Mutations of <scp>PsPALM1a</scp> and <scp>PsPALM1b</scp> associated with the afila phenotype in Pea

Yuan, Zhuo; Xie, Xiaoting; liu, Mingli; He, Yexin; He, Liangliang

doi:10.1111/ppl.14310

Physiologia Plantarum

2024

DOI: 10.1111/ppl.14310

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Mutations of PsPALM1a and PsPALM1b associated with the afila phenotype in Pea

Zhuo Yuan,

Xiaoting Xie,

Mingli liu

et al.

Abstract: Semi‐leafless represents an advantageous plant architecture in pea breeding due to its ability to enhance resistance to lodging and potentially to powdery mildew. The introduction of semi‐leafless pea varieties is considered a seminal advancement in pea breeding over the past half‐century. The afila (af) mutation leads to the replacement of lateral leaflets by highly branched tendrils; combined with the semi‐dwarfing le mutation, it forms the semi‐leafless cultivated variety. In this study, we identified that … Show more

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afila, the origin and nature of a major innovation in the history of pea breeding

Tayeh,

Hofer,

Aubert

et al. 2024

New Phytologist

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Summary The afila (af) mutation causes the replacement of leaflets by a branched mass of tendrils in the compound leaves of pea – Pisum sativum L. This mutation was first described in 1953, and several reports of spontaneous af mutations and induced mutants with a similar phenotype exist. Despite widespread introgression into breeding material, the nature of af and the origin of the alleles used remain unknown. Here, we combine comparative genomics with reverse genetic approaches to elucidate the genetic determinants of af. We also investigate haplotype diversity using a set of AfAf and afaf cultivars and breeding lines and molecular markers linked to seven consecutive genes. Our results show that deletion of two tandemly arranged genes encoding Q‐type Cys(2)His(2) zinc finger transcription factors, PsPALM1a and PsPALM1b, is responsible for the af phenotype in pea. Eight haplotypes were identified in the af‐harbouring genomic region on chromosome 2. These haplotypes differ in the size of the deletion, covering more or less genes. Diversity at the af locus is valuable for crop improvement and sheds light on the history of pea breeding for improved standing ability. The results will be used to understand the function of PsPALM1a/b and to transfer the knowledge for innovation in related crops.

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afila, the origin and nature of a major innovation in the history of pea breeding

Tayeh,

Hofer,

Aubert

et al. 2024

New Phytologist

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show abstract

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Mutations of PsPALM1a and PsPALM1b associated with the afila phenotype in Pea

Cited by 1 publication

References 27 publications

afila, the origin and nature of a major innovation in the history of pea breeding

afila, the origin and nature of a major innovation in the history of pea breeding

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