Yuxiang Yuan scite author profile

FLOWERING LOCUS C (FLC), encoding a MADS-domain transcription factor in Arabidopsis, is a repressor of flowering involved in the vernalization pathway. This provides a good reference for Brassica species. Genomes of Brassica species contain several FLC homologues and several of these colocalize with flowering-time QTL. Here the analysis of sequence variation of BrFLC1 in Brassica rapa and its association with the flowering-time phenotype is reported. The analysis revealed that a G→A polymorphism at the 5’ splice site in intron 6 of BrFLC1 is associated with flowering phenotype. Three BrFLC1 alleles with alternative splicing patterns, including two with different parts of intron 6 retained and one with the entire exon 6 excluded from the transcript, were identified in addition to alleles with normal splicing. It was inferred that aberrant splicing of the pre-mRNA leads to loss-of-function of BrFLC1. A CAPS marker was developed for this locus to distinguish Pi6+1(G) and Pi6+1(A). The polymorphism detected with this marker was significantly associated with flowering time in a collection of 121 B. rapa accessions and in a segregating Chinese cabbage doubled-haploid population. These findings suggest that a naturally occurring splicing mutation in the BrFLC1 gene contributes greatly to flowering-time variation in B. rapa.

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Map-based cloning and characterization of a gene controlling hairiness and seed coat color traits in Brassica rapa

Zhang

Yuan

et al. 2008

Plant Mol Biol

110

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A glabrous, yellow-seeded doubled haploid (DH) line and a hairy, black-seeded DH line in Chinese cabbage (B. rapa) were used as parents to develop a DH line population that segregated for both hairiness and seed coat color traits. The data showed that both traits completely co-segregated each other, suggesting that one Mendelian locus controlled both hairiness and seed coat color in this population. A fine genetic map was constructed and a SNP marker that was located inside a Brassica ortholog of TRANSPARENT TESTA GLABRA 1 (TTG1) in Arabidopsis showed complete linkage to both the hairiness and seed coat color gene, suggesting that the Brassica TTG1 ortholog shared the same gene function as its Arabidopsis counterpart. Further sequence analysis of the alleles from hairless, yellow-seeded and hairy, black-seeded DH lines in B. rapa showed that a 94-base deletion was found in the hairless, yellow-seeded DH lines. A nonfunctional truncated protein in the hairless, yellow-seeded DH lines in B. rapa was suggested by the coding sequence of the TTG1 ortholog. Both of the TTG1 homologs from the black and yellow seeded B. rapa lines were used to transform an Arabidopsis ttg1 mutant and the results showed that the TTG1 homolog from the black seeded B. rapa recovered the Arabidopsis ttg1 mutant, while the yellow seeded homolog did not, suggesting that the deletion in the Brassica TTG1 homolog had led to the yellow seeded natural mutant. This was the first identified gene in Brassica species that simultaneously controlled both hairiness and seed coat color traits.

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FERONIA receptor kinase-regulated reactive oxygen species mediate self-incompatibility in Brassica rapa

Zhang

Huang

et al. 2021

Current Biology

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FERONIA receptor kinase-regulated reactive oxygen species mediate self-incompatibility in Brassica rapa Graphical abstract Highlights d Self-pollination increases and compatible-pollination decreases stigmatic ROS d Reducing ROS can break down SI response d Self-pollination-induced ROS increase is regulated by FER-Rac/Rop-Rboh module d FER-Rac/Rop-Rboh module-dependent stigmatic ROS regulate compatible response

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Yuxiang Yuan

A naturally occurring splicing site mutation in the Brassica rapa FLC1 gene is associated with variation in flowering time

Map-based cloning and characterization of a gene controlling hairiness and seed coat color traits in Brassica rapa

FERONIA receptor kinase-regulated reactive oxygen species mediate self-incompatibility in Brassica rapa

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