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A major vernalization-independent QTL for tiller angle on chromosome arm 2BL in bread wheat

Jiajun Liu, Jieguang Zhou, Huaping Tang, Yang Tu, Mu Yang, Lulu Gou, Qiantao Jiang, Yaxi Liu, Guoyue Chen, Jirui Wang, Pengfei Qi, Wei Li, Yunfeng Jiang, Zehong Yan, Houyang Kang, Yuming Wei, Xiujin Lan, Youliang Zheng, Jian Ma

2021The Crop Journal46 citationsDOIOpen Access PDF

Abstract

Tiller angle (TA) strongly influences plant architecture and grain yield in cereals. However, the genetic basis of TA in wheat is largely unknown. We identified three TA-related quantitative trait loci (QTL). One of them was QTa.sau-2B-769, a major QTL localized on chromosome arm 2BL. QTa.sau-2B-769 was detected in seven environments, explaining 18.1%–51.1% of phenotypic variance. We developed a linked Kompetitive Allele-Specific Polymerase chain reaction (KASP) marker, KASP-AX-108792274, to further validate this locus in three additional populations in multiple environments. QTa.sau-2B-769 increased TA by up to 24.9% in these populations. There were significant and positive correlations between TA and flag leaf angle (FLANG). However, TA was not correlated with plant height or anthesis date, suggesting that expression of QTa.sau-2B-769 is independent of vernalization. TraesCS2B01G583800, a gene known to be involved in leaf angle regulation, was identified as the most likely candidate gene for QTa.sau-2B-769. These results enrich our understanding of the mechanisms regulating wheat TA at maturity and may support precise mapping and cloning of gene(s) underlying QTa.sau-2B-769.

Topics & Concepts

BiologyQuantitative trait locusGeneticsLocus (genetics)VernalizationTiller (botany)GeneCandidate geneAllelePhenotypeVariants of PCRBotanyWheat and Barley Genetics and PathologyGenetic Mapping and Diversity in Plants and AnimalsCrop Yield and Soil Fertility
A major vernalization-independent QTL for tiller angle on chromosome arm 2BL in bread wheat | Litcius