Abstract
Some C2H2 zinc-finger proteins (ZFP) transcription factors are involved in the development of pollen in plants. In grapevine (Vitis vinifera L.), it has been suggested that abnormalities in pollen development lead to the phenomenon called parthenocarpy that occurs in some varieties of this cultivar. At present, a network involving several transcription factors types has been revealed and key roles have been assigned to members of the C2H2 zinc-finger proteins (ZFP) family in model plants. However, particularities of the regulatory mechanisms controlling pollen formation in grapevine remain unknown. In order to gain insight into the participation of ZFPs in grapevine gametophyte development, we performed a genome-wide identification and characterization of genes encoding ZFP (VviZFP family). A total of 98 genes were identified and renamed based on the gene distribution into grapevine genome. The analysis performed indicate significant changes throughout VviZFP genes evolution explained by high heterogeneity in sequence, length, number of ZF and presence of another conserved domains. Moreover, segmental duplication participated in the gene family expansion in grapevine. The VviZFPs were classified based on domain and phylogenetic analysis into three sets and different groups. Heat-map demonstrated differential and tissue-specific expression patterns of these genes and k-means clustering allowed to identify a group of putative orthologs to some ZFPs related to pollen development. In transgenic plants carrying the promVviZFP13::GUS and promVviZFP68::GUS constructs, GUS signals were detectable in the anther and mature pollen grains. Expression profiling of selected VviZFP genes showed differential expression pattern during flower development and provides a basis for deepening in the understanding of VviZFPs role on grapevine reproductive development.
Highlights
Male reproductive development in plants is a highly regulated process where transcription factors (TF) have been shown to play a fundamental role
We found 101 zinc-finger proteins (ZFP) in the grapevine deduced proteome (Table S2) and the SMART analysis confirmed the presence of the C2H2 zinc-finger domains (ZF) domain in 98 of them
This number is greater than the 64-gene-list hosted in the Plant Transcription Factor Database v4.0 [74], which could mean that we identified novel variants of C2H2 ZFP genes in the grapevine genome
Summary
Male reproductive development in plants is a highly regulated process where transcription factors (TF) have been shown to play a fundamental role. In Arabidopsis (Arabidopsis thaliana (L.) Heynh) [1], the most abundant family of transcriptional regulators contains one or more zinc-finger domains (ZF) and, for this reason, they are named zinc-finger proteins (ZFP). The ZFPs are classified according to the number and location of C and H residues [2]. C2H2ZFPs, which are otherwise termed as TF3A-type ZFP or the Krüppel-like ZFPs, can interact with DNA, RNA, and proteins, participating in transcriptional regulation and in chromatin regulation and RNA metabolism [3]. This versatility is expressed in the diversity of biological functions performed by these proteins
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