CRISPR基因编辑技术，作为近十年来生命科学领域的一项重大突破，吸引了全球科研人员的目光。其独特的机制和高效的编辑能力为基因组学、医学和农业等多个领域带来了新的可能。本文将对CRISPR技术的发展历程进行回顾，探讨其核心原理、应用场景及未来的发展挑战。 CRISPR（Clustered Regularly Interspaced Short Palindromic Repeats）技术最初是在2 ...

Research reveals SLC13A3's role in tumor cell survival and immune therapy resistance, highlighting its potential as a target ...

Its comprehensive genome editing toolbox includes programmable nucleases, base editors, and RNA and DNA-mediated integration systems (including prime editing systems and clustered regularly ...

(Researchers rarely include the term “Cas9” in conversation, or the inelegant terminology that CRISPR stands for: “clustered regularly interspaced short palindromic repeats.”) The guide ...

They add bits of viral DNA to their own genome to guide the Cas proteins, and the odd patterns of these bits of DNA are what gave CRISPR its name: clustered regularly interspaced short palindromic ...

CRISPR-Cas9 has long been likened to a kind of genetic scissors, thanks to its ability to snip out any desired section of DNA ...

This important study advances our understanding of the way neurons in the auditory cortex of mice respond to unpredictable sounds. Through the use of state-of-the-art recording methods, compelling ...

De-extinction scientists have turned their attention to species from more 'recent' times — notably the Quaternary Period, ...