Background: PIN proteins are an important class of auxin polar transport proteins that play an important regulatory role in plant growth and development. However, their characteristics and functions have not been identified in Gossypium barbadense.
Methods: PIN family genes were identified in the cotton species G. barbadense, Gossypium hirsutum, Gossypium raimondii, and Gossypium arboreum, and detailed bioinformatics analyses were conducted to explore the roles of these genes in G. barbadense using transcriptome data and quantitative reverse-transcription polymerase chain reaction (qRT-PCR) technology. Functional verification of the genes was performed using virus-induced gene silencing (VIGS) technology.
Results: A total of 138 PIN family genes were identified in the four cotton species; the genes were divided into seven subgroups. GbPIN gene family members were widely distributed on 20 different chromosomes, and most had repeated duplication events. Transcriptome analysis showed that some genes had differential expression patterns in different stages of fiber development. According to 'PimaS-7' and '5917' transcript component association analysis, the transcription of five genes was directly related to endogenous auxin content in cotton fibers. qRT-PCR analysis showed that the GbPIN7 gene was routinely expressed during fiber development, and there were significant differences among materials. Transient silencing of the GbPIN7 gene by VIGS led to significantly higher cotton plant growth rates and significantly lower endogenous auxin content in leaves and stems. This study provides comprehensive analyses of the roles of PIN family genes in G. barbadense and their expression during cotton fiber development. Our results will form a basis for further PIN auxin transporter research.
Keywords: Bioinformatics analysis; Expression level; Gossypium barbadense; PIN gene; VIGS.
© 2022 Long et al.