The maturation and aging trajectory of Marchantia polymorpha at single-cell resolution.

Bryophytes represent a sister to the rest of land plants. Despite their evolutionary importance and relatively simple body plan, a comprehensive understanding of the cell types and transcriptional states that underpin the temporal development of bryophytes has not been achieved. Using time-resolved single-cell RNA sequencing, we define the cellular taxonomy of Marchantia polymorpha across asexual reproduction phases. We identify two maturation and aging trajectories of the main plant body of M. polymorpha at single-cell resolution: the gradual maturation of tissues and organs along the tip-to-base axis of the midvein and the progressive decline of meristem activities in the tip along the chronological axis. Specifically, we observe that the latter aging axis is temporally correlated with the formation of clonal propagules, suggesting an ancient strategy to optimize allocation of resources to producing offspring. Our work thus provides insights into the cellular heterogeneity that underpins the temporal development and aging of bryophytes.

Analysis of meristems and plant regeneration at single-cell resolution.

Rapid development of high-throughput single-cell RNA sequencing (scRNA-seq) technologies offers exciting opportunities to reveal new and rare cell types, previously hidden cell states, and continuous developmental trajectories. In this review, we first illustrate the ways in which scRNA-seq enables researchers to distinguish between distinct plant cell populations, delineate cell cycle continuums, and infer continuous differentiation trajectories of diverse cell types in shoots, roots, and floral and vascular meristems with unprecedented resolution. We then highlight the emerging power of scRNA-seq to dissect cell heterogeneity in regenerating tissues and uncover the cellular basis of cell reprogramming and stem cell commitment during plant regeneration. We conclude by discussing related outstanding questions in the field.

Development and characterization of SSR markers for Sanguinaria canadensis based on genome skimming.

PREMISE: Polymorphic nuclear simple sequence repeat (nSSR) markers were developed for Sanguinaria canadensis (Papaveraceae), a spring ephemeral native to eastern North America. METHODS AND RESULTS: Based on the genome skimming data of S. canadensis, a total of 240 nSSR primer pairs were designed for 80 loci from the assembled nuclear contigs. Of these primer pairs, 19 were selected for initial validation in four populations (80 individuals). All 19 loci produced heterologous amplification. The numbers of alleles per locus ranged from one to 21; the levels of observed and expected heterozygosity per locus ranged from 0.000 to 1.000 and from 0.000 to 0.847, respectively. Transferability of the loci was tested in the related species Eomecon chionantha. CONCLUSIONS: The developed nSSR markers revealed polymorphism in the four studied populations and may contribute to investigations of the genetic diversity of S. canadensis and E. chionantha.