矮牵牛BBX基因家族成员鉴定及对不同光质的表达响应

符真珠1,蒋卉1,王锐1,王慧娟1,李艳敏1,徐梦岚1,2,晁亚琮1,2,董晓宇1,高杰1,王利民1,张和臣1,*
1河南省农业科学院园艺研究所, 郑州450002;2河南农业大学林学院, 郑州450002

通信作者:张和臣;E-mail: zhc5128@126.com

摘 要:

BBXs (B-box zinc fnger genes)是植物中一类重要的编码转录因子的基因, 它们在控制植物生长发育、响应环境胁迫中起着重要作用。本研究对两个矮牵牛野生种(Petunia inflataP. axillaris)基因组中的BBXs基因家族成员进行了鉴定和分析; 其中在P. axillaris基因组中共发现有29个成员, P. inflata32个成员。氨基酸序列比对和进化树分析表明, 它们共分化形成了5个亚家族, 其中含有2B-box结构域的有3个亚家族, 分别是G1G2G4; 只有1B-box结构域的有G3G5。另外, G1G2G3亚家族中的成员除了含有B-box结构域, C端还有一个相对保守的CCT结构域。对不同光质条件下矮牵牛花瓣中的BBXs基因进行转录分析, 发现共有9个成员出现了差异性表达; 其中BBX18BBX24BBX25在红光条件下表达明显减弱, 与矮牵牛花色积累的表型趋势一致, 推测它们可能参与不同光质条件下花青苷的调控过程。

关键词:转录因子; BBX基因; 基因表达; 矮牵牛; 光

收稿:2020-06-24   修定:2020-10-09

资助:国家自然科学基金(31701945)和河南省农业科学院科研发展专项资金(2020CY017)

BBX gene family members in Petunia: comparative genome analysis and expression pattern under different light quality conditions

FU Zhenzhu1, JIANG Hui1, WANG Rui1, WANG Huijuan1, LI Yanmin1, XU Menglan1,2, CHAO Yacong1,2, DONG Xiaoyu1, GAO Jie1, WANG Limin1, ZHANG Hechen1,*
1Horticultural Research Institute, Henan Academy of Agricultural Sciences, Zhengzhou 450002, China; 2College of Forestry, Henan Agricultural University, Zhengzhou 450002, China

Corresponding author: ZHANG Hechen; E-mail: zhc5128@126.com

Abstract:

The B-box zinc fnger genes (BBXs) encoding a type of zinc fnger transcription factors in plants, which play important roles in controlling plant growth development and response to environmental stress. In this study, a total of 29 gene members were identifed from the genome of Petunia axillaris and 32 members were from P. inflata. Alignment of their putative encoding amino acids and phylogenetic tree analysis showed that they can be divided into fve subfamilies (G1-G5). G1, G2 and G4 members contained two B-box domains, and G3 and G5 members only contained one. In addition to the B-box domain, G1, G2 and G3 members all contained a conserved CCT domain in their C terminal. Transcriptome analysis of these BBXs under different light-quality conditions showed that nine of them were differentially expressed. Among them, BBX18, BBX24 and BBX25 were signifcantly decreased under the red light condition. Interestingly, their expression pattern was consistent with the flower petals’ pigmentation phenotype, which means that these genes could be involved in the regulation of anthocyanin synthesis in response to different light conditions


Key words: transcription factor; BBX gene; gene expression; Petunia; light quality

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