CRISPR/Cas9-mediated gene therapy holds great promise for the treatment of human diseases. The protospacer adjacent motif (PAM), the sequence adjacent to the target sequence, is an essential targeting component for the design of CRISPR/Cas9-mediated gene editing. However, currently, very few studies have attempted to directly study the PAM sequence in human cells. To address this issue, the authors develop a dual fluorescence reporter system that could be harnessed for identifying functional PAMs for genome editing endonuclease, including Cas9. With this system, the authors investigate the effects of different PAM sequences for SaCas9, which is small and has the advantage of allowing in vivo genome editing, and found only 5'-NNGRRT-3' PAM could induced sufficient target cleavage with multi-sites. The authors also found SaCas9 possesses higher activity than SpCas9 or FnCpf1 via plasmids (episomal) and chromosomes with integrated eGFP-based comparison. Taken together, the authors show that a dual fluorescence reporter system is a means to identifying a functional PAM and quantitatively comparing the efficiency of different genome editing endonucleases with the similar or identical target sequence in human cells.
To investigate the effects of dietary fiber on follicular atresia in pigs fed a high-fat diet, we fed 32 prepubescent gilts a basal diet (CON) or a CON diet supplemented with 300 g/d dietary fiber (fiber), 240 g/d soy oil (SO), or both (fiber + SO). At the 19th day of the 4th estrus cycle, gilts fed the SO diet showed 112% more atretic follicles and greater expression of the apoptotic markers, Bax and Caspase-3, and these effects were reversed by the fiber diet. The abundance of short-chain fatty acid-producing microbes was decreased by the SO diet, but this effect was reversed by fiber treatment. Concentrations of serotonin and melatonin in the serum and follicular fluid were increased by the fiber diet. Overall, dietary fiber protected against high-fat feeding induced follicular atresia at least partly via gut microbiota-related serotonin–melatonin synthesis. These results provide insight into preventing negative effects on fertility in humans consuming a high-energy diet.
Cre-loxP, as one of the site-specific genetic manipulation tools, offers a method to study the spatial and temporal regulation of gene expression/inactivation in order to decipher gene function. CRISPR/Cas9-mediated targeted genome engineering technologies are sparking a new revolution in biological research. Whether the traditional site-specific genetic manipulation tool and CRISPR/Cas9 could be combined to create a novel genetic tool for highly specific gene editing is not clear. Here, we successfully generated a CRISPR/Cas9-loxP system to perform gene editing in human cells, providing the proof of principle that these two technologies can be used together for the first time. We also showed that distinct non-homologous end-joining (NHEJ) patterns from CRISPR/Cas9-mediated gene editing of the targeting sequence locates at the level of plasmids (episomal) and chromosomes. Specially, the CRISPR/Cas9-mediated NHEJ pattern in the nuclear genome favors deletions (64%–68% at the human AAVS1 locus versus 4%–28% plasmid DNA). CRISPR/Cas9-loxP, a novel site-specific genetic manipulation tool, offers a platform for the dissection of gene function and molecular insights into DNA-repair pathways.
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