Physical seed dormancy in pea is genetically separable from seed coat thickness and roughness

Physical seed dormancy in pea is genetically separable from seed coat thickness and roughness

The seeds of wild pea ( ) exhibit marked physical dormancy due to impermeability of the seed coat to water, and the loss of this dormancy is thought to have been critical for domestication. Wild pea seed coats are also notably thick and rough, traits that have also reduced during domestication and a...

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Bibliographic Details
Published in:Frontiers in plant science Vol. 15; p. 1359226
Main Authors: Williams, Owen R, Vander Schoor, Jacqueline K, Butler, Jakob B, Hecht, Valérie F G, Weller, James L
Format: Journal Article
Language:English
Published: Switzerland Frontiers Media S.A 27-02-2024
Subjects:
domestication
gritty
permeability
Pisum
Plant Science
seed coat
seed dormancy
gritty
seed dormancy
domestication
permeability
Pisum
flavonoid
seed coat
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Summary:The seeds of wild pea ( ) exhibit marked physical dormancy due to impermeability of the seed coat to water, and the loss of this dormancy is thought to have been critical for domestication. Wild pea seed coats are also notably thick and rough, traits that have also reduced during domestication and are anecdotally linked to increased permeability. However, how these traits specifically interact with permeability is unclear. To investigate this, we examined the genetic control of differences in seed coat characteristics between wild ssp. and a non-dormant domesticated accession in a recombinant inbred population. QTL effects were confirmed and their locations refined in segregating F populations. In this population we found a moderate correlation between testa thickness and permeability, and identified loci that affect them independently, suggesting no close functional association. However, the major loci affecting both testa thickness and permeability collocated closely with Mendel's pigmentation locus A, suggesting flavonoid compounds under its control might contribute significantly to both traits. We also show that seed coat roughness is oligogenic in this population, with the major locus independent of both testa thickness and permeability, suggesting selection for smooth seed was unlikely to be due to effects on either of these traits. Results indicate loss of seed coat dormancy during domestication was not primarily driven by reduced testa thickness or smooth seededness. The close association between major permeability and thickness QTL and Mendel's 'A' warrant further study, particularly regarding the role of flavonoids.
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R. Varma Penmetsa, University of California, Davis, United States
Leif Skot, Aberystwyth University, United Kingdom
Reviewed by: Clarice Coyne J., United States Department of Agriculture (USDA), United States
Edited by: Petr Smýkal, Palacký University in Olomouc, Czechia
ISSN:1664-462X
1664-462X
DOI:10.3389/fpls.2024.1359226