The snapdragon genomes reveal the evolutionary dynamics of the<i>S</i>locus supergene

Zhu, Sihui; Zhang, Yu’e; Copsey, Lucy; Zheng, Dongfeng; Coen, Enrico; Xue, Yongbiao

doi:10.1101/2022.07.17.500290

Cited by 2 publications

(3 citation statements)

References 146 publications

(233 reference statements)

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“…Linking our model to population genetic and genomic data should be very insightful and allow testing some of the model’s qualitative predictions, as well as refining the model and calibrating its parameters. These include estimation of the number of residues distinguishing between different RNase alleles [17], and assessment of between- and within-haplotype SLF diversity [21, 58]. Our model offers predictions regarding the within-class allelic diversity and its dependence on the class size, which could then be contrasted with genomic data.…”

Section: Discussionmentioning

confidence: 99%

“…It would be very interesting to further test this experimentally. The number of SLF alleles per haplotype determined empirically for species with CNSR SI ranged between 17 to 44 [21, 34, 60, 58, 61], which should be a proxy for the number of distinct specificities. The number of compatibility classes in our model depends positively correlates with the population and E th (probability of proteins to interact at random).…”

Section: Discussionmentioning

confidence: 99%

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The role of promiscuous molecular recognition in the evolution of RNase-based self-incompatibility

Erez,

Jangid,

Feldheim

et al. 2023

Preprint

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How do biological networks evolve and expand and which parameters determine their size? We study these questions in the context of the plant collaborative-non-self recognition self-incompatibility system. Self-incompatibility evolved to avoid self-fertilization among hermaphroditic plants. It relies on specific molecular recognition between highly diverse proteins of two families: female and male determinants, such that the combination of alleles an individual possesses determines its mating partners. Though highly diverse, previous models struggled to pinpoint the evolutionary trajectories by which new alleles evolved. Here, we construct a novel theoretical frame-work, that crucially affords interaction promiscuity and multiple distinct partners per protein, empirical findings disregarded by previous models. We demonstrate a dynamic long-term balance between allele emergence and extinction, where their equilibrium number depends on population parameters. Our work highlights the importance of molecular recognition promiscuity to network evolvability. Promiscuity was found in additional systems suggesting that our framework could be more broadly applicable.

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Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

The role of promiscuous molecular recognition in the evolution of RNase-based self-incompatibility

Erez,

Jangid,

Feldheim

et al. 2023

Preprint

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“…Up to now, many efforts on the regulation mechanism of aromatic component biosynthesis has been made in the genus Thymus (Lamiaceae). Though most recently, several pseudo-chromosome level genomes of Plantaginaceae were published [9][10][11] . The molecular basis and evolution of those components biosynthesis in A. buchneroides (Plantaginaceae) are rarely reported due to the lack of a high-quality reference genome.…”

Section: Background and Summarymentioning

confidence: 99%

A chromosome-level reference genome of an aromatic medicinal plant Adenosma buchneroides

Huang,

Wang,

Pei

et al. 2023

Sci Data

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Adenosma buchneroides Bonati, belonging to the genus Adenosum (Plantaginaceae), is an aromatic medicinal plant and utilized in traditional Chinese medicine. It has been widely used as plant-based repellents to prevent vector-borne diseases. However, the lack of a reference genome limits the study of conservation management and molecular biology of A. buchneroides. Here, we generated a chromosome-level de novo genome assembly of A. buchneroides which is a high-quality chromosome-scale assembly of aromatic medicinal plant in Plantaginaceae. The genome has a total length of 442.84 Mb with scaffold N50 of 27.98 Mb and 95.55% of the genome assigned to 14 chromosomes. BUSCO assessment yielded a completeness score of 97.2%. Furthermore, we predicted 24,367 protein-coding genes, and 95.79% of them was functionally annotated. The chromosome-scale genome of A. buchneroides will be a significant resource for understanding the genetic basis and evolution of active components biosynthesis, which will facilitate further study and exploit of A. buchneroides.

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The snapdragon genomes reveal the evolutionary dynamics of theSlocus supergene

Cited by 2 publications

References 146 publications

The role of promiscuous molecular recognition in the evolution of RNase-based self-incompatibility

The role of promiscuous molecular recognition in the evolution of RNase-based self-incompatibility

A chromosome-level reference genome of an aromatic medicinal plant Adenosma buchneroides

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