手机体育投注平台

Skip to main content

and
  1. No Access手机体育投注平台

    手机体育投注平台 Protocol

    RNA Editing in Human and Mouse Tissues

    Adenosine-to-inosine (A-to-I) RNA editing is a fundamental posttranscriptional mechanism that greatly diversifies the transcriptome in many living organisms, including mammals. Multiple studies have demonstrat...

    Harini Srinivasan, Eng Piew Louis Kok, Meng How Tan in RNA Editing (2021)

  2. Article

    Open Access

    Systematic evaluation of CRISPR-Cas systems reveals design principles for genome editing in human cells

    手机体育投注平台 While CRISPR-Cas systems hold tremendous potential for engineering the human genome, it is unclear how well each system performs against one another in both non-homologous end joining (NHEJ)-mediated and homol...

    Yuanming Wang, Kaiwen Ivy Liu, Norfala-Aliah Binte Sutrisnoh in Genome Biology (2018)

  3. No Access

    Protocol

    Rapid Control of Genome Editing in Human Cells by Chemical-Inducible CRISPR-Cas Systems

    Genome editing using programmable DNA endonucleases enables the engineering of eukaryotic cells and living organisms with desirable properties or traits. Among the various molecular scissors that have been dev...

    Kaiwen Ivy Liu, Muhammad Nadzim Bin Ramli in Synthetic Biology (2018)