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Chinese Scientists Develop CoQ10-Producing⁣ Rice with Gene Editing

Led by ​Prof. CHEN Xiaoya from⁤ the ⁢CAS ⁣Center for Excellence in ​Molecular Plant Sciences / Shanghai Chenshan‌ Research Center and Prof.GAO Caixia from the Institute of ⁤Genetics and ⁤Developmental Biology of the Chinese‍ Academy of sciences (CAS),⁣ the researchers used ⁢targeted gene editing to modify just‍ five ⁤amino acids of the ⁢Coq1 rice enzyme, creating new rice varieties ‌capable of synthesizing Coenzyme Q10 (CoQ10).

This breakthrough is meaningful ‍because‍ CoQ10 is a ⁤popular food supplement known for its health benefits. The researchers’ work was published on February 14 in the⁢ journal ‍Cell under the title ‌”Design of CoQ10 Crops Based on Evolutionary History.”

Chen from the​ Shanghai chenshan Research Center of ⁢CAS‍ (Chinese Academy of⁣ Sciences) Center for Excellence in Molecular Plant Sciences and Gao​ from the Institute of​ Genetics and Developmental Biology of CAS are the co-corresponding authors. Associate Professor Xu Jingjing from Shanghai ‌Chenshan Botanical Garden,PhD student ⁢Lei Yuan from the Institute of Genetics and Developmental Biology,dr zhang Xiaofan from Shanghai ⁣jiao Tong University,and Associate⁢ Professor ⁢Li Jianxu from Shanghai Chenshan ⁣research Center are ‌the co-first authors.

Along with its work with rice,⁢ the team is also developing CoQ10-enriched‍ lettuce, further expanding plant-based sources of ⁤this essential nutrient.

As global interest⁣ in enduring food sources ⁤grows,this breakthrough underscores the potential of gene editing to revolutionize ‌how we approach nutrition. It also highlights the role of big data and artificial intelligence in modern agriculture, helping researchers make critical strides in crop development.

Source:‌

Gene- Rice: The Future of CoQ10 Nutrition?

In a groundbreaking study published in the journal “Cell,” Chinese scientists led by Prof. CHEN Xiaoya and Prof. GAO Caixia‌ have developed ⁢rice varieties capable of synthesizing Coenzyme Q10 (CoQ10) through gene ⁣editing. This innovative ‌approach highlights the potential of targeted genetic modifications to enhance crop nutrition and address global health concerns.

interview with Dr. emily Thompson on the Future of CoQ10-Enriched Rice

Introduction to the Breakthrough

World-Today-News.com (WTN): Could you provide an overview of the recent⁣ study that has gene-edited rice to produce CoQ10?

Dr. Emily Thompson: Certainly. The research team led by Prof. CHEN Xiaoya and Prof. GAO Caixia‌ utilized targeted gene editing techniques to modify a specific enzyme in rice. By altering just five amino acids, they were able‍ to enable rice to synthesize Coenzyme Q10, a popular dietary​ supplement with significant health benefits. This breakthrough is a testament to the power of precision gene editing in crop improvement.

The Significance of CoQ10

WTN: What makes ‌CoQ10⁤ so valuable in terms of human‍ health, and why is this revelation​ significant?

Dr. Emily Thompson: CoQ10 is a coenzyme that plays a⁤ critical role in cellular energy production and ⁣antioxidant defense. Its ‍benefits ⁣range from supporting heart health, enhancing physical performance, to potentially combating oxidative stress. This discovery is significant as it introduces a plant-based source⁣ of CoQ10,potentially making it more accessible and affordable ⁤for a broader population.

Techniques and ⁢Innovations

WTN: What ⁢specific gene editing techniques were employed to achieve this result, and how does it advance the field of agriculture?

Dr. Emily Thompson: The​ team⁣ used a combination of CRISPR-Cas9 ​gene editing ⁤and precise amino acid​ modifications.This approach provides a highly⁢ controlled and efficient way to introduce desired traits into crops. It not only⁣ advances ⁢crop genetics but also underscores the growing potential of gene editing in addressing global nutrition and food security challenges.

Broader Implications

WTN: Can you tell us more about the broader implications of this study, especially concerning big ⁣data and AI in agriculture?

Dr.Emily Thompson: This study leveraged big data and artificial intelligence to refine their gene editing strategies. These technologies are increasingly ​integral ⁣to modern agriculture, helping researchers‍ identify optimal genetic modifications and enhance crop yield and nutritional content. By integrating these⁢ advancements, we can create more ‍sustainable⁢ and resilient food systems.

Future Applications

WTN: Besides rice, the team‍ is⁤ also developing CoQ10-enriched lettuce. What ‌other types of crops could potentially benefit from this technology?

Dr. Emily Thompson:‍ This technology has the potential​ to be applied to a ‌wide range ​of ​crops, including grains, vegetables, and even fruits. By enhancing the nutritional content of various staple foods, we ⁣can improve global diets and‌ promote better health outcomes. The next steps will involve scaling up these modifications and ensuring their safety and sustainability.

Concluding Remarks

WTN: what⁢ are‍ the main takeaways from‍ this interview,and what lies ahead for the field⁢ of genetic crop improvement?

Dr.⁢ Emily⁤ Thompson: The main takeaways are that gene editing can revolutionize crop nutrition,⁣ offering new ways ⁣to enhance the nutritional value of foods and address global health issues. Looking ahead, continued‍ research and collaboration between scientists and stakeholders will be crucial to fully harnessing the potential of these technologies and ensuring their responsible application in⁣ agriculture.