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Chromosome-scale assembly of the highly heterozygous genome of red clover (Trifolium pratense L.), an allogamous forage crop species.


ABSTRACT: Relative to other crops, red clover (Trifolium pratense L.) has various favorable traits making it an ideal forage crop. Conventional breeding has improved varieties, but modern genomic methods could accelerate progress and facilitate gene discovery. Existing short-read-based genome assemblies of the ∼420 megabase pair (Mbp) genome are fragmented into >135,000 contigs, with numerous order and orientation errors within scaffolds, probably associated with the plant's biology, which displays gametophytic self-incompatibility resulting in inherent high heterozygosity. Here, we present a high-quality long-read-based assembly of red clover with a more than 500-fold reduction in contigs, improved per-base quality, and increased contig N50 by three orders of magnitude. The 413.5 Mbp assembly is nearly 20% longer than the 350 Mbp short-read assembly, closer to the predicted genome size. We also present quality measures and full-length isoform RNA transcript sequences for assessing accuracy and future genome annotation. The assembly accurately represents the seven main linkage groups in an allogamous (outcrossing), highly heterozygous plant genome.

SUBMITTER: Bickhart DM 

PROVIDER: S-EPMC9650271 | biostudies-literature | 2022

REPOSITORIES: biostudies-literature

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Chromosome-scale assembly of the highly heterozygous genome of red clover (<i>Trifolium pratense</i> L.), an allogamous forage crop species.

Bickhart Derek M DM   Koch Lisa M LM   Smith Timothy P L TPL   Riday Heathcliffe H   Sullivan Michael L ML  

GigaByte (Hong Kong, China) 20220218


Relative to other crops, red clover (<i>Trifolium pratense</i> L.) has various favorable traits making it an ideal forage crop. Conventional breeding has improved varieties, but modern genomic methods could accelerate progress and facilitate gene discovery. Existing short-read-based genome assemblies of the ∼420 megabase pair (Mbp) genome are fragmented into >135,000 contigs, with numerous order and orientation errors within scaffolds, probably associated with the plant's biology, which displays  ...[more]

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