasoned …
interpretation. Because regulatory sequences often reside in open chromatin, we reasoned …
Allele-specific open chromatin in human iPSC neurons elucidates functional disease variants
S Zhang, H Zhang, Y Zhou, M Qiao, S Zhao… - …, 2020 - researchwithrutgers.com
Most neuropsychiatric disease risk variants are in noncoding sequences and lack functional
interpretation. Because regulatory sequences often reside in open chromatin, we reasoned …
interpretation. Because regulatory sequences often reside in open chromatin, we reasoned …
Allele-specific open chromatin in human iPSC neurons elucidates functional disease variants.
S Zhang, H Zhang, Y Zhou, M Qiao, S Zhao… - Science (New York …, 2020 - europepmc.org
Most neuropsychiatric disease risk variants are in noncoding sequences and lack functional
interpretation. Because regulatory sequences often reside in open chromatin, we reasoned …
interpretation. Because regulatory sequences often reside in open chromatin, we reasoned …
Allele-specific open chromatin in human iPSC neurons elucidates functional disease variants
S Zhang, H Zhang, Y Zhou, M Qiao, S Zhao… - Science, 2020 - ui.adsabs.harvard.edu
Most neuropsychiatric disease risk variants are in noncoding sequences and lack functional
interpretation. Because regulatory sequences often reside in open chromatin, we reasoned …
interpretation. Because regulatory sequences often reside in open chromatin, we reasoned …
[PDF][PDF] Allele-specific open chromatin in human iPSC neurons elucidates functional disease variants
S Zhang, H Zhang, Y Zhou, M Qiao, S Zhao, A Kozlova… - researchgate.net
Most neuropsychiatric disease risk variants are in noncoding sequences and lack functional
interpretation. Because regulatory sequences often reside in open chromatin, we reasoned …
interpretation. Because regulatory sequences often reside in open chromatin, we reasoned …