Abstract
BackgroundThe HD-Zip transcription factors are unique to plants and play an essential role in plant growth, development and stress responses. The HD-Zip transcription factor family consists of a highly conserved homeodomain (HD) and a leucine zipper domain (LZ) domain. Although the HD-Zip gene family has been extensively studied in many plant species, a systematic study of the Eucalyptus HD-Zip family has not been reported until today. Here, we systematically identified 40 HD-Zip genes in Eucalyptus (Eucalyptus grandis). Besides, we comprehensively analyzed the HD-Zips of Eucalyptus by studying the homology, conserved protein regions, gene structure, 3D structure of the protein, location of the genes on the chromosomes and the expression level of the genes in different tissues.ResultsThe HD-Zip family in Eucalyptus has four subfamilies, which is consistent with other plants such as Arabidopsis and rice. Moreover, genes that are in the same group tend to have similar exon-intron structures, motifs, and protein structures. Under salt stress and temperature stress, the Eucalyptus HD-Zip transcription factors show a differential expression pattern.ConclusionsOur findings reveal the response of HD-Zip transcription factors under salt and temperature stresses, laying a foundation for future analysis of Eucalyptus HD-Zip transcription factors.
Highlights
The homologous domain leucine zipper (HD-Zip) transcription factors are unique to plants and play an essential role in plant growth, development and stress responses
The HD-Zips are divided into four subfamilies: HD-Zip I, HD-Zip II, HD- Zip III, HD-Zip IV based on their gene structure, conserved sequences, cis-elements and biological functions [18, 19]
We identified and classified the HD-Zip proteins of Eucalyptus, analyzed the relationship between the HD-Zip family and HD-Zips responses to temperature and salinity stress. These results provide the necessary basis for the functional characterization of the Eucalyptus HD-Zip family and a theoretical basis for the subsequent improvement of Eucalyptus varieties against stress
Summary
The HD-Zip transcription factors are unique to plants and play an essential role in plant growth, development and stress responses. The HD-Zip transcription factor family consists of a highly conserved homeodomain (HD) and a leucine zipper domain (LZ) domain. The HD-Zip gene family has been extensively studied in many plant species, a systematic study of the Eucalyptus HD-Zip family has not been reported until today. The homologous domain leucine zipper (HD-Zip) gene family is reported only in the plants and regulates plant-specific growth and development processes [7, 8]. HD-Zip possesses a highly conserved homeodomain (HD) composed of 61 amino acids and a Leucine zipper (LZ) domain. The HD-Zips are divided into four subfamilies: HD-Zip I, HD-Zip II, HD- Zip III, HD-Zip IV based on their gene structure, conserved sequences, cis-elements and biological functions [18, 19]. HD-Zip I and HD-Zip II proteins recognize a similar pseudopalindromic sequence CAAT(C/G)ATTG [7, 20, 21], while HD-Zip III and HDZip IV proteins recognize the sequences GTAAT(G/ C)ATTAC and TAAATG(C/T)A, respectively [22, 24]
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