Tridge 요약
Researchers at Cold Spring Harbor Laboratory (CSHL) have found that tomato and Arabidopsis thaliana plants use distinct regulatory systems to manage the same gene, CLV3, associated with plant growth and development. The team developed over 70 mutant strains and discovered that DNA mutations regulating CLV3 can result in excessive fruit growth. This understanding of genetic regulation differences between plant species could enhance the predictability of crop genome engineering, providing advantages to farmers and plant breeders globally.
면책 조항: 위의 요약은 정보 제공 목적으로 Tridge 자체 학습 AI 모델에 의해 생성되었습니다.
원본 콘텐츠
Plant genomics has come a long way since Cold Spring Harbor Laboratory (CSHL) helped sequence the first plant genome. But engineering the perfect crop is still, in many ways, a game of chance. Making the same DNA mutation in two different plants doesn't always give us the crop traits we want. The question is why not? CSHL plant biologists just dug up a reason.CSHL Professor and HHMI Investigator Zachary Lippman and his team discovered that tomato and Arabidopsis thaliana plants can use very different regulatory systems to control the same exact gene. Incredibly, they linked this behavior to extreme genetic makeovers that occurred over 125 million years of evolution.The scientists used genome editing to create over 70 mutant strains of tomato and Arabidopsis thaliana plants. Each mutation deleted a piece of regulatory DNA around a gene known as CLV3. They then analyzed the effect each mutation had on plant growth and development. When the DNA keeping CLV3 in check was mutated too ...
출처: Phys
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