Chromosome-scale telomere to telomere genome assembly of common crystalwort (Riccia sorocarpa Bisch.).

Riccia sorocarpa Bisch., commonly known as common crystalwort, is a plant belonging to the Marchantiales order with a cosmopolitan distribution among a wide range of habitats: fields, gardens, waste ground, on paths, cliff tops, and thin soil over rocks or by water bodies. However, research into the genetic aspects of this species is limited. In this study, the chromosome-scale telomere-to-telomere genome of R. sorocarpa was assembled exclusively by Oxford Nanopore long-read sequencing and Pore-C technology. A high-quality chromosomal-scale assembly was obtained with a final genome size of 376.690 Mbp, contig N50 of 49.132 Mbp and 97.02% of the assembled contigs associated with the eight chromosomes. Genome assembly completeness was confirmed by BUSCO analysis accounting 91.8%. Among 27,626 total genes, 23,562 (85.29%) were functionally annotated. Moreover, collinearity of Marchantiales was analyzed as well as gene family evolution and DNA methylation profile. The availability of this genome, which is the second telomere-to-telomere liverwort assembly, opens up new avenues for in-depth analysis of R. sorocarpa genetic diversity and genomic characteristics.