A research team investigates how genome editing can be harnessed to accelerate cassava breeding and improve key traits.

自从基因编辑策略CRISPR出现以来，它遇到了一个很大的限制：经典的CRISPR系统太笨重了，无法进入人体的许多组织并进行切片和切割。现在，加州大学伯克利分校的Jennifer Doudna因帮助开发CRISPR而获得2020年诺贝尔奖，她与人共同创立了一家公司，该公司的研究人员 ...

研究人员优化 CRISPR/Cas9 系统编辑番茄 NAIP 基因家族，发现突变体幼年较矮，助力相关研究。 内质网体（ER Bodies）积累非典型黑芥子酶，该酶可水解硫代葡萄糖苷，产生对病原体和食草动物有毒的化学反应性产物。NAI2 是内质网体的一个组成部分，有助于内质网体 ...

Moreover, plant biologists, working with a wide variety of crops, have embarked on efforts to delete genes that attract pests. That way, by relying on biology rather than on chemicals, CRISPR ...

Johns Hopkins scientists say the innovation could bring 'new fruits, foods, and flavors' to an expanded global agricultural ...

Using gene editing with CRISPR-Cas9, the team has been able to study these proteins without altering ... Dec. 13, 2024 — Microorganisms produce a wide variety of natural products that can be ...

Suffering on such an immense scale can appear hopeless. However, a technique called CRISPR gene editing promises to help deal with these issues and many more—and wise regulation can spur it on.

Doctors harvest stem cells from the patient’s bone marrow and then send them off to a lab, where CRISPR is used to turn up the production of another, functional version of haemoglobin.

Researchers at Kumamoto University have successfully executed a practical trial of a new genome-editing technique that allows ...