| Summary: | The MYB (<i>v-Myb</i> avivan myoblastsis virus oncogene homolog) transcription factor family is one of the largest families of plant transcription factors which plays a vital role in many aspects of plant growth and development. MYB-related is a subclass of the MYB family. Fifty-nine <i>Arabidopsis thaliana</i> MYB-related (<i>AtMYB</i>-related) genes have been identified. In order to understand the functions of these genes, in this review, the promoters of <i>AtMYB</i>-related genes were analyzed by means of bioinformatics, and the progress of research into the functions of these genes has been described. The main functions of these <i>AtMYB</i>-related genes are light response and circadian rhythm regulation, root hair and trichome development, telomere DNA binding, and hormone response. From an analysis of cis-acting elements, it was found that the promoters of these genes contained light-responsive elements and plant hormone response elements. Most genes contained elements related to drought, low temperature, and defense and stress responses. These analyses suggest that <i>AtMYB</i>-related genes may be involved in <i>A. thaliana</i> growth and development, and environmental adaptation through plant hormone pathways. However, the functions of many genes do not occur independently but instead interact with each other through different pathways. In the future, the study of the role of the gene in different pathways will be conducive to a comprehensive understanding of the function of the gene. Therefore, gene cloning and protein functional analyses can be subsequently used to understand the regulatory mechanisms of <i>AtMYB</i>-related genes in the interaction of multiple signal pathways. This review provides theoretical guidance for the follow-up study of plant MYB-related genes.
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