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Chromosome‐scale scaffolds for the Chinese hamster reference genome assembly to facilitate the study of the CHO epigenome

William Hilliard, Madolyn L. MacDonald, Kelvin H. Lee

2020Biotechnology and Bioengineering50 citationsDOI

Abstract

The Chinese hamster genome serves as a reference genome for the study of Chinese hamster ovary (CHO) cells, the preferred host system for biopharmaceutical production. Recent re-sequencing of the Chinese hamster genome resulted in the RefSeq PICR meta-assembly, a set of highly accurate scaffolds that filled over 95% of the gaps in previous assembly versions. However, these scaffolds did not reach chromosome-scale due to the absence of long-range scaffolding information during the meta-assembly process. Here, long-range scaffolding of the PICR Chinese hamster genome assembly was performed using high-throughput chromosome conformation capture (Hi-C). This process resulted in a new "PICRH" genome, where 97% of the genome is contained in 11 mega-scaffolds corresponding to the Chinese hamster chromosomes (2n = 22) and the total number of scaffolds is reduced by three-fold from 1,830 scaffolds in PICR to 647 in PICRH. Continuity was improved while preserving accuracy, leading to quality scores higher than recent builds of mouse chromosomes and comparable to human chromosomes. The PICRH genome assembly will be an indispensable tool for designing advanced genetic engineering strategies in CHO cells and enabling systematic examination of genomic and epigenomic instability through comparative analysis of CHO cell lines on a common set of chromosomal coordinates.

Topics & Concepts

Chinese hamster ovary cellGenomeSequence assemblyBiologyGeneticsBacterial artificial chromosomeChromosomeComputational biologyHuman genomeGeneTranscriptomeCell cultureGene expressionViral Infectious Diseases and Gene Expression in InsectsRNA and protein synthesis mechanismsPlant Virus Research Studies
Chromosome‐scale scaffolds for the Chinese hamster reference genome assembly to facilitate the study of the CHO epigenome | Litcius