Scientific Reports (Nov 2023)

Recombinant inbred lines derived from wide crosses in Pisum

  • N. Ellis,
  • J. Hofer,
  • E. Sizer-Coverdale,
  • D. Lloyd,
  • G. Aubert,
  • J. Kreplak,
  • J. Burstin,
  • J. Cheema,
  • M. Bal,
  • Y. Chen,
  • S. Deng,
  • R. H. M. Wouters,
  • B. Steuernagel,
  • N. Chayut,
  • C. Domoney

DOI
https://doi.org/10.1038/s41598-023-47329-9
Journal volume & issue
Vol. 13, no. 1
pp. 1 – 13

Abstract

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Abstract Genomic resources are becoming available for Pisum but to link these to phenotypic diversity requires well marked populations segregating for relevant traits. Here we describe two such resources. Two recombinant inbred populations, derived from wide crosses in Pisum are described. One high resolution mapping population involves cv Caméor, for which the first pea whole genome assembly was obtained, crossed to JI0281, a basally divergent P. sativum sativum landrace from Ethiopia. The other is an inter sub-specific cross between P. s. sativum and the independently domesticated P. s. abyssinicum. The corresponding genetic maps provide information on chromosome level sequence assemblies and identify structural differences between the genomes of these two Pisum subspecies. In order to visualise chromosomal translocations that distinguish the mapping parents, we created a simplified version of Threadmapper to optimise it for interactive 3-dimensional display of multiple linkage groups. The genetic mapping of traits affecting seed coat roughness and colour, plant height, axil ring pigmentation, leaflet number and leaflet indentation enabled the definition of their corresponding genomic regions. The consequence of structural rearrangement for trait analysis is illustrated by leaf serration. These analyses pave the way for identification of the underlying genes and illustrate the utility of these publicly available resources. Segregating inbred populations derived from wide crosses in Pisum, together with the associated marker data, are made publicly available for trait dissection. Genetic analysis of these populations is informative about chromosome scale assemblies, structural diversity in the pea genome and has been useful for the fine mapping of several discrete and quantitative traits.