Enviar artigo por via de e-mail Expression Patterns, Activities and Sugar Metabolism Regulation of Sucrose Phosphate Synthase, Sucrose Synthase, Neutral Invertase and Soluble Acid Invertase in Different Goji Cultivars during Fruit Development
- Autores: Wang T.1,2,3, Wright D.4, Xu H.1, Yang Y.1, Zheng R.1,2,3, Shi J.1, Chen R.1,2,3, Wang L.1,2,3
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Afiliações:
- Life College, Ningxia University
- WBRPU Lab of National Education Ministry
- Key Laboratory of Modern Molecular Breeding for Dominant and Special Crops in Ningxia
- Gene Development Cell Biology Department, Iowa State University
- Edição: Volume 66, Nº 1 (2019)
- Páginas: 29-40
- Seção: Research Papers
- URL: https://journal-vniispk.ru/1021-4437/article/view/180318
- DOI: https://doi.org/10.1134/S1021443719010199
- ID: 180318
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Resumo
Sugars are crucial factors that contribute to fruit flavor. To uncover the regulatory mechanism of sugar metabolism in developing fruit, we isolated four genes, encoding key enzymes (sucrose phosphate synthase (SPS—EC 2.3.1.14), sucrose synthase (SuSy—EC 2.4.1.13), neutral invertase (NI—EC 3.2.1.26) and soluble acid invertase (SAI—EC 3.2.1.26), related to sugar metabolism in Goji (Lycium barbarum L.) fruit and examined sugar content, gene expression and enzyme activities in developing fruit of two cultivars. The results showed that Ningqi No. 1 maintained high levels of hexose (glucose and fructose) and lower sucrose than Ningqi No. 3. Expression levels of SPS and NI were demonstrated to be tied to corresponding enzyme activities while SAI and SuSy were not connected to changes in enzyme activities during fruit development in either cultivar. In this sense, NI and SPS seem to play a major role in sugar metabolism. These findings suggested that cultivar Ningqi No 1. has enhanced hexose synthesis and hydrolysis of sucrose relative to Ningqi No. 3. This work demonstrated a novel function profile of sugar metabolism as well as relevant gene expression to explain how different sugar levels in different Goji cultivar fruits are maintained during fruit development.
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Sobre autores
T. Wang
Life College, Ningxia University; WBRPU Lab of National Education Ministry; Key Laboratory of Modern Molecular Breeding for Dominant and Special Crops in Ningxia
Email: mnn717@163.com
República Popular da China, Yinchuan, 750021; Yinchuan, 750021; Yinchuan, 750021
D. Wright
Gene Development Cell Biology Department, Iowa State University
Email: mnn717@163.com
Estados Unidos da América, Ames, 50011
H. Xu
Life College, Ningxia University
Email: mnn717@163.com
República Popular da China, Yinchuan, 750021
Y. Yang
Life College, Ningxia University
Email: mnn717@163.com
República Popular da China, Yinchuan, 750021
R. Zheng
Life College, Ningxia University; WBRPU Lab of National Education Ministry; Key Laboratory of Modern Molecular Breeding for Dominant and Special Crops in Ningxia
Email: mnn717@163.com
República Popular da China, Yinchuan, 750021; Yinchuan, 750021; Yinchuan, 750021
J. Shi
Life College, Ningxia University
Email: mnn717@163.com
República Popular da China, Yinchuan, 750021
R. Chen
Life College, Ningxia University; WBRPU Lab of National Education Ministry; Key Laboratory of Modern Molecular Breeding for Dominant and Special Crops in Ningxia
Email: mnn717@163.com
República Popular da China, Yinchuan, 750021; Yinchuan, 750021; Yinchuan, 750021
L. Wang
Life College, Ningxia University; WBRPU Lab of National Education Ministry; Key Laboratory of Modern Molecular Breeding for Dominant and Special Crops in Ningxia
Autor responsável pela correspondência
Email: mnn717@163.com
República Popular da China, Yinchuan, 750021; Yinchuan, 750021; Yinchuan, 750021
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