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Nuclear and plastid genetic engineering of plants: Comparison of opportunities and challenges
Authors:Benjamin Meyers,Adi Zaltsman,Benoî  t Lacroix,Stanislav V. KozlovskyAlexander Krichevsky
Affiliation:Department of Biochemistry and Cell Biology, State University of New York, Stony Brook, NY 11794-5215, USA
Abstract:Plant genetic engineering is one of the key technologies for crop improvement as well as an emerging approach for producing recombinant proteins in plants. Both plant nuclear and plastid genomes can be genetically modified, yet fundamental functional differences between the eukaryotic genome of the plant cell nucleus and the prokaryotic-like genome of the plastid will have an impact on key characteristics of the resulting transgenic organism. So, which genome, nuclear or plastid, to transform for the desired transgenic phenotype? In this review we compare the advantages and drawbacks of engineering plant nuclear and plastid genomes to generate transgenic plants with the traits of interest, and evaluate the pros and cons of their use for different biotechnology and basic research applications, ranging from generation of commercial crops with valuable new phenotypes to ‘bioreactor’ plants for large-scale production of recombinant proteins to research model plants expressing various reporter proteins.
Keywords:Agrobacterium-mediated transformation   Nuclear transformation   Chloroplast genetic engineering   Transgenic plants   DNA vectors
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