Your search keyword '"葛雯冬"' showing total 2 results

1. 结球甘蓝 PRX 基因家族全基因组鉴定与逆境条件下的表达分析.

Author

葛雯冬, 王腾辉, 马天意, 范震宇, and 王玉书

Abstract

Class III peroxidases（PRX）play an important role in plant growth and development and stress response. In this study, the class III PRX gene family of cabbage was identified by bioinformatics, its function and structure were predicted, and the expression patterns of PRX gene under different abiotic stresses were analyzed, aiming to clarify the functional and evolutionary relationship of PRX gene family in cabbage genome. The results showed that a total of 125 BoPRX gene family members were identified in the cabbage genome, and were unevenly distributed on 9 chromosomes, the encoded 173-488 amino acids, and most were hydrophilic. Subcellular localization predicted that most BoPRX genes were located in chloroplasts. Phylogenetic analysis showed that the members of PRX family genes in the cabbage were classified into 5 groups, and members of each group had similar exon/intron structures and protein-conserved motifs. Promoter region analysis revealed that the BoPRX promoter sequence contained a variety of cis-regulatory elements related to abiotic stress responses such as hormones and stress. Heat map analysis of transcriptome data demonstrated that BoPRXs expression was the highest in chloroplasts. Fluorescence quantitative PCR analysis showed that 6 BoPRX genes were induced to be up-regulated by NaCl and PEG. Under ABA stress, except for BoPRX100, the expressions of the memeremaining genes were inhibited at most time, the expressions of the BoPRXs were all differentially regulated by ABA, indicating that they were all involved in the ABA signaling pathway. These findings reveal a complex regulation of PRXs that is dependent on the type of PRX, and the signaling molecule. It provides valuable information for further analysis of the functions of key members of the PRX family of cabbage. [ABSTRACT FROM AUTHOR]

Published

2023

2. 基于极端混合池（BSA）全基因组重测序的羽衣甘蓝 白色叶基因定位.

Author

王腾辉, 葛雯冬, 罗雅方, 范震宇, and 王玉书

Abstract

This study is aimed to screen for key genes and loci associated with white leaf formation in kale (Brassica oleracea L. var. acephala DC) and the genetic patterns of heart leaf color traits. The kale red-leaf parent WR, the white-leaf parent WB and their constructed F2 segregating populations were used as test materials. Twenty red-leaf and white-leaf plants were selected from the F2 population, and two DNA mixing pools were constructed. Whole genome sequencing to offspring mixing pool and parents at 50x and 20x cover depth was conducted respectively, and the association interval of white leaf traits was located and candidate genes were predicted according to the gene annotation information. The results showed that re-sequencing 3 987 718 single nucleic acid polymorphism (SNP) markers were obtained via re-sequencing, 8 significant association intervals on chromosomes 2,3, and 9 were obtained, and 8 candidate genes (Bol030253, Bol029431, Bol012077, Bol007709, Bol030318, Bol030235, Bol030286, and Bol005195) were obtained based on gene annotation and functional analysis. Identifying eight genes as candidate genes for white kale leaves may play an important role in the color formation of kale leaves. [ABSTRACT FROM AUTHOR]

Published

2023