Genome-Wide Identification and Expression Analysis of the Metacaspase Gene Family in Gossypium Species.

Senmiao Fan ,Tingting Jia ,Qún Gě ,Yǒulù Yuán ,Shuya Zhang ,Àiyīng Liú ,Jǔwǔ Gōng ,Yùzhēn Shí ,Zhen Zhang ,Jùnwén Lǐ ,Xiao Jiang ,Jinyong Huang ,Xianyan Zou ,Kang Lei ,Liqiang Fan ,Lipeng Zhang ,Zhibin Zhang ,Wànkuí Gǒng ,Xiǎoyīng Dèng ,Hǎihóng Shāng

doi:10.3390/genes10070527

Senmiao Fan , Tingting Jia + Show 18 more

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https://doi.org/10.3390/genes10070527

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Abstract

Metacaspases (MCs) are cysteine proteases that are important for programmed cell death (PCD) in plants. In this study, we identified 89 MC genes in the genomes of four Gossypium species (Gossypium raimondii, Gossypium barbadense, Gossypium hirsutum, and Gossypium arboreum), and classified them as type-I or type-II genes. All of the type-I and type-II MC genes contain a sequence encoding the peptidase C14 domain. During developmentally regulated PCD, type-II MC genes may play an important role related to fiber elongation, while type-I genes may affect the thickening of the secondary wall. Additionally, 13 genes were observed to be differentially expressed between two cotton lines with differing fiber strengths, and four genes (GhMC02, GhMC04, GhMC07, and GhMC08) were predominantly expressed in cotton fibers at 5–30 days post-anthesis (DPA). During environmentally induced PCD, the expression levels of four genes were affected in the root, stem, and leaf tissues within 6 h of an abiotic stress treatment. In general, the MC gene family affects the development of cotton fibers, including fiber elongation and fiber thickening while four prominent fiber- expressed genes were identified. The effects of the abiotic stress and hormone treatments imply that the cotton MC gene family may be important for fiber development. The data presented herein may form the foundation for future investigations of the MC gene family in Gossypium species.

Highlights

Programmed cell death (PCD) is an important factor affecting developmental biology and the maintenance of the steady state in continuously renewing tissues [1]
To examine the MC gene structures in Gossypium species, information regarding the exons and introns of the MC gene family members was retrieved from GFF3 files, and exon/intron structures were visualized with the Gene Structure Display Server 2.0 [33]
A bioinformatics analysis involving the Pfam database revealed that all deduced proteins had a caspase-like domain (PF00656), implying the corresponding genes belong to the MC family [52]

Summary

Introduction

Programmed cell death (PCD) is an important factor affecting developmental biology and the maintenance of the steady state in continuously renewing tissues [1]. It is essential for plant growth and development, survival following a pathogen invasion, and resistance against environmental stresses. There are two broad PCD categories in plants, namely developmentally regulated PCD (dPCD). Despite the importance of PCD in plants, the underlying molecular mechanisms remain largely uncharacterized [4]. The molecular mechanisms regulating PCD in animals have been elucidated based on analyses of the model system Caenorhabditis elegans [5].

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