Abstract
BackgroundThe bHLH (basic helix-loop-helix) transcription factor is one of the largest families of transcription factors in plants, containing a large number of members with diverse functions. Chinese jujube (Ziziphus jujuba Mill.) is the species with the highest economic value in the family Rhamnaceae. However, the characteristics of the bHLH family in the jujube genome are still unclear. Hence, ZjbHLHs were first searched at a genome-wide level, their expression levels under various conditions were investigated systematically, and their protein-protein interaction networks were predicted.ResultsWe identified 92 ZjbHLHs in the jujube genome, and these genes were classified into 16 classes according to bHLH domains. Ten ZjbHLHs with atypical bHLH domains were found. Seventy ZjbHLHs were mapped to but not evenly distributed on 12 pseudo- chromosomes. The domain sequences among ZjbHLHs were highly conserved, and their conserved residues were also identified. The tissue-specific expression of 37 ZjbHLH genes in jujube and wild jujube showed diverse patterns, revealing that these genes likely perform multiple functions. Many ZjbHLH genes were screened and found to be involved in flower and fruit development, especially in earlier developmental stages. A few genes responsive to phytoplasma invasion were also verified. Based on protein-protein interaction prediction and homology comparison, protein-protein interaction networks composed of 92 ZjbHLHs were also established.ConclusionsThis study provides a comprehensive bioinformatics analysis of 92 identified ZjbHLH genes. We explored their expression patterns in various tissues, the flowering process, and fruit ripening and under phytoplasma stress. The protein-protein interaction networks of ZjbHLHs provide valuable clues toward further studies of their biological functions.
Highlights
The basic helix-loop-helix (bHLH) transcription factor is one of the largest families of transcription factors in plants, containing a large number of members with diverse functions
To verify the reliability of each sequence, 92 protein sequences were analyzed using the online CD-search and SMART tools, and 82 bHLH proteins were found to have a typical bHLH structure except for the 10 bHLH proteins with an atypical bHLH domain (Additional file 1: Figure S1). They were named from ZjbHLH1 to ZjbHLH92 according to their gene structure and motifs, and the ZjbHLH2, 7, and 54 sequences were new genes with no information in NCBI
The ORF length for ZjbHLH genes ranged from 285 bp (ZjbHLH59) to 2676 bp (ZjbHLH57), and the genes encoded proteins ranging from 94 (ZjbHLH59) to 891 (ZjbHLH57) amino acids in length, with predicted pIs ranging from 4.62 (ZjbHLH1) to 9.86 (ZjbHLH41)
Summary
The bHLH (basic helix-loop-helix) transcription factor is one of the largest families of transcription factors in plants, containing a large number of members with diverse functions. The characteristics of the bHLH family in the jujube genome are still unclear. Transcription factors (TFs) are important regulatory factors in eukaryotes that interact with cis-elements to regulate the expression of specific genes in response to environmental stresses [1]. According to the sequence of arginine and lysine residues in the DNA binding region, the TFs of higher plants can be divided into four. Li et al BMC Genomics (2019) 20:568 helices of the same transcription factor or different transcription factors interact to form homologous or heterologous dimers, which can combine with different parts of the gene promoter to regulate the target gene [8]. Some atypical bHLHs with a less basic region that is critical for DNA binding were further identified and characterized in Arabidopsis [9,10,11]
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