Tom Clemente scite author profile

An emerging topic in plant biology is whether plants display analogous elements of mammalian programmed cell death during development and defense against pathogen attack. In many plant–pathogen interactions, plant cell death occurs in both susceptible and resistant host responses. For example, specific recognition responses in plants trigger formation of the hypersensitive response and activation of host defense mechanisms, resulting in restriction of pathogen growth and disease development. Several studies indicate that cell death during hypersensitive response involves activation of a plant-encoded pathway for cell death. Many susceptible interactions also result in host cell death, although it is not clear how or if the host participates in this response. We have generated transgenic tobacco plants to express animal genes that negatively regulate apoptosis. Plants expressing human Bcl-2 and Bcl-xl, nematode CED-9, or baculovirus Op-IAP transgenes conferred heritable resistance to several necrotrophic fungal pathogens, suggesting that disease development required host–cell death pathways. In addition, the transgenic tobacco plants displayed resistance to a necrogenic virus. Transgenic tobacco harboring Bcl-xl with a loss-of-function mutation did not protect against pathogen challenge. We also show that discrete DNA fragmentation (laddering) occurred in susceptible tobacco during fungal infection, but does not occur in transgenic-resistant plants. Our data indicate that in compatible plant–pathogen interactions apoptosis-like programmed cell death occurs. Further, these animal antiapoptotic genes function in plants and should be useful to delineate resistance pathways. These genes also have the potential to generate effective disease resistance in economically important crops.

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Ribozyme termination of RNA transcripts down‐regulate seed fatty acid genes in transgenic soybean

Buhr¹,

Sato²,

Ebrahim³

et al. 2002

The Plant Journal

174

149

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SummaryWe investigated whether termination of transcripts with a self-cleaving ribozyme can enhance nuclear retention and serve as a tool to decrease speci®c plant gene expression. Nuclear retention was ®rst monitored in tobacco using the b-glucuronidase gene terminated with either the 35S CaMV 3¢ untranslated sequence (UTR) or a cis-acting ribozyme. Northern blot analysis of nuclear RNA and total RNA, and in situ hybridizations showed that the ribozyme-terminated transcripts were preferentially retained in the nucleus of transgenic tobacco. Ribozyme-terminated transcripts were subsequently tested as a gene down-regulation strategy in soybean. The embryo-speci®c D-12 fatty acid desaturase FAD2-1 gene was targeted because its down-regulation elevates oleic acid content of seed storage lipids. Both ribozyme-terminated antisense and standard antisense constructs were capable of gene downregulation, producing over 57% oleic acid compared with less than 18% in wild-type seed. Ribozyme termination cassettes were also constructed to evaluate sense transcripts for single gene downregulation and the simultaneous down-regulation of two embryo-speci®c genes in soybean using a single promoter. Eight independent soybean transformants were screened that harboured standard plus sense or ribozyme terminated FAD2-1 cassette. Two of the eight ribozyme terminated transformants displayed oleic acids levels in the seed storage lipids of over 75%, while none of the standard plus sense FAD2-1 lines showed elevated oleic acid phenotypes. The dual constructs targeted FAD2-1 and the FatB gene encoding a palmitoyl-thioesterase. Five transgenic soybean lines harbouring the dual constructs had oleic acid levels, greater than 85%, and saturated fatty acids levels, less than 6%. Thus, ribozyme termination of transcripts can be utilized to speci®cally down-regulate endogenous gene expression in soybean.

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Rapid and reproducible Agrobacterium-mediated transformation of sorghum

et al. 2006

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A rapid and reproducible Agrobacterium-mediated transformation protocol for sorghum has been developed. The protocol uses the nptII selectable marker gene with either of the aminoglycosides geneticin or paromomycin. A screen of various A. tumefaciens strains revealed that a novel C58 nopaline chromosomal background carrying the chrysanthopine disarmed Ti plasmid pTiKPSF(2), designated NTL(4)/Chry5, was most efficient for gene transfer to sorghum immature embryos. A NTL(4)/Chry5 transconjugant harboring the pPTN290 binary plasmid, which carries nptII and GUSPlus expression cassettes, was used in a series of stable transformation experiments with Tx430 and C2-97 sorghum genotypes and approximately 80% of these transformation experiments resulted in the recovery of at least one transgenic event. The transformation frequencies among the successful experiments ranged from 0.3 to 4.5%, with the average transformation frequency being approximately 1% for both genotypes. Over 97% of the transgenic events were successfully established in the greenhouse and were fully fertile. Co-expression of GUSPlus occurred in 89% of the transgenic T(0) events. Seed set for the primary transgenic plants ranged from 145 to 1400 seed/plant. Analysis of T(1) progeny demonstrated transmission of the transgenes in a simple Mendelian fashion in the majority of events.

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Tom Clemente

Soybean Oil: Genetic Approaches for Modification of Functionality and Total Content

Abrogation of disease development in plants expressing animal antiapoptotic genes

Ribozyme termination of RNA transcripts down‐regulate seed fatty acid genes in transgenic soybean

Rapid and reproducible Agrobacterium-mediated transformation of sorghum

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