Genome-Wide Identification and Expression Analysis of the SWEET Gene Family in Capsicum annuum L.

Han, Xiaowen; Han, Shuo; Zhu, Yongxing; Liu, Yiqing; Gao, Shenghua; Yin, Junliang; Wang, Fei; Yao, Minghua

doi:10.3390/ijms242417408

IJMS

2023

DOI: 10.3390/ijms242417408

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Genome-Wide Identification and Expression Analysis of the SWEET Gene Family in Capsicum annuum L.

Xiaowen Han,

Shuo Han,

Yongxing Zhu

et al.

Abstract: Sugars will eventually be exported transporters (SWEETs) are a novel class of sugar transport proteins that play a crucial role in plant growth, development, and response to stress. However, there is a lack of systematic research on SWEETs in Capsicum annuum L. In this study, 33 CaSWEET genes were identified through bioinformatics analysis. The Ka/Ks analysis indicated that SWEET genes are highly conserved not only among peppers but also among Solanaceae species and have experienced strong purifying selection … Show more

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2024

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Cited by 4 publications

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Comprehensive analysis of Capsicum annuum CaLhcs uncovered the roles of CaLhca5.1 and CaLhcb1.7 in photosynthesis and stress tolerance

Shuo,

Xiaowen,

et al. 2024

International Journal of Biological Macromolecules

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Comprehensive analysis of Capsicum annuum CaLhcs uncovered the roles of CaLhca5.1 and CaLhcb1.7 in photosynthesis and stress tolerance

Shuo,

Xiaowen,

et al. 2024

International Journal of Biological Macromolecules

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Genome wide identification of BjSWEET gene family and drought response analysis of BjSWEET12 and BjSWEET17 genes in Brassica juncea

Heng,

He,

Zhu

et al. 2024

BMC Plant Biol

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Background Sugars Will Eventually be Exported Transporter (SWEET) gene family is a unique type of sugar transporter that plays a vital role in metabolic regulation, growth, development, and stress response in multiple species. This study aimed to systematically identify the SWEET gene family members and detect the regulation of gene expression and their potential roles of the SWEET gene family in Brassica juncea. Results A total of 66 BjSWEET (Brassica juncea Sugar Will Eventually be Exported Transporter) genes distributed across 17 chromosomes were identified. The gene structure and motifs were relatively conserved, with all members containing the MtN3/saliva domain. Phylogenetic analysis revealed that the SWEET gene family can be classified into four subfamilies (Clades I, II, III, and IV). Collinearity analysis revealed that there were 118 pairs of segment duplicates, indicating that some BjSWEET genes were obtained via segmental duplication. The promoter regions of the BjSWEET genes contained many plant hormone-related response elements, stress-related response elements, growth and development elements, and light-responsive regulatory elements. Furthermore, analysis of the expression profiles revealed that the expression levels of the BjSWEET genes differed among the eight different tissues. qRT‒PCR analysis of six selected BjSWEET genes revealed that the expression levels of BjSWEET17.2, BjSWEET17.4, BjSWEET12.2, and BjSWEET12.3 were significantly upregulated under drought treatment, suggesting that these genes may respond to drought stress in B. juncea. Conclusion This study systematically identified and analyzed the SWEET gene family members in B. juncea for the first time, laying the foundation for further research on the molecular mechanisms of drought resistance in B. juncea and providing theoretical guidance for the application of these genes in other species.

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Identification of the GAox gene family in potato (Solanum tuberosum L.) and its expression analysis in response to drought stress

Jiao,

Liu,

Kang

et al. 2024

Chem. Biol. Technol. Agric.

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Background GAox is a key enzyme involved in GA biosynthesis pathway and plays an important role in regulating various processes in plant life cycle. However, it has not been systematic, studies have been conducted in potato, which is the world's fourth largest food crop. Methods In this work, we systematically identified GAox gene family (StGAox) in potato by analyzing the potato genome sequence using a set of bioinformatics approaches, and analyze their physical, chemical properties, distribution on chromosomes, gene structure, conserved motifs, gene duplication events and expression patterns were analyzed. Results The results showed that a total of 33 GAox proteins were identified and unevenly distributed on 10 chromosomes. Based on their protein structure and phylogenetic characteristics, these 33 StGAoxes were divided into 5 distinct subclasses. Collinearity analysis revealed that there were 5 pairs of duplicated genes in the StGAox gene family, and all of which evolved under purifying selection. Analysis of RNA-seq data of double haploid (DM) potatoes under different tissues, abiotic stresses and hormone treatments showed that PG0002068, PG0024249 and PG0027963 were higher expressed in leaves, PG009427, PG0026762, PG0009021 and PG0021095 were higher expressed in tubers, PG2003479, PG0024249, PG0005698, and PG0009021were higher expressed in shoots than those of other tissues. In addition, the expression of PG0002068, PG2003479, PG0032156, PG0024249, and PG0021292 were up-regulated under mannitol and drought stress. Conclusions Comparative genome-wide analysis of StGAox genes and their expression analyses revealed that members of this family may be involved in tissue-specific developmental and abiotic stress responses. Graphical Abstract

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Genome-Wide Identification and Expression Analysis of the SWEET Gene Family in Capsicum annuum L.

Cited by 4 publications

References 50 publications

Comprehensive analysis of Capsicum annuum CaLhcs uncovered the roles of CaLhca5.1 and CaLhcb1.7 in photosynthesis and stress tolerance

Comprehensive analysis of Capsicum annuum CaLhcs uncovered the roles of CaLhca5.1 and CaLhcb1.7 in photosynthesis and stress tolerance

Genome wide identification of BjSWEET gene family and drought response analysis of BjSWEET12 and BjSWEET17 genes in Brassica juncea

Identification of the GAox gene family in potato (Solanum tuberosum L.) and its expression analysis in response to drought stress

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