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1.
Plant Physiol Biochem ; 142: 395-404, 2019 Sep.
Article in English | MEDLINE | ID: mdl-31408843

ABSTRACT

The HVA22 gene has been isolated for the first time from the aleurone layer of barley (Hordeum vulgare). Here, we characterized the HVA22 family from citrus (C. clementina and C. sinensis). Twelve genes, 6 in each species, were identified as well as duplication events for some of them. The ORF size ranged from 235 to 804 bp and the protein molecular weight from 94 to 267 kDa. All the citrus HVA22 protein presented transmembrane location and conserved TB2/DP1/HVA22 region. Phylogenetic and gene expression analyses suggested that some citrus HVA22 play a role in flower and fruit development, and that gene expression may be regulated by hormone or environmental conditions. Other regulation levels were also predicted, such as alternative splicing and post-translational modifications. The overall data indicated that citrus HVA22 may be involved in vesicular traffic in stressed cells, and that CcHVA22d could be involved in dehydration tolerance.


Subject(s)
Citrus/genetics , Genes, Plant/genetics , Plant Proteins/genetics , Citrus/physiology , Citrus sinensis/genetics , Citrus sinensis/physiology , Dehydration , Gene Expression Regulation, Plant/genetics , Gene Expression Regulation, Plant/physiology , Genes, Plant/physiology , Hydrogen Peroxide/metabolism , Phylogeny , Plant Proteins/physiology , Plants, Genetically Modified , Promoter Regions, Genetic/genetics , Stress, Physiological , Nicotiana/genetics , Transcriptome
2.
PLoS One ; 12(5): e0176878, 2017.
Article in English | MEDLINE | ID: mdl-28459876

ABSTRACT

The alternative oxidase (AOX) protein is present in plants, fungi, protozoa and some invertebrates. It is involved in the mitochondrial respiratory chain, providing an alternative route for the transport of electrons, leading to the reduction of oxygen to form water. The present study aimed to characterize the family of AOX genes in mandarin (Citrus clementina) and sweet orange (Citrus sinensis) at nucleotide and protein levels, including promoter analysis, phylogenetic analysis and C. sinensis gene expression. This study also aimed to do the homology modeling of one AOX isoform (CcAOXd). Moreover, the molecular docking of the CcAOXd protein with the ubiquinone (UQ) was performed. Four AOX genes were identified in each citrus species. These genes have an open reading frame (ORF) ranging from 852 bp to 1150 bp and a number of exons ranging from 4 to 9. The 1500 bp-upstream region of each AOX gene contained regulatory cis-elements related to internal and external response factors. CsAOX genes showed a differential expression in citrus tissues. All AOX proteins were predicted to be located in mitochondria. They contained the conserved motifs LET, NERMHL, LEEEA and RADE-H as well as several putative post-translational modification sites. The CcAOXd protein was modeled by homology to the AOX of Trypanosona brucei (45% of identity). The 3-D structure of CcAOXd showed the presence of two hydrophobic helices that could be involved in the anchoring of the protein in the inner mitochondrial membrane. The active site of the protein is located in a hydrophobic environment deep inside the AOX structure and contains a diiron center. The molecular docking of CcAOXd with UQ showed that the binding site is a recessed pocket formed by the helices and submerged in the membrane. These data are important for future functional studies of citrus AOX genes and/or proteins, as well as for biotechnological approaches leading to AOX inhibition using UQ homologs.


Subject(s)
Citrus/enzymology , Citrus/genetics , Mitochondrial Proteins/genetics , Mitochondrial Proteins/metabolism , Oxidoreductases/genetics , Oxidoreductases/metabolism , Plant Proteins/genetics , Plant Proteins/metabolism , Amino Acid Sequence , Conserved Sequence , Exons , Gene Expression Regulation, Plant/physiology , Hydrophobic and Hydrophilic Interactions , Mitochondria/metabolism , Molecular Docking Simulation , Phylogeny , Plant Structures/enzymology , Plant Structures/genetics , Promoter Regions, Genetic , Protein Processing, Post-Translational , Protein Structure, Secondary , Sequence Homology, Amino Acid , Species Specificity , Ubiquinone/metabolism
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