RRC ID 85024
Author Koyama Y, Nasu M, Matsuoka Y.
Title f4-statistics-based ancestry profiling and convolutional neural network phenotyping shed new light on the structure of genetic and spike shape diversity in Aegilops tauschii Coss.
Journal Proc Jpn Acad Ser B Phys Biol Sci
Abstract Aegilops tauschii Coss., a progenitor of bread wheat, is an important wild genetic resource for breeding. The species comprises three genetically defined lineages (TauL1, TauL2, and TauL3), each displaying distinctive phenotypes in various agronomic traits, including spike shape. In the present work, we studied the relationship between population structure and spike shape variation patterns using a collection of 249 accessions. f4-statistics-based ancestry profiling confirmed the previously identified lineages and revealed a genetic component derived from TauL3 in the genomes of some southern Caspian and Transcaucasus TauL1 and TauL2 accessions. Spike shape variation patterns were analyzed using a convolutional neural network-based approach, trained on green and dry spike image datasets. This analysis showed that spike shape diversity is structured according to lineages and demonstrated that the lineages can be distinguished based on spike shape. The implications of these findings for the origins of common wheat and the intraspecific taxonomy of Ae. tauschii are discussed.
Published 2025-5-21
DOI 10.2183/pjab.101.023
PMID 40399064
MeSH Aegilops* / anatomy & histology Aegilops* / genetics Convolutional Neural Networks Genetic Variation* Neural Networks, Computer* Phenotype
IF 3.0
Resource
Wheat KU-2109 KU-2113 KU-2115 KU-2116 KU-2120 KU-2121 KU-2131 KU-2132 KU-2133 KU-2136