KSRE – K-State teams with Canadian university to apply gene editing technology for improving wheat 

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K-State teams with Canadian university to apply

gene editing technology for improving wheat 

 

Groups will cooperate on $650K grant from National Institute of Food and Agriculture 

 

MANHATTAN, Kan. – Kansas State University officials say a $650,000 grant from the USDA”s National Institute of Food and Agriculture has spurred a partnership with a Canadian university to improve wheat using genome editing technology.

 

Eduard Akhunov, a wheat geneticist who will lead K-State’s work on this project, said the university will join with researchers at the University of Saskatchewan in using genome editing technology to improve productivity and nutrition in the world’s wheat lines.

 

Genome editing, he said, relies on a technology called clustered regularly interspaced short palindromic repeats – better known by its abbreviation, CRISPR.

 

“CRISPR is a powerful and extremely precise molecular tool capable of making targeted changes in genetic code,” Akhunov said. “It allows us to produce novel variants of genes that have improved properties and create a positive impact on the traits of interest.”

 

Using genome editing to target genes that are linked to valuable agronomic traits allows researchers to accelerate the development of crops that produce higher yields, are more nutritious or yield higher quality grain.

 

“Our project will use the capabilities of CRISPR-Cas (referring to use of the technology with an associated protein) to empower traditional breeding strategies,” Akhunov said. “Integrating this tool into modern breeding practices can substantially speed up the rate of genetic gain by accelerating the identification of agronomic genes, broadening genetic diversity, and reducing the time required for traits introgression (transfer) into the adapted germplasm.”

 

Curtis Pozniak, director of the Crop Development Centre at the University of Saskatchewan, leads his university’s work. Together, the research groups will use CRISPR to introduce domesticated traits into wild wheat relatives. “These efforts may pave new ways for broadening the genetic diversity of modern bread wheat by creating newly domesticated varieties of wild crops,” Akhunov said.

 

“Our combined efforts should help to establish the CRISPR-Cas technology as a precision breeding tool in the wheat breeder’s toolbox for characterizing, developing and transferring traits into their breeding programs.”

 

Akhunov’s research team at K-State has previously used CRISPR-based genome editing to create novel variants of genes and develop wheat lines with increased grain size and weight, and number of grains per head.

 

He said the new project also will test a new strategy to create novel trait variation by mutating a region of the wheat genome that is responsible for regulating genes tied to nitrogen uptake, carbon fixation, growth and nutrient remobilization.

 

“Currently, there is limited understanding of the range of possible variation for these traits that can be generated by editing these regulatory regions of genes,” Akhunov said.

 

The project will collaborate closely with NIFA’s Wheat Coordinated Agriculture Project (Wheat-CAP), a multi-state project; the International Wheat Yield Partnership; and the NIFA IWYP Winter Wheat Breeding Innovation Hub, which was recently established at K-State.

 

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Sidebar 

What is genome editing and CRISPR? 

 

According to the U.S. National Library of Medicine, genome editing — also called gene editing — refers to technologies that give scientists the ability to change an organism’s DNA. These technologies allow genetic material to be added, removed or altered at particular locations in the genome.

 

CRISPR is an abbreviation for clustered regularly interspaced short palindromic repeats, which is one approach to genome editing. DNA is the molecule that contains the genetic code of living organisms.

 

CRISPR-Cas9 refers to the use of CRISPR with associated protein 9. CRISPR-Cas9 was adapted from a naturally-occurring genome editing system in which bacteria capture snippets of DNA from invading viruses and use them to create DNA segments that can ‘remember’ the virus and disable future attacks.

 

In a lab, scientists use this same concept by creating a small piece of RNA – a nucleic acid that carries the genetic information of many viruses — that attaches to a target sequence of DNA in a genome. CRISPR allows researchers to use the cell’s own DNA repair machinery to add or delete pieces of genetic material, and thus create a more highly-desired DNA sequence.

 

CRISPR-Cas9 has generated excitement in the scientific community because it is faster, cheaper, more accurate and more efficient than other existing genome editing methods.

 

FOR PRINT PUBLICATIONS: Links used in this story

USDA National Institute of Food and Agriculture, https://nifa.usda.gov

 

Crop Development Centre (University of Saskatchewan, https://agbio.usask.ca/research/centres-and-facilities/crop-development-centre.php

 

Wheat Coordinated Agricultural Project, www.triticeaecap.org/about

 

International Wheat Yield Partnership, https://iwyp.org 

 

K-State chosen as hub for improving U.S. winter wheat, www.ksre.k-state.edu/news/stories/2020/06/kstate-chosen-for-winter-wheat-breeding-research-hub.html

 

U.S. National Library of Medicine, https://ghr.nlm.nih.gov/primer/genomicresearch/genomeediting

 

 

K‑State Research and Extension is a short name for the Kansas State University Agricultural Experiment Station and Cooperative Extension Service, a program designed to generate and distribute useful knowledge for the well‑being of Kansans. Supported by county, state, federal and private funds, the program has county extension offices, experiment fields, area extension offices and regional research centers statewide. Its headquarters is on the K‑State campus in Manhattan. For more information, visit www.ksre.ksu.edu

 

For more information: 

Eduard Akhunov

785-532-1342

[email protected]

Released: August 10, 2020

Written by: 

Pat Melgares

785-532-1160

[email protected]

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