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Chromosomal mapping of a major genetic locus from Agropyron cristatum chromosome 6P that influences grain number and spikelet number in wheat

作者:  来源:10.1007/s00122-024-04584-2  发布日期:2024-04-01  浏览次数:

Chromosomal mapping of a major genetic locus from <i>Agropyron cristatum</i> chromosome 6P that influences grain number and spikelet number in wheat

Lin, Yida, Shenghui Zhou, Wenjing Yang, Bing Han, Xuezhong Liang, Yuxin Zhang, Jinpeng Zhang, Haiming Han, Baojin Guo, Weihua Liu, Xinming Yang, Xiuquan Li and Lihui Li

Theoretical and Applied Genetics

https://doi.org/10.1007/s00122-024-04584-2

ABSTRACT

Agropyron cristatum (2n = 4x = 28, PPPP), which has the characteristics of high yield with multiple flowers and spikelets, is a promising gene donor for wheat high-yield improvement. Identifying the genetic loci and genes that regulate yield could elucidate the genetic variations in yield-related traits and provide novel gene sources and insights for high-yield wheat breeding. In this study, cytological analysis and molecular marker analysis revealed that del10a and del31a were wheat-A. cristatum chromosome 6P deletion lines. Notably, del10a carried a segment of the full 6PS and 6PL bin (1-13), while del31a carried a segment of the full 6PS and 6PL bin (1-8). The agronomic characterization and genetic population analysis confirmed that the 6PL bin (9-13) brought about an increase in grain number per spike (average increase of 10.43 grains) and spikelet number per spike (average increase of 3.67) over the three growing seasons. Furthermore, through resequencing, a multiple grain number locus was mapped to the physical interval of 593.03-713.89 Mb on chromosome 6P of A. cristatum Z559. The RNA-seq analysis revealed the expression of 537 genes in the del10a young spike tissue, with the annotation indicating that 16 of these genes were associated with grain number and spikelet number. Finally, a total of ten A. cristatum-specific molecular markers were developed for this interval. In summary, this study presents novel genetic material that is useful for high-yield wheat breeding initiatives to meet the challenge of global food security through enhanced agricultural production.