Cibus' White Mold (Sclerotinia) Resistance Trait Program Confirms Important Milestone for Next Generation Gene Edits in Canola
Cibus' White Mold (Sclerotinia) Resistance Trait Program Confirms Important Milestone for Next Generation Gene Edits in Canola
Cibus has successfully made the edits in Canola associated with the Company's 3rd mode of action for its White Mold (Sclerotinia) trait
Cibus已成功地在油菜中进行了与公司的3种作用模式相关联的编辑,用于其白霉(鐮孢菌)特性。rd这些下一代编辑现已在植物中得到确认,并将在今年晚些时候在受控环境中进行评估。
These next generation edits are now confirmed in plants and will be evaluated later this year in a controlled environment
2024年5月30日,美国加利福尼亚州圣迭戈,全球新闻通讯社(GLOBE NEWSWIRE)--农业科技公司Cibus,Inc.(Nasdaq : CBUS)("Cibus"或"公司"),是一家领先的农业技术公司,开发和授权植物特征以获得种子公司的专利,今天宣布,他们已经成功地在油菜中进行了下一代编辑(associated with a new third mode of action)与白霉(resistance)的新作用模式相关联。这些新编辑的植物现在将在受控环境下接受疾病抗性测试。如果成功,Cibus期望这个第三种作用模式特征,连同Cibus的其他两种作用模式特征,为油菜的白霉提供持久性抗性。今天的公告代表了公司在提供持久性白霉抗性方面取得的重大进展。
SAN DIEGO, May 30, 2024 (GLOBE NEWSWIRE) -- Cibus, Inc. (Nasdaq: CBUS) ("Cibus" or the "Company), a leading agricultural technology company that develops and licenses plant traits to seed companies for royalties, today announced it has successfully made the next generation edits in Canola associated with a new third mode of action for White Mold (Sclerotinia) resistance. These new edited plants will now undergo disease resistance testing in a controlled environment. If successful, Cibus expects this third mode of action trait, along with Cibus' other two modes of action traits, to provide durable resistance for White Mold in Canola. Today's announcement represents a major development in the Company's progress toward providing durable White Mold resistance.
Cibus是植物中复杂基因编辑特征开发的领导者,包括针对复杂病害的抗性特征,这些特征是复杂的,需要多种作用模式来对抗白霉(Sclerotinia)这样的疾病。由于植物病原体可以迅速进化,因此提供多种作用模式来提供持久性抗性是很重要的。预计开发出来的这些疾病抗性特征可以应用于多种作物上。例如,虽然白霉是减少油菜产量的最不利疾病,但它也是大豆中次危害最大的疾病,同时还可以影响各种农产品,包括马铃薯和豆类,以及水果、蔬菜、谷物和坚果。硬腐病如今这种植物病害如白霉(抗性 traits) 的第三种作用模式是大豆,油菜和其他庄稼的一个新方向,而随着气候变化,其强度也会增强。我们期望针对像油菜这样的主要作物的这些新的疾病特征将通过减少疾病引起的农作物损失和减少杀菌剂的使用从而降低投入成本来提高产能。
Cibus is a leader in the development of complex gene edited traits in plants, including disease resistance traits which are complex and require multiple modes of action against diseases like White Mold (Sclerotinia). Because plant pathogens can evolve rapidly, it is important to enable different modes of action to provide durable resistance. It is expected that when developed, these disease resistance traits can be applied to multiple crops. For example, while White Mold is the most adverse disease in Canola for reducing yields, it is also the second most impactful disease in Soybean and can also affect a wide range of produce including potatoes and legumes, as well as fruits, vegetables, grains, and nuts.
Greg Gocal博士,Cibus的联合创始人,执行副总裁兼首席科学官表示:" 一旦确定与特定特性相关联的基因,我们能够成功地编辑植物并开发新的特性,我们对此感到非常兴奋。这是Cibus技术能够加速复杂特性开发的重要信号和验证。我们相信我们的第三种作用模式将成为我们白霉疾病抗性策略的关键组成部分。此外,一旦我们完成了大豆平台,预计我们将开始将我们的白霉特性编辑到大豆中。我们继续认为我们的复杂特性开发方法对传统育种是有附加值的,而且更快。"硬腐病Cibus的CEO Peter Beetham补充道:" 这第三种作用模式让我们非常鼓舞,它代表了我们在发展植物疾病特性方面的又一伟大步骤。我们已经成功地确定了多种作用模式,以在特定上油菜中(specifically)和真菌疾病中生成对白霉的抗性。这些结果与我们在疾病特征方面的工作一致,表明由多种作用模式组成的复杂特征是可能的,从而预计产生对真菌的持久性抵抗力。"
The intensity of plant pathogens such as White Mold (Sclerotinia) can also be enhanced by changing weather patterns with increased importance in the face of climate change. We expect that these new disease traits for major crops like canola will enhance productivity through reducing crop loss due to disease, while also reducing the use of fungicides, thereby lowering input costs
Sclerotinia sclerotiorum等植物病原体会导致产量减少。这些病害对油菜/油籽菜(OSR)的影响每年约为14-30%,2016年加拿大油菜委员会的估计可能高达90%。白霉可以将油菜产量降低7-15%以上,每个受感染的油菜植株的产量损失最大可达50%。油菜委员会称,Sclerotinia茎腐病是加拿大最重要的油菜病害。它在大豆中也是一种重要的疾病,大豆生产区域中检测出的巨大菌丝体范围在33.3%(2015年)到78.3%(2020年)之间,而在2013年约为9.1%。它在温暖潮湿的环境中最为普遍。硬腐病通过改变气候模式的变化,也可以增强(作物)的抵抗力,并在应对气候变化的同时增强大作物如油菜的新病气特征,以减少由于疾病导致的作物损失,同时减少杀菌剂的使用,从而降低投入成本。
Greg Gocal, PhD, Co-Founder, Executive Vice President and Chief Scientific Officer at Cibus, commented, "We are excited by the speed with which we have been able to edit plants successfully once we have identified the genes associated with a specific trait, and then to develop new traits. It is an important signal and validation of how Cibus' technologies can accelerate the time to develop complex traits. We believe our third mode of action will be a key component of our White Mold disease resistance strategy. In addition, once we have completed our anticipated Soybean platform, we expect to begin editing our White Mold trait into Soybean. We continue to believe that our approach to complex trait development is additive to and faster than conventional breeding."
Cibus公司的创始人之一、执行副总裁兼首席科学家Greg Gocal博士评论道:“我们对成功地编辑植物的速度感到兴奋,一旦我们确定了与特定特征相关的基因,就可以开发出新的特征。这是一个重要的信号和对于Cibus技术加速复杂特征开发能力的确认。我们相信,我们的第三种作用模式将是我们抗白菌病策略的关键组成部分。此外,一旦我们完成预期的大豆平台,我们就会将抗白菌病特征编辑到大豆中。.我们继续认为,我们对复杂特征开发的方法具有添加性和比传统育种更快的速度。
Peter Beetham, Co-Founder, President and COO of Cibus, added, "We are very encouraged by this third mode of action, and it represents another great step for our progress in developing plant disease traits. We have successfully identified multiple modes of action to generate resistance to White Mold in Canola specifically, and fungal disease in general. These results are consistent with our work in disease traits showing that complex traits comprising multiple modes of action are possible leading to expected durable resistance to fungal disease."
Cibus公司的创始人之一、总裁和COO Peter Beetham补充说:“我们对这第三种作用模式感到非常鼓舞,它是我们实现植物病害特性进展的又一巨大步伐。对于截蓟菌白菌病,特别是真菌病,我们成功地确定了多种作用模式以产生抗性。这些结果与我们在疾病特性方面的工作一致,表明由多种作用模式组成的复杂特征是可能的,从而产生抗真菌病的持久性抵抗力。
About Sclerotinia
关于 硬腐病
Sclerotinia sclerotiorum is a fungal pathogen, which causes significant disease (stem rot) in oilseed crops. It affects 14-30% of canola/oil seed rape (OSR) fields annually, and potentially up to 90% as estimated by the Canola Council of Canada in 2016. White mold can reduce canola yields by 7-15%, with yield losses per infected plant being as great as 50%. The Canola Council of Canada calls Sclerotinia stem rot the most economically significant canola disease in Canada It is also a significant disease in soybean with a prevalence of sclerotia recovered ranged between 33.3% (2015) and 78.3% (2020) in soybean production regions and 9.1% (2013). It is most prevalent in warm moist environments.
菌核菌Sclerotinia sclerotiorum是一种真菌病原体。, 在油籽作物中引起显著的疾病(茎腐病)。它每年影响14-30%的油菜/油籽菜田地,并在2016年估计潜在影响高达90%。白菌病可以使油菜产量降低7-15%,每个感染的植株的产量损失可高达50%。加拿大油菜协会称菌核菌茎腐病是加拿大最具经济意义的油菜病害。它在大豆中也是一个重要的病害,在大豆生产地区,收回菌核的患病率在33.3%(2015年)到78.3%(2020年)之间,而在2013年为9.1%。它在温暖潮湿的环境中最为普遍。
About the Cibus Trait Machine process and Rapid Trait Development System
Cibus Trait Machine process和快速特征开发系统技术的简介。Cibus技术突破的一个关键元素是它的高通量育种过程(称为"Trait Machine" process)。Trait Machine process是Cibus专利的快速特征开发系统(RTDS)的特定于作物的应用。RTDS系统中的专有技术通过将特定于作物的细胞生物学平台与一系列基因编辑技术集成在一起,以实现一种端到端的特定于作物的精度育种系统。这是Cibus Trait Machine process的核心技术平台:第一个标准化的端到端半自动化作物特定基因编辑系统,直接编辑种子公司的优质种质资源。每个Trait Machine process都需要一个特定于作物的细胞生物学平台,以使Cibus能够编辑客户的优质种质资源中的一个单个细胞,并将该编辑的细胞培育成一个带有Cibus编辑的植物。Cibus已经开发了针对油菜和水稻的Trait Machine process,并已经开始将其带有Cibus编辑的优质种质资源转移到客户处。
A key element of Cibus' technology breakthrough is its high-throughput breeding process (referred to as the "Trait Machine" process). 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 process: 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 customer's elite germplasm and grow that edited cell into a plant with the Cibus edits. Cibus has a Trait Machine process developed for canola and rice and has already begun transferring their elite germplasm with Cibus edits back to customers.
Cibus相信,RTDS和Trait Machine process代表植物育种的技术突破,是植物基因编辑的终极承诺:"高通量基因编辑系统作为种子公司育种计划的延伸进行操作。"在2024年,Trait Machine process被Fast Company杂志评选为最具创新性产品之一。
The traits from Cibus' RTDS-based high-throughput breeding system are indistinguishable from traits developed using conventional breeding or from nature. RTDS does not integrate any foreign DNA or transgenes. Under the European Commission's current proposals, it is expected that products from Cibus' RTDS gene editing platform such as its Pod Shatter Reduction trait and Sclerotinia resistance traits for Canola and Winter Oilseed Rape would be considered 'Conventional-like'.
由Cibus RTDS基因编辑平台开发的特征,如其Pod Shatter Reduction特征和油菜和冬油籽油菜的Sclerotinia抗性特征,在当前欧洲委员会的提案下被认为是“类传统的”产品。
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." In 2024, the Trait Machine process was cited by Fast Company Magazine as one of the most innovative products in 2024.
Cibus认为RTDS和Trait Machine process代表植物育种技术的突破,它是植物基因编辑的极限承诺:"基于种子公司育种计划进行操作的高通量基因编辑系统。"
Because the Trait Machine process is intended to be integrated into seed companies' breeding operations, the customer relationship between Cibus and seed companies with which it engages is a collaborative relationship in which seed companies transfer elite germplasm to have a specific validated trait placed in the seed company's elite germplasm and expectation of delivery back to the seed company of their elite germplasm with the Cibus edit toward commercial development. Accordingly, Cibus refers to seed company "customers" in its disclosure once such a customer relationship has been initiated.
因为Trait Machine process旨在整合到种子公司的育种操作中,因此Cibus与其合作的种子公司之间的关系是一种合作关系,在此关系开始后,种子公司会向Cibus移交优质种质资源,以在种子公司的优质种质资源中放置一个已验证的特定特性,并期望将其转移回种子公司的编辑优质种质资源,以进行商业开发。因此,在Cibus的披露中,一旦启动了此类客户关系,即涉及种子公司的"顾客"。
About Cibus
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 United Nations estimates cost the global economy approximately $300 billion annually. Cibus is not a seed company. It is a technology company that uses gene editing to develop and license traits to seed companies in exchange for royalties on seed sales. Cibus' focus is productivity traits for farmers for the major global row crops with large acreage such as canola, corn, rice, soybean, and wheat. Cibus is a technology leader in high throughput gene editing technology that enables Cibus to develop and commercialize plant traits at a fraction of the time and cost of conventional breeding. Cibus has developed a pipeline of five productivity traits including important traits for Pod Shatter Reduction, Sclerotinia (disease) resistance, and weed management. Its initial traits for Pod Shatter Reduction and weed management are in commercial development with leading seed companies such as Nuseed Americas Inc. in Canola as well as Nutrien Ltd. and Interoc S.A. in Rice in the United States and Latin America. Its other pipeline traits including Sclerotinia resistance are in advanced greenhouse and field trials stages.
关于Cibus
Cibus是基因编辑生产力特征领域的领先者,解决了农民面临的关键生产力和可持续性挑战,如疾病和害虫,联合国估计每年给全球经济带来约3000亿美元的损失。 Cibus不是一家种子公司。它是一家利用基因编辑为种子公司开发和许可特征的科技公司,以种子销售的版税为交换条件。 Cibus专注于为大面积种植的主要全球大田作物,如油菜籽、玉米、稻米、大豆和小麦,开发生产力特征。Cibus是高速基因编辑技术领域的技术领导者,能够开发和商业化植物特征,其时间和成本仅为传统育种的一小部分。 Cibus已经开发了五种生产力特征,包括Pod Shatter Reduction(豆荚损毁减轻)和Sclerotinia(病害)抗性以及杂草管理等关键特征。其Pod Shatter Reduction和杂草管理的初始特征已与诸如Nuseed Americas Inc.在油菜籽以及Nutrien Ltd.和Interoc S.A.在美国和拉丁美洲的稻米等领先的种子公司进行商业开发。 其其他管道特征,包括Sclerotinia抗性,正在进行先进的温室和田间试验阶段。
CIBUS CONTACTS:
CIBUS联系方式:
INVESTOR RELATIONS
Karen Troeber
ktroeber@cibus.com
858-450-2636
投资者关系
Karen Troeber
ktroeber@cibus.com
858-450-2636
MEDIA RELATIONS
media@cibus.com
媒体关系
media@cibus.com