Your search keyword '"Huyen Tran TT"' showing total 2 results

1. Genome-Wide Identification and Analysis of Genes Encoding Putative Heat Shock Protein 70 in Papaya ( Carica papaya ).

Author

Man Le T, Huyen Tran TT, Quyen Vu X, Duc Chu H, Chau Pham T, Thi Le H, Thi Ngoc Le Q, Hong La V, and Bang Cao P

Subjects

Genome, Plant, HSP70 Heat-Shock Proteins genetics, HSP70 Heat-Shock Proteins metabolism, Phylogeny, Vegetables genetics, Arabidopsis genetics, Carica genetics

Abstract

<b>Background and Objective:</b> In high plants, the 70 kDa heat stress proteins (Hsp70-s) have been regarded as one of the vital components of the cellular network of chaperones and folding catalysts that play important roles in numerous biological processes during growth and development. The Hsp70 families have been reported in many plant species, unfortunately, no information on this important protein family in papaya (<i>Carica papaya</i>). The objective of this study was to provide comprehensive information on the CpHsp70 family in papaya. <b>Materials and Methods:</b> The <i>CpHsp70</i> genes in the papaya genome were identified by a basic local alignment search tool against the papaya genome database by using well-known <i>Arabidopsis</i> Hsp70-s. Sequences were then analyzed by various bioinformatics tools to investigate the characteristics of the CpHsp70 family. <b>Results:</b> A total of 12 members of the CpHsp70 family has been identified and characterized in papaya. By using various computational tools, these results revealed that all general characteristics of the CpHsp70 family, like physic-chemical parameters, gene structure, phylogenetic tree and subcellular localization were provided. The transcriptome atlas was applied to re-analyze the expression patterns of genes encoding the CpHsp70 family in major tissues/organs during the growth and development of papaya plants. <b>Conclusion:</b> Results from this work exhibited the characteristics and expression analysis of the <i>CpHsp70</i> genes of this important tropical fruit crop. Taken together, this study could provide a solid foundation of the CpHsp70 family, which will be helpful in the construction of stress tolerance in papaya plants.

Published

2022

2. SWEET Gene Family in Sugar Beet ( Beta vulgaris ): Genome-Wide Survey, Phylogeny and Expression Analysis.

Author

Viet La H, Duc Chu H, Thi Ha Q, Huyen Tran TT, Van Tong H, Van Tran T, Ngoc Le QT, Thu Bui HT, and Bang Cao P

Subjects

Genes, Plant, Genome, Plant, Phylogeny, Plants, Sugars, Vegetables genetics, Beta vulgaris genetics

Abstract

<b>Background and Objective:</b> The SWEET (Sugars Will Eventually be Exported Transporter) proteins play important roles in modulating the growth and development processes in plants. However, little information is available on the SWEET family in sugar beet (<i>Beta vulgaris</i>). The objectives of this present study were to genome-wide identify and characterize the BvSWEET family in sugar beet. <b>Materials and Methods:</b> Based on the available genome, proteome and transcriptome databases of sugar beet, various computational tools have been used to analyze the nucleotide and full-length protein sequences of members of the BvSWEET family. <b>Results:</b> A total of 16 members of the BvSWEET family has been identified in sugar beet at the genome-wide scale. Structural analysis indicated that the BvSWEET family exhibited variable characteristics. Furthermore, the BvSWEET family in sugar beet could be categorized into four distinct groups like in other plant species. Of our interest, we found that some <i>BvSWEET</i> genes exhibited strongly preferential expression in major organs/tissues under adverse environmental stimuli. <b>Conclusion:</b> The results provided a comprehensive foundation for further functional characterization of the <i>BvSWEET </i>gene family.

Published

2022