HL2 on chromosome 7D of wheat (Triticum aestivum L.) regulates both head length and spikelet number

Key message A major QTL QSpl.nau - 7D , named HL2 , was validated for its effects on head length and kernel number per spike using NIL, and mapped to a 0.2 cM interval using recombinants. Improvement in wheat inflorescence traits such as spike or head length and spikelet number provides an important...

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Bibliographic Details
Published in:Theoretical and applied genetics 2019-06, Vol.132 (6), p.1789-1797
Main Authors: Yao, Hongni, Xie, Quan, Xue, Shulin, Luo, Jing, Lu, Jikang, Kong, Zhongxin, Wang, Yongpan, Zhai, Wenling, Lu, Nan, Wei, Rong, Yang, Yang, Han, Yuzhou, Zhang, Yong, Jia, Haiyan, Ma, Zhengqiang
Format: Article
Language:English
Subjects:
Agriculture
Alleles
Biochemistry
Biomedical and Life Sciences
Biotechnology
Chromosome 7
Chromosome Mapping - methods
chromosomes
Chromosomes, Plant - genetics
Crop yields
Cultivars
Evolutionary conservation
field experimentation
Fusarium head blight
Gene mapping
Genotypes
grain yield
grasses
Haplotypes
homozygosity
inbred lines
Inbreeding
Kernels
Life Sciences
Marker-assisted selection
Original Article
Plant Biochemistry
Plant breeding
Plant Breeding/Biotechnology
Plant Genetics and Genomics
Population density
Population genetics
Quantitative genetics
Quantitative Trait Loci
Quantitative Trait, Heritable
Recombinants
seeds
Seeds - genetics
Seeds - growth & development
Small mammals
spikelets
Synteny
Triticum - genetics
Triticum - growth & development
Triticum aestivum
Wheat
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Summary:Key message A major QTL QSpl.nau - 7D , named HL2 , was validated for its effects on head length and kernel number per spike using NIL, and mapped to a 0.2 cM interval using recombinants. Improvement in wheat inflorescence traits such as spike or head length and spikelet number provides an important avenue to increase grain yield potential. In a previous study, QSpl.nau - 7D , the major QTL for head length on chromosome 7D, was identified in the recombinant inbred lines derived from Nanda2419 and Wangshuibai. To validate and precisely map this QTL, the Wangshuibai allele was transferred to elite cultivar Yangmai15 through marker-assisted selection. Compared with the recurrent parent, the resultant near-isogenic line (NIL) yielded not only 28% longer spikes on the average but also more spikelets and kernels per spike. Moreover, the NIL had a lower spikelet density and did not show significant kernel weight change. In the F 2 population derived from the NIL, QSpl.nau - 7D acted like a single semi-dominant gene controlling head length and was therefore designated as Head Length 2 ( HL2 ). With this population, a high-density genetic map was constructed mainly using newly developed markers, and 100 homozygous recombinants including 17 genotypes were obtained. Field experiments showed that the recombinants carrying the 0.2-cM interval flanked by Xwgrb1588 and Xwgrb1902 from Wangshuibai produced longer spikes than those without this Wangshuibai allele. Comparative mapping of this interval revealed a conserved synteny among cereal grasses. HL2 is beneficial to wheat breeding for more kernels per spike at a lower spikelet density, which is a favored morphological trait for Fusarium head blight resistance.
ISSN:0040-5752
1432-2242
DOI:10.1007/s00122-019-03315-2