Your search keyword '"Litong Zheng"' showing total 8 results

1. Combined Profiling of Transcriptome and DNA Methylome Reveal Genes Involved in Accumulation of Soluble Sugars and Organic Acid in Apple Fruits

Author

Wenfang Ma, Baiyun Li, Litong Zheng, Yunjing Peng, Rui Tian, Yangyang Yuan, Lingcheng Zhu, Jing Su, Fengwang Ma, Mingjun Li, and Baiquan Ma

Subjects

Malus domestica, DNA methylation, transcriptomics, transcript profiling, fruit acidity, soluble sugar content, Chemical technology, TP1-1185

Abstract

Organic acids and soluble sugars are the major determinants of fruit organoleptic quality. Additionally, DNA methylation has crucial regulatory effects on various processes. However, the epigenetic modifications in the regulation of organic acid and soluble sugar accumulation in apple fruits remain uncharacterized. In this study, DNA methylation and the transcriptome were compared between ‘Honeycrisp’ and ‘Qinguan’ mature fruits, which differ significantly regarding soluble sugar and organic acid contents. In both ‘Honeycrisp’ and ‘Qinguan’ mature fruits, the CG context had the highest level of DNA methylation, and then CHG and CHH contexts. The number and distribution of differentially methylated regions (DMRs) varied among genic regions and transposable elements. The DNA methylation levels in all three contexts in the DMRs were significantly higher in ‘Honeycrisp’ mature fruits than in ‘Qinguan’ mature fruits. A combined methylation and transcriptome analysis revealed a negative correlation between methylation levels and gene expression in DMRs in promoters and gene bodies in the CG and CHG contexts and in gene bodies in the CHH context. Two candidate genes (MdTSTa and MdMa11), which encode tonoplast-localized proteins, potentially associated with fruit soluble sugar contents and acidity were identified based on expression and DNA methylation levels. Overexpression of MdTSTa in tomato increased the fruit soluble sugar content. Moreover, transient expression of MdMa11 in tobacco leaves significantly decreased the pH value. Our results reflect the diversity in epigenetic modifications influencing gene expression and will facilitate further elucidating the complex mechanism underlying fruit soluble sugar and organic acid accumulation.

Published

2021

2. A framework of text-dependent speaker verification for chinese numerical string corpus.

Author

Litong Zheng, Feng Hong, Weijie Xu, and Wan Zheng

Published

2024

3. Determining pre-procedure fasting alert time using procedural and scheduling data.

Author

Litong Zheng, J. Christopher Beck, Sebastian Mafeld, Matteo Parotto, Amanda Matthews, Sheryl Alexandre, and Aaron Conway

Published

2024

4. A text-dependent speaker verification application framework based on Chinese numerical string corpus.

Author

Litong Zheng, Feng Hong, and Weijie Xu

Published

2023

5. Transcriptional repression of <scp> MdMa1 </scp> by <scp>MdMYB21</scp> in Ma Locus decreases malic acid content in apple fruit

Author

Yunjing Peng, Yangyang Yuan, Wenjing Chang, Litong Zheng, Wenfang Ma, Hang Ren, Peipei Liu, Lingcheng Zhu, Jing Su, Fengwang Ma, Mingjun Li, and Baiquan Ma

Subjects

Genetics, Cell Biology, Plant Science

Published

2023

6. Overexpression of apple Ma12, a mitochondrial pyrophosphatase pump gene, leads to malic acid accumulation and the upregulation of malate dehydrogenase in tomato and apple calli

Author

Meng Gao, Haiyan Zhao, Litong Zheng, Lihua Zhang, Yunjing Peng, Wenfang Ma, Rui Tian, Yangyang Yuan, Fengwang Ma, Mingjun Li, and Baiquan Ma

Subjects

fungi, Genetics, bacteria, Plant Science, Horticulture, equipment and supplies, Biochemistry, Article, Biotechnology

Abstract

Acidity is an important factor influencing the organoleptic quality of apple fruits. In this study, an apple pyrophosphate-energized proton pump (PEPP) gene was isolated and designated MdMa12. On the basis of a phylogenetic analysis in Rosaceae species, PEPP genes were divided into three groups, with apple PEPP genes most closely related to pear PEPP genes. Gene expression analysis revealed that high malic acid content was generally accompanied by high MdMa12 expression levels. Moreover, MdMa12 was mainly expressed in the fruit. A subcellular localization analysis suggested that MdMa12 is a mitochondrial protein. The ectopic expression and overexpression of MdMa12 in “Micro-Tom” tomato and apple calli, respectively, increased the malic acid content. One (MDH12) of four malate dehydrogenase genes highly expressed in transgenic apple calli was confirmed to encode a protein localized in mitochondria. The overexpression of MDH12 increased the malate content in apple calli. Furthermore, MdMa12 overexpression increased MdDTC1, MdMa1, and MdMa10 expression levels, which were identified to transport malate. These findings imply that MdMa12 has important functions related to apple fruit acidity. Our study explored the regulatory effects of mitochondria on the complex mechanism underlying apple fruit acidity.

Published

2022

7. Combined Profiling of Transcriptome and DNA Methylome Reveal Genes Involved in Accumulation of Soluble Sugars and Organic Acid in Apple Fruits

Author

Yunjing Peng, Jing Su, Baiquan Ma, Yangyang Yuan, Lingcheng Zhu, Fengwang Ma, Mingjun Li, Rui Tian, Litong Zheng, Wenfang Ma, and Baiyun Li

Subjects

Health (social science), TP1-1185, Plant Science, Health Professions (miscellaneous), Microbiology, Article, Honeycrisp, Transcriptome, transcriptomics, transcript profiling, Gene expression, Epigenetics, Gene, DNA methylation, fruit acidity, biology, Chemical technology, food and beverages, Methylation, biology.organism_classification, Differentially methylated regions, Biochemistry, Malus domestica, soluble sugar content, Food Science

Abstract

Organic acids and soluble sugars are the major determinants of fruit organoleptic quality. Additionally, DNA methylation has crucial regulatory effects on various processes. However, the epigenetic modifications in the regulation of organic acid and soluble sugar accumulation in apple fruits remain uncharacterized. In this study, DNA methylation and the transcriptome were compared between ‘Honeycrisp’ and ‘Qinguan’ mature fruits, which differ significantly regarding soluble sugar and organic acid contents. In both ‘Honeycrisp’ and ‘Qinguan’ mature fruits, the CG context had the highest level of DNA methylation, and then CHG and CHH contexts. The number and distribution of differentially methylated regions (DMRs) varied among genic regions and transposable elements. The DNA methylation levels in all three contexts in the DMRs were significantly higher in ‘Honeycrisp’ mature fruits than in ‘Qinguan’ mature fruits. A combined methylation and transcriptome analysis revealed a negative correlation between methylation levels and gene expression in DMRs in promoters and gene bodies in the CG and CHG contexts and in gene bodies in the CHH context. Two candidate genes (MdTSTa and MdMa11), which encode tonoplast-localized proteins, potentially associated with fruit soluble sugar contents and acidity were identified based on expression and DNA methylation levels. Overexpression of MdTSTa in tomato increased the fruit soluble sugar content. Moreover, transient expression of MdMa11 in tobacco leaves significantly decreased the pH value. Our results reflect the diversity in epigenetic modifications influencing gene expression and will facilitate further elucidating the complex mechanism underlying fruit soluble sugar and organic acid accumulation.

Published

2021

8. A MdMa13 gene encoding tonoplast P3B-type ATPase regulates organic acid accumulation in apple

Author

Litong Zheng, Wenfang Ma, Jiahui Deng, Yunjing Peng, Rui Tian, Yangyang Yuan, Baiyun Li, Fengwang Ma, Mingjun Li, and Baiquan Ma

Subjects

Horticulture

Published

2022