Establishment of a Bivector Genetic Transformation System in Recalcitrant Maize Inbred Lines

Establishment of a Bivector Genetic Transformation System in Recalcitrant Maize Inbred Lines

Maize is an important grain crop with high nutritional value. An effective transformation system is crucial for the genetic improvement of maize traits, but many important maize inbred lines remained recalcitrant to transformation. In this study, we developed a bivector transformation system that wo...

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Main Authors: Yajing Gu, Xuan Chen, Rentao Song, Weiwei Qi
Format: Article
Language:English
Published: MDPI AG 2021-07-01
Series:Agriculture
Subjects:
maize
bivector system
genetic transformation
Zheng58
transformation cycle
Online Access:https://www.mdpi.com/2077-0472/11/7/663
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spelling doaj-d3bca3e0664f41168f3f581fe888e0f12021-07-23T13:26:05ZengMDPI AGAgriculture2077-04722021-07-011166366310.3390/agriculture11070663Establishment of a Bivector Genetic Transformation System in Recalcitrant Maize Inbred LinesYajing Gu0Xuan Chen1Rentao Song2Weiwei Qi3Shanghai Key Laboratory of Bio-Energy Crops, School of Life Sciences, Shanghai University, Shanghai 200444, ChinaShanghai Key Laboratory of Bio-Energy Crops, School of Life Sciences, Shanghai University, Shanghai 200444, ChinaState Key Laboratory of Plant Physiology and Biochemistry, National Maize Improvement Center, Beijing Key Laboratory of Crop Genetic Improvement, Joint International Research Laboratory of Crop Molecular Breeding, College of Agronomy and Biotechnology, China Agricultural University, Beijing 100193, ChinaShanghai Key Laboratory of Bio-Energy Crops, School of Life Sciences, Shanghai University, Shanghai 200444, ChinaMaize is an important grain crop with high nutritional value. An effective transformation system is crucial for the genetic improvement of maize traits, but many important maize inbred lines remained recalcitrant to transformation. In this study, we developed a bivector transformation system that worked well in two recalcitrant maize inbred lines. This system included an induction vector (ZmBBM-ZmWUS) and an indicator vector (GFP), using microprojectile bombardment technology combined with <i>Agrobacterium</i>-mediated transformation. We found that the Zheng58 and Mo17 recalcitrant inbred lines could be transformed with this system. The whole transformation cycle lasted only 52 days, 38 days less than the traditional transformation cycle. Additionally, it was possible to eliminate inference of the induction vector and obtained progenies with only the target gene. Our results suggested that the bivector system was an optimization of the current maize transformation methods and could potentially be used in genetic improvement of maize inbred lines.https://www.mdpi.com/2077-0472/11/7/663maizebivector systemgenetic transformationZheng58transformation cycle
collection DOAJ
language English
format Article
sources DOAJ
author Yajing Gu
Xuan Chen
Rentao Song
Weiwei Qi
spellingShingle Yajing Gu
Xuan Chen
Rentao Song
Weiwei Qi
Establishment of a Bivector Genetic Transformation System in Recalcitrant Maize Inbred Lines
Agriculture
maize
bivector system
genetic transformation
Zheng58
transformation cycle
author_facet Yajing Gu
Xuan Chen
Rentao Song
Weiwei Qi
author_sort Yajing Gu
title Establishment of a Bivector Genetic Transformation System in Recalcitrant Maize Inbred Lines
title_short Establishment of a Bivector Genetic Transformation System in Recalcitrant Maize Inbred Lines
title_full Establishment of a Bivector Genetic Transformation System in Recalcitrant Maize Inbred Lines
title_fullStr Establishment of a Bivector Genetic Transformation System in Recalcitrant Maize Inbred Lines
title_full_unstemmed Establishment of a Bivector Genetic Transformation System in Recalcitrant Maize Inbred Lines
title_sort establishment of a bivector genetic transformation system in recalcitrant maize inbred lines
publisher MDPI AG
series Agriculture
issn 2077-0472
publishDate 2021-07-01
description Maize is an important grain crop with high nutritional value. An effective transformation system is crucial for the genetic improvement of maize traits, but many important maize inbred lines remained recalcitrant to transformation. In this study, we developed a bivector transformation system that worked well in two recalcitrant maize inbred lines. This system included an induction vector (ZmBBM-ZmWUS) and an indicator vector (GFP), using microprojectile bombardment technology combined with <i>Agrobacterium</i>-mediated transformation. We found that the Zheng58 and Mo17 recalcitrant inbred lines could be transformed with this system. The whole transformation cycle lasted only 52 days, 38 days less than the traditional transformation cycle. Additionally, it was possible to eliminate inference of the induction vector and obtained progenies with only the target gene. Our results suggested that the bivector system was an optimization of the current maize transformation methods and could potentially be used in genetic improvement of maize inbred lines.
topic maize
bivector system
genetic transformation
Zheng58
transformation cycle
url https://www.mdpi.com/2077-0472/11/7/663
work_keys_str_mv AT yajinggu establishmentofabivectorgenetictransformationsysteminrecalcitrantmaizeinbredlines
AT xuanchen establishmentofabivectorgenetictransformationsysteminrecalcitrantmaizeinbredlines
AT rentaosong establishmentofabivectorgenetictransformationsysteminrecalcitrantmaizeinbredlines
AT weiweiqi establishmentofabivectorgenetictransformationsysteminrecalcitrantmaizeinbredlines
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