Three-dimensional genome structures of single diploid human cells.

Science
Authors
Keywords
Abstract

Three-dimensional genome structures play a key role in gene regulation and cell functions. Characterization of genome structures necessitates single-cell measurements. This has been achieved for haploid cells but has remained a challenge for diploid cells. We developed a single-cell chromatin conformation capture method, termed Dip-C, that combines a transposon-based whole-genome amplification method to detect many chromatin contacts, called META (multiplex end-tagging amplification), and an algorithm to impute the two chromosome haplotypes linked by each contact. We reconstructed the genome structures of single diploid human cells from a lymphoblastoid cell line and from primary blood cells with high spatial resolution, locating specific single-nucleotide and copy number variations in the nucleus. The two alleles of imprinted loci and the two X chromosomes were structurally different. Cells of different types displayed statistically distinct genome structures. Such structural cell typing is crucial for understanding cell functions.

Year of Publication
2018
Journal
Science
Volume
361
Issue
6405
Pages
924-928
Date Published
2018 08 31
ISSN
1095-9203
DOI
10.1126/science.aat5641
PubMed ID
30166492
PubMed Central ID
PMC6360088
Links
Grant list
DP1 CA186693 / CA / NCI NIH HHS / United States
R01 HG010040 / HG / NHGRI NIH HHS / United States