Engineered Cleistogamy in Camelina sativa for bioconfinement  

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作  者:Debao Huang Liwei Gao Jeremy McAdams Fangzhou Zhao Hongyan Lu Yonghui Wu Jeremy Martin Sherif MSherif Jayasankar Subramanian Hui Duan Wusheng Liu 

机构地区:[1]Department of Horticultural Science,North Carolina State University,Raleigh,NC 27607,USA [2]College of Life Sciences,Ganzhou Normal University,Ganzhou,Jiangxi 341000,China [3]National Center for Soybean Improvement,State Key Laboratory of Crop Genetics and Germplasm Enhancement,Nanjing Agricultural University,Nanjing,Jiangsu 210095,China [4]College of Food Science and Engineering,Wuhan Polytechnic University,Wuhan,Hubei 430048,China [5]Sandhills Research Station,North Carolina State University,Jackson Springs,NC 27281,USA [6]Vineland Research Station,Department of Plant Agriculture,University of Guelph,Vinland Station,ON LOR 2E0,Canada [7]Alson H.Smith Jr.Agricultural Research and Extension Center,School of Plant and Environmental Sciences,Virginia Tech,Winchester,VA 22602,USA [8]USDA-ARS,U.S.National Arboretum,Floral and Nursery Plants Research Unit,Beltsville Agricultural Research Center(BARC)-West,Beltsville,MD 20705,USA

出  处:《Horticulture Research》2023年第2期275-285,共11页园艺研究(英文)

基  金:supported by Biotechnology Risk Assessment Grant Program competitive grant no.2016-33522-25627 from the U.S.Department of Agriculture,the Hatch project 02685 from the U.S.Department of Agriculture National Institute of Food and Agriculture,and the startup funding to the Liu laboratory from North Carolina State University.

摘  要:Camelina sativa is a self-pollinating and facultative outcrossing oilseed crop.Genetic engineering has been used to improve camelina yield potential for altered fatty acid composition,modified protein profiles,improved seed and oil yield,and enhanced drought resistance.The deployment of transgenic camelina in the field posits high risks related to the introgression of transgenes into nontransgenic camelina and wild relatives.Thus,effective bioconfinement strategies need to be developed to prevent pollen-mediated gene f low(PMGF)from transgenic camelina.In the present study,we overexpressed the cleistogamy(i.e.f loral petal non-openness)-inducing PpJAZ1 gene from peach in transgenic camelina.Transgenic camelina overexpressing PpJAZ1 showed three levels of cleistogamy,affected pollen germination rates after anthesis but not during anthesis,and caused a minor silicle abortion only on the main branches.We also conducted field trials to examine the effects of the overexpressed PpJAZ1 on PMGF in the field,and found that the overexpressed PpJAZ1 dramatically inhibited PMGF from transgenic camelina to non-transgenic camelina under the field conditions.Thus,the engineered cleistogamy using the overexpressed PpJAZ1 is a highly effective bioconfinement strategy to limit PMGF from transgenic camelina,and could be used for bioconfinement in other dicot species.

关 键 词:DROUGHT EXPRESSING LIMIT 

分 类 号:Q94[生物学—植物学]

 

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