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Cloning, 3D Modeling and Expression Analysis of Three Vacuolar Invertase Genes from Cassava (Manihot Esculenta Crantz)

Vacuolar invertase is one of the key enzymes in sucrose metabolism that irreversibly catalyzes the hydrolysis of sucrose to glucose and fructose in plants. In this research, three vacuolar invertase genes, named MeVINV1-3, and with 653, 660 and 639 amino acids, respectively, were cloned from cassava...

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Autores principales: Yao, Yuan, Wu, Xiao-Hui, Geng, Meng-Ting, Li, Rui-Mei, Liu, Jiao, Hu, Xin-Wen, Guo, Jian-Chun
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2014
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6270675/
https://www.ncbi.nlm.nih.gov/pubmed/24838076
http://dx.doi.org/10.3390/molecules19056228
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author Yao, Yuan
Wu, Xiao-Hui
Geng, Meng-Ting
Li, Rui-Mei
Liu, Jiao
Hu, Xin-Wen
Guo, Jian-Chun
author_facet Yao, Yuan
Wu, Xiao-Hui
Geng, Meng-Ting
Li, Rui-Mei
Liu, Jiao
Hu, Xin-Wen
Guo, Jian-Chun
author_sort Yao, Yuan
collection PubMed
description Vacuolar invertase is one of the key enzymes in sucrose metabolism that irreversibly catalyzes the hydrolysis of sucrose to glucose and fructose in plants. In this research, three vacuolar invertase genes, named MeVINV1-3, and with 653, 660 and 639 amino acids, respectively, were cloned from cassava. The motifs of NDPNG (β-fructosidase motif), RDP and WECVD, which are conserved and essential for catalytic activity in the vacuolar invertase family, were found in MeVINV1 and MeVINV2. Meanwhile, in MeVINV3, instead of NDPNG we found the motif NGPDG, in which the three amino acids GPD are different from those in other vacuolar invertases (DPN) that might result in MeVINV3 being an inactivated protein. The N-terminal leader sequence of MeVINVs contains a signal anchor, which is associated with the sorting of vacuolar invertase to vacuole. The overall predicted 3D structure of the MeVINVs consists of a five bladed β-propeller module at N-terminus domain, and forms a β-sandwich module at the C-terminus domain. The active site of the protein is situated in the β-propeller module. MeVINVs are classified in two subfamilies, α and β groups, in which α group members of MeVINV1 and 2 are highly expressed in reproductive organs and tuber roots (considered as sink organs), while β group members of MeVINV3 are highly expressed in leaves (source organs). All MeVINVs are highly expressed in leaves, while only MeVINV1 and 2 are highly expressed in tubers at cassava tuber maturity stage. Thus, MeVINV1 and 2 play an important role in sucrose unloading and starch accumulation, as well in buffering the pools of sucrose, hexoses and sugar phosphates in leaves, specifically at later stages of plant development.
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spelling pubmed-62706752018-12-21 Cloning, 3D Modeling and Expression Analysis of Three Vacuolar Invertase Genes from Cassava (Manihot Esculenta Crantz) Yao, Yuan Wu, Xiao-Hui Geng, Meng-Ting Li, Rui-Mei Liu, Jiao Hu, Xin-Wen Guo, Jian-Chun Molecules Article Vacuolar invertase is one of the key enzymes in sucrose metabolism that irreversibly catalyzes the hydrolysis of sucrose to glucose and fructose in plants. In this research, three vacuolar invertase genes, named MeVINV1-3, and with 653, 660 and 639 amino acids, respectively, were cloned from cassava. The motifs of NDPNG (β-fructosidase motif), RDP and WECVD, which are conserved and essential for catalytic activity in the vacuolar invertase family, were found in MeVINV1 and MeVINV2. Meanwhile, in MeVINV3, instead of NDPNG we found the motif NGPDG, in which the three amino acids GPD are different from those in other vacuolar invertases (DPN) that might result in MeVINV3 being an inactivated protein. The N-terminal leader sequence of MeVINVs contains a signal anchor, which is associated with the sorting of vacuolar invertase to vacuole. The overall predicted 3D structure of the MeVINVs consists of a five bladed β-propeller module at N-terminus domain, and forms a β-sandwich module at the C-terminus domain. The active site of the protein is situated in the β-propeller module. MeVINVs are classified in two subfamilies, α and β groups, in which α group members of MeVINV1 and 2 are highly expressed in reproductive organs and tuber roots (considered as sink organs), while β group members of MeVINV3 are highly expressed in leaves (source organs). All MeVINVs are highly expressed in leaves, while only MeVINV1 and 2 are highly expressed in tubers at cassava tuber maturity stage. Thus, MeVINV1 and 2 play an important role in sucrose unloading and starch accumulation, as well in buffering the pools of sucrose, hexoses and sugar phosphates in leaves, specifically at later stages of plant development. MDPI 2014-05-15 /pmc/articles/PMC6270675/ /pubmed/24838076 http://dx.doi.org/10.3390/molecules19056228 Text en © 2014 by the authors. Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution license (http://creativecommons.org/licenses/by/3.0/).
spellingShingle Article
Yao, Yuan
Wu, Xiao-Hui
Geng, Meng-Ting
Li, Rui-Mei
Liu, Jiao
Hu, Xin-Wen
Guo, Jian-Chun
Cloning, 3D Modeling and Expression Analysis of Three Vacuolar Invertase Genes from Cassava (Manihot Esculenta Crantz)
title Cloning, 3D Modeling and Expression Analysis of Three Vacuolar Invertase Genes from Cassava (Manihot Esculenta Crantz)
title_full Cloning, 3D Modeling and Expression Analysis of Three Vacuolar Invertase Genes from Cassava (Manihot Esculenta Crantz)
title_fullStr Cloning, 3D Modeling and Expression Analysis of Three Vacuolar Invertase Genes from Cassava (Manihot Esculenta Crantz)
title_full_unstemmed Cloning, 3D Modeling and Expression Analysis of Three Vacuolar Invertase Genes from Cassava (Manihot Esculenta Crantz)
title_short Cloning, 3D Modeling and Expression Analysis of Three Vacuolar Invertase Genes from Cassava (Manihot Esculenta Crantz)
title_sort cloning, 3d modeling and expression analysis of three vacuolar invertase genes from cassava (manihot esculenta crantz)
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6270675/
https://www.ncbi.nlm.nih.gov/pubmed/24838076
http://dx.doi.org/10.3390/molecules19056228
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