Cibus Announces Major Breakthrough in Wheat Regeneration from Single Cells
- Breakthrough believed to represent the world’s first successful regeneration of a wheat plant from single cells – a major breakthrough for Cibus and for the seed industry.
- Provides another single cell regeneration system to make Cibus’ High Throughput Breeding Process (the “Trait Machine™ System”) operational for a key cereal crop integral to food security globally.
- Wheat breakthrough demonstrates the Company’s continued success in developing scalable high throughput breeding platforms that can operate as extensions of seed company breeding programs.
- This is the third crop toward Cibus’ goal to develop single cell models for the five major crops (canola, rice, wheat, soybean and corn) for the benefit of seed companies and farmers – Cibus already has High Throughput Breeding systems in two crops (canola and rice) and a five-trait pipeline across these two crops.
“In this tour de force, I am proud of our team’s persistence, the result of which is the opening of a scalable gene editing process in wheat, which is a major global crop and an important food staple,” said
“I am so impressed with our entire team, which was able to achieve this important milestone a year ahead of schedule, opening up the potential to accelerate trait development in one of the world’s most cultivated crops,” added
Wheat is one of the world’s most cultivated crops, and one of the major crops grown in
Initially sequenced a mere five years ago, wheat genomes are some of the largest of all crops, having more than 16 billion letters (compared to rice with about one billion letters that was sequenced in 2002 and five times larger than the human genome). They are also very complex with durum wheat comprising the fusion of two genomes and bread wheat from the fusion of three.
Given this breakthrough, Cibus intends to develop a family of traits to address the most significant challenges faced by farmers globally for wheat, focusing initially on disease resistance and nitrogen use efficiency. Nitrogen use efficiency is a need in many crops, but particularly for wheat with its enormous, cultivated acreage. A nitrogen use efficiency trait would have the potential to materially reduce the carbon footprint of the crop while offering better yield with similar fertilization. Fungal diseases cause a significant economic impact in wheat production with cereals representing the largest fungicide market. Development of disease resistance traits in wheat offer the promise of protecting yield potential while reducing fungicide use. We are encouraged that we will be able to address the major diseases in wheat. Finally, this platform enables the development of improved wheat quality traits, potentially reducing or eliminating allergens such as gluten and even further improvement of the Company’s high fiber wheat.
“This breakthrough represents a significant milestone for our business. Our long-term goal is to develop a scalable high-speed breeding production system that can develop and produce traits for any seed company servicing any of the five major crops (canola, rice, wheat, soybean, and corn),” said
About the Cibus RTDS®-based High Throughput Breeding System
A key element of Cibus’ technology breakthrough is its high Throughput Breeding Process (referred to as the Trait Machine™ System). The Trait Machine process is a crop specific application of Cibus’ patented Rapid Trait Development System™ (RTDS). The proprietary technologies in RTDS integrate crop specific cell biology platforms with a series of gene editing technologies to enable a system of end-to-end crop specific precision breeding. It is the core technology platform for Cibus’ Trait Machine: the first standardized end-to-end semi-automated crop specific gene editing system that directly edits a seed company’s elite germplasm. Each Trait Machine process requires a crop specific cell biology platform that enables Cibus to edit a single cell from a customers’ elite germplasm and grow that edited cell into a plant with the Cibus edits. Cibus has Trait Machine platforms developed for canola and rice and has already begun transferring back to customers their elite germplasm with Cibus edits.
The traits from Cibus’ RTDS-based High Throughput Breeding System are indistinguishable from traits developed using conventional breeding or from nature. Under the
Cibus believes that RTDS and the Trait Machine process represent the technological breakthrough in plant breeding that is the ultimate promise of plant gene editing: High Throughput Gene Editing Systems operating as an extension of seed company breeding programs.
Cibus is a leader in gene edited productivity traits that address critical productivity and sustainability challenges for farmers such as diseases and pests which the
This press release contains “forward-looking statements” within the meaning of applicable securities laws, including The Private Securities Litigation Reform Act of 1995. All statements, other than statements of present or historical fact included herein, including statements regarding Cibus’ operational and financial performance, Cibus’ strategy, future operations, prospects and plans, including the anticipated regulatory environment are forward-looking statements. Forward-looking statements may be identified by words such as “anticipate,” “believe,” “intend”, “expect,” “plan,” “scheduled,” “could,” “would” and “will,” or the negative of these and similar expressions.
These forward-looking statements are based on the current expectations and assumptions of Cibus’ management about future events, which are based on currently available information. These forward-looking statements are subject to numerous risks and uncertainties, many of which are difficult to predict and beyond the control of Cibus. Cibus’ actual results, level of activity, performance, or achievements could be materially different than those expressed, implied, or anticipated by forward-looking statements due to a variety of factors, including, but not limited to: changes in expected or existing competition; challenges to Cibus’ intellectual property protection and unexpected costs associated with defending intellectual property rights; increased or unanticipated time and resources required for Cibus’ platform or trait product development efforts; Cibus’ reliance on third parties in connection with its development activities; challenges associated with Cibus’ ability to effectively license its productivity traits and sustainable ingredient products; the risk that farmers do not recognize the value in germplasm containing Cibus’ traits or that farmers and processors fail to work effectively with crops containing Cibus’ traits; challenges that arise in respect of Cibus’ production of high-quality plants and seeds cost effectively on a large scale; Cibus’ need for additional funding to finance its activities and challenges in obtaining additional capital on acceptable terms, or at all; Cibus’ dependence on distributions from
In addition, the forward-looking statements included in this press release represent Cibus’ views as of the date hereof. Cibus specifically disclaims any obligation to update such forward-looking statements in the future, except as required under applicable law. These forward-looking statements should not be relied upon as representing Cibus’ views as of any date subsequent to the date hereof.
Source: Cibus US LLC