Identification and Validation of a Novel Major QTL Controlling Leaf Pubescence in the Chinese Wheat Landrace ‘Baimaomai’

Author:

Liu Zehou,Wang Qin,Wan Hongshen,Yang FanORCID,Li Shizhao,Yang Manyu,Luo Jiangtao,Zheng Jianmin,Deng Qingyan,Long Hai,Deng Guangbing,Yang Ning,Li Jun,Yang WuyunORCID

Abstract

Leaf pubescence is an important trait closely associated with plant adaptability to specialized habitats. Baimaomai (BMM) is a wheat (Triticum aestivum L.) landrace originating from the high-altitude, drought-prone environment of Sichuan Province, China with long, dense leaf pubescence. A population of 234 recombinant inbred lines (F10) developed from the cross between Chuanmai104 (CM104), which lacks leaf pubescence, and BMM with pubescent leaves, was used to conduct a phenotypic evaluation of leaf pubescence. Three quantitative trait loci (QTLs) were detected on chromosome arms 7BS, 3DL and 3AL using a high-density wheat 50K single-nucleotide polymorphism array in four environments. The QTLs were designated QLp.saas-7BS, QLp.saas-3DL and QLp.saas-3AL. QLp.saas-3AL, derived from BMM, and QLp.saas-3DL, derived from CM104, were new minor-effect loci. QLp.saas-7BS, derived from BMM, was a novel major-effect locus detected in all environments and was localized in a 0.48 Mb interval on chromosome arm 7BS based on the wheat ‘Chinese Spring’ reference genome. QLp.saas-7BS explained up to 40.77% of the total phenotypic variance. KASP markers tightly linked to QLp.saas-7BS were developed and verified. The present results provide valuable information for further fine mapping, cloning, and marker-assisted selection with QLp.saas-7BS in wheat.

Publisher

MDPI AG

Subject

Agronomy and Crop Science

Reference50 articles.

1. Systematic anatomy of dicotyledons: A handbook for laboratories of pure and applied botany;Solereder;Nature,1908

2. Leaf Pubescence: Effects on Absorptance and Photosynthesis in a Desert Shrub

3. Effect of leaf pubescence on tarnished plant bug (Hemiptera: Miridae) ability to cause damage and yield loss in cotton;Wood;J. Cotton Sci.,2017

4. OsGL6, a conserved AP2 domain protein, promotes leaf trichome initiation in rice

5. Leaf anatomy and function of chapter 5;Oguchi,2018

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