Transcriptome-based network analysis of cell cycle-related genes in response to blue and red light in maize

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS

ACS Applied Bio Materials Pub Date : 2023-12-01 DOI:10.1093/aobpla/plad079

Tiedong Liu, Xiwen Zhang, Shengqun Liu

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Abstract

Abstract In maize, blue and red light are key environmental factors regulating cell-cycle progression. We used transcriptomics to investigate and compare differential gene expression under the four light conditions: red light, blue light, red converted to blue and blue converted to red. A total of 23 differentially expressed genes were identified. The gene–gene interaction analysis indicated a significant interaction between four unidentified genes, 100191551, pco143873, 100284747 and pco060490, and cell-cycle-related genes. Using multiple sequence alignment analysis and protein structure comparisons, we show here that these four unidentified genes were characterized as ALP1-like, ALP1, cyclin P1-1 and AEBP2, respectively. By constructing a protein–protein interaction network, we inferred that 100191551 and pco143873 are potentially regulated to avoid DNA damage by abiotic stress response factors in the cell cycle. The gene 100284747 regulates the cell cycle in response to phosphate starvation signalling. The gene pco060490 potentially negatively regulates the cell cycle through the mediation of Histone H3 and CYCD6 in response to red light. In conclusion, the cell-cycle-related genes are sensitive to blue and red light, and four novel functional genes may be involved in the cell cycle.

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基于转录组的玉米细胞周期相关基因对蓝光和红光响应的网络分析

在玉米中，蓝光和红光是调控细胞周期进程的关键环境因子。我们利用转录组学研究并比较了在红光、蓝光、红转蓝和蓝转红四种光照条件下的差异基因表达。共鉴定出23个差异表达基因。基因-基因互作分析显示，100191551、pco143873、100284747和pco060490四个未确定基因与细胞周期相关基因之间存在显著互作。通过多序列比对分析和蛋白结构比较，我们发现这四个未确定的基因分别为ALP1样、ALP1、cyclin P1-1和AEBP2。通过构建蛋白-蛋白相互作用网络，我们推断100191551和pco143873可能受到调控，避免细胞周期中非生物应激反应因子对DNA的损伤。100284747基因调控细胞周期以响应磷酸盐饥饿信号。pco060490基因可能通过组蛋白H3和CYCD6介导对红光的负性调控细胞周期。综上所述，细胞周期相关基因对蓝光和红光敏感，可能有4种新的功能基因参与了细胞周期。

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来源期刊

ACS Applied Bio Materials Chemistry-Chemistry (all)

CiteScore

9.40

自引率

2.10%

发文量

464