Comparative histology of abscission zones reveals the extent of convergence and divergence in seed shattering in weedy and cultivated rice

Li, Xiang; Lowey, Daniel; Lessard, Jessica; Caicedo, Ana L

doi:10.1093/jxb/erae221

Journal of Experimental Botany

2024

DOI: 10.1093/jxb/erae221

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Comparative histology of abscission zones reveals the extent of convergence and divergence in seed shattering in weedy and cultivated rice

Xiang Li,

Daniel Lowey,

Jessica Lessard

et al.

Abstract: The modification of seed shattering has been a recurring theme in rice evolution. The wild ancestor of cultivated rice disperses its seeds, but reduced shattering was selected during multiple domestication events to facilitate harvesting. Conversely, selection for increased shattering occurred during the evolution of weedy rice, a weed invading cultivated rice fields that has originated multiple times from domesticated ancestors. Shattering requires formation of a tissue known as the abscission zone (AZ), but … Show more

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Comparative tissue-specific transcriptomics reveal the genetic bases underlying evolutionary convergence of seed shattering in two independently evolved weedy rice lineages

Li,

Caicedo

2024

Preprint

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The repeated evolution of high seed shattering during multiple independent de-domestications of cultivated Asian rice (Oryza sativa) into weedy rice is a prime example of convergent evolution. Weedy rice populations converge in histological features of the abscission zone (AZ), a crucial structure for seed abscission, while ancestral cultivated rice populations exhibit varied AZ morphology and levels of shattering. However, the genetic bases of these phenotypic patterns remain unclear. We examined the expression profiles of the AZ region and its surrounding tissues at three developmental stages in two low-shattering cultivars of aus and temperate japonica domesticated varieties and in two genotypes of their derived high-shattering weed groups, Blackhull Awned (BHA) and Spanish Weedy Rice (SWR), respectively. Consistent with the greater alteration of AZ morphology during the de-domestication of SWR than BHA, fewer genes exhibited a comparable AZ-region exclusive expression pattern between weed and crop in the japonica lineage than in aus lineage. Transcription factors related to the repression of lignin and secondary cell deposition, such as, OsWRKY102 and OsXND-1-like, along with certain known shattering genes involved in AZ formation, likely played a role in maintaining AZ region identity in both lineages. Meanwhile, most genes exhibiting AZ-region exclusive expression patterns do not overlap between the two lineages and the genes exhibiting differential expression in the AZ region between weed and crop across the two lineages are enriched for different gene ontology terms. Our findings suggest genetic flexibility in shaping AZ morphology, while genetic constraints on AZ identity determination in these two lineages.

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Comparative tissue-specific transcriptomics reveal the genetic bases underlying evolutionary convergence of seed shattering in two independently evolved weedy rice lineages

Li,

Caicedo

2024

Preprint

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Comparative histology of abscission zones reveals the extent of convergence and divergence in seed shattering in weedy and cultivated rice

Cited by 1 publication

References 70 publications

Comparative tissue-specific transcriptomics reveal the genetic bases underlying evolutionary convergence of seed shattering in two independently evolved weedy rice lineages

Comparative tissue-specific transcriptomics reveal the genetic bases underlying evolutionary convergence of seed shattering in two independently evolved weedy rice lineages

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