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Dive into the research topics where Craig Richael is active.

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Featured researches published by Craig Richael.


Plant Physiology | 2004

Crop Improvement through Modification of the Plant's Own Genome

Caius Rommens; Jaime M. Humara; Jingsong Ye; Hua Yan; Craig Richael; Lynda Zhang; Rachel Perry; Kathleen M.M. Swords

Plant genetic engineering has, until now, relied on the incorporation of foreign DNA into plant genomes. Public concern about the extent to which transgenic crops differ from their traditionally bred counterparts has resulted in molecular strategies and gene choices that limit, but not eliminate, the introduction of foreign DNA. Here, we demonstrate that a plant-derived (P-) DNA fragment can be used to replace the universally employed Agrobacterium transfer (T-) DNA. Marker-free P-DNAs are transferred to plant cell nuclei together with conventional T-DNAs carrying a selectable marker gene. By subsequently linking a positive selection for temporary marker gene expression to a negative selection against marker gene integration, 29% of derived regeneration events contain P-DNA insertions but lack any copies of the T-DNA. Further refinements are accomplished by employing Ω-mutated virD2 and isopentenyl transferase cytokinin genes to impair T-DNA integration and select against backbone integration, respectively. The presented methods are used to produce hundreds of marker-free and backbone-free potato (Solanum tuberosum) plants displaying reduced expression of a tuber-specific polyphenol oxidase gene in potato. The modified plants represent the first example of genetically engineered plants that only contain native DNA.


Plant Biotechnology Journal | 2008

Low-acrylamide French fries and potato chips

Caius Rommens; Hua Yan; Kathy Swords; Craig Richael; Jingsong Ye

Acrylamide is produced in starchy foods that are baked, roasted or fried at high temperatures. Concerns about the potential health issues associated with the dietary intake of this reactive compound led us to reduce the accumulation of asparagine, one of its main precursors, in the tubers of potato (Solanum tuberosum). This metabolic change was accomplished by silencing two asparagine synthetase genes through ‘all-native DNA’ transformation. Glasshouse-grown tubers of the transformed intragenic plants contained up to 20-fold reduced levels of free asparagine. This metabolic change coincided with a small increase in the formation of glutamine and did not affect tuber shape or yield. Heat-processed products derived from the low-asparagine tubers were also indistinguishable from their untransformed counterparts in terms of sensory characteristics. However, both French fries and potato chips accumulated as little as 5% of the acrylamide present in wild-type controls. Given the important role of processed potato products in the modern Western diet, a replacement of current varieties with intragenic potatoes could reduce the average daily intake of acrylamide by almost one-third.


Transgenic Research | 2008

Cytokinin vectors mediate marker-free and backbone-free plant transformation

Craig Richael; Marina Kalyaeva; Robert Chretien; Hua Yan; Sathya Adimulam; Artesia Stivison; J. Troy Weeks; Caius Rommens

Conventional Agrobacterium-mediated transformation methods rely on complex and genotype-specific tissue culture media for selection, proliferation, and regeneration of genetically modified cells. Resulting transgenic plants may not only contain selectable marker genes but also carry fragments of the vector backbone. Here, we describe a new method for the production of transgenic plants that lack such foreign DNA. This method employs vectors containing the bacterial isopentenyltransferase (ipt) gene as backbone integration marker. Agrobacterium strains carrying the resulting ipt gene-containing “cytokinin” vectors were used to infect explants of various Solanaceous plant species as well as canola (Brassica napus). Upon transfer to hormone-free media, 1.8% to 9.9% of the infected explants produced shoots that contained a marker-free T-DNA while lacking the backbone integration marker. These frequencies often equal or exceed those for backbone-free conventional transformation.


PLOS ONE | 2014

Vacuolar invertase gene silencing in potato (Solanum tuberosum L.) improves processing quality by decreasing the frequency of sugar-end defects.

Xiaobiao Zhu; Craig Richael; Patrick Chamberlain; James S. Busse; Alvin J. Bussan; Jiming Jiang; Paul C. Bethke

Sugar-end defect is a tuber quality disorder and persistent problem for the French fry processing industry that causes unacceptable darkening of one end of French fries. This defect appears when environmental stress during tuber growth increases post-harvest vacuolar acid invertase activity at one end of the tuber. Reducing sugars produced by invertase form dark-colored Maillard reaction products during frying. Acrylamide is another Maillard reaction product formed from reducing sugars and acrylamide consumption has raised health concerns worldwide. Vacuolar invertase gene (VInv) expression was suppressed in cultivars Russet Burbank and Ranger Russet using RNA interference to determine if this approach could control sugar-end defect formation. Acid invertase activity and reducing sugar content decreased at both ends of tubers. Sugar-end defects and acrylamide in fried potato strips were strongly reduced in multiple transgenic potato lines. Thus vacuolar invertase silencing can minimize a long-standing French fry quality problem while providing consumers with attractive products that reduce health concerns related to dietary acrylamide.


Transgenic Research | 2012

Overexpression of the wild potato eIF4E-1 variant Eva1 elicits Potato virus Y resistance in plants silenced for native eIF4E-1

Hui Duan; Craig Richael; Caius Rommens

Potato virus Y (PVY) is the most important viral pathogen of cultivated potato (Solanum tuberosum) from a commercial perspective, causing severe losses in both tuber quality and yield worldwide. Specific accessions of wild potato species exhibit resistance against PVY but efforts to transfer the trait to cultivated material have not yielded widely adopted varieties. Because amino acid substitutions at specific domains of host factor eIF4E-1 often confer resistance to various crops, we sequenced the associated genes expressed in wild potato plants. A novel eIF4E-1 variant, designated here as Eva1, was identified in S.chacoense, S. demissum, and S. etuberosum. The protein contains amino acid substitutions at ten different positions when compared to its cultivated potato (S. tuberosum) homolog. In the yeast two-hybrid system, Eva1 failed to bind VPg, a viral protein required for infectivity. Overexpression of the associated cDNA conferred PVY resistance to transgenic potato plants silenced for the native eIF4E-1 gene. Because the gene sources of Eva1 are sexually compatible with potato, the molecular strategies described can be employed to develop ‘intragenic’ potato cultivars.


Frontiers in Plant Science | 2016

Transcription Activator-Like Effector Nucleases (TALEN)-Mediated Targeted DNA Insertion in Potato Plants

Adrienne Forsyth; Troy Weeks; Craig Richael; Hui Duan

Targeted DNA integration into known locations in the genome has potential advantages over the random insertional events typically achieved using conventional means of genetic modification. Specifically integrated transgenes are guaranteed to co-segregate, and expression level is more predictable, which makes downstream characterization and line selection more manageable. Because the site of DNA integration is known, the steps to deregulation of transgenic crops may be simplified. Here we describe a method that combines transcription activator-like effector nuclease (TALEN)-mediated induction of double strand breaks (DSBs) and non-autonomous marker selection to insert a transgene into a pre-selected, transcriptionally active region in the potato genome. In our experiment, TALEN was designed to create a DSB in the genome sequence following an endogenous constitutive promoter. A cytokinin vector was utilized for TALENs expression and prevention of stable integration of the nucleases. The donor vector contained a gene of interest cassette and a promoter-less plant-derived herbicide resistant gene positioned near the T-DNA left border which was used to select desired transgenic events. Our results indicated that TALEN induced T-DNA integration occurred with high frequency and resulting events have consistent expression of the gene of interest. Interestingly, it was found that, in most lines integration took place through one sided homology directed repair despite the minimal homologous sequence at the right border. An efficient transient assay for TALEN activity verification is also described.


Methods of Molecular Biology | 2012

Employment of Cytokinin Vectors for Marker-Free and Backbone-Free Transformation

Craig Richael; Caius Rommens

Marker-free methods of plant transformation sacrifice the advantages of a selectable marker during regeneration or add work after regeneration to remove the marker. On the positive side, there is no stably integrated marker gene in the plant genome to present regulatory hurdles or potential biosafety hazards once the plant is released to the environment. A marker-free method that is simple and adaptable to multiple crop species-even asexually propagated species-is presented herein. This method employs an engineered vector that utilizes the isopentenyltransferase (ipt) to drive the regeneration of intragenic cells containing the gene(s) of interest. The ipt gene also acts as a marker to screen against events where the vector backbone is stably integrated.


Journal of Agricultural and Food Chemistry | 2006

Improving Potato Storage and Processing Characteristics through All-Native DNA Transformation

Caius Rommens; Jingsong Ye; Craig Richael; Kathy Swords


Plant Biotechnology Journal | 2008

Engineered native pathways for high kaempferol and caffeoylquinate production in potato.

Caius Rommens; Craig Richael; Hua Yan; Duroy A. Navarre; Jingsong Ye; Michele Krucker; Kathy Swords


Crop Science | 2016

Reinventing potato as a diploid inbred line-based crop

Shelley Jansky; Amy O. Charkowski; David S. Douches; Gabe Gusmini; Craig Richael; Paul C. Bethke; David M. Spooner; R. G. Novy; Hielke De Jong; Walter De Jong; John B. Bamberg; Asunta L. Thompson; Benoit Bizimungu; David G. Holm; C. R. Brown; Kathleen G. Haynes; Vidyasagar R. Sathuvalli; Richard E. Veilleux; J. Creighton Miller; James M. Bradeen; Jiming Jiang

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Jiming Jiang

University of Wisconsin-Madison

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Paul C. Bethke

University of Wisconsin-Madison

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Alvin J. Bussan

University of Wisconsin-Madison

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Amy O. Charkowski

University of Wisconsin-Madison

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Asunta L. Thompson

North Dakota State University

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C. R. Brown

Agricultural Research Service

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David G. Holm

Colorado State University

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David M. Spooner

University of Wisconsin-Madison

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