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

Relative to other crops, red clover ( 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.