Precise A•T to G•C base editing in the zebrafish genome

Background

Base editors are a class of genome editing tools with the ability to efficiently induce point mutations in genomic DNA, without inducing double-strand breaks or relying on homology-direct repair as in other such technologies. Recently, adenine base editors (ABEs) have been developed to mediate the conversion of A?T to G?C in genomic DNA of human cells, mice, and plants. Here, we investigated the activity and efficiency of several adenine base editors in zebrafish and showed that base editing can be used to create new models of pathogenic diseases caused by point mutations.

Results

The original ABE7.10 exhibits almost no activity in zebrafish. After codon optimization, we found that a zABE7.10 variant could induce targeted conversion of adenine to guanine in zebrafish at multiple tested genomic loci, and all the target sites showed a high rate of germline targeting efficiency. Furthermore, using this system, we established a zebrafish model of 5q-Syndrome that contained a new point mutation in rps14. The further modification of zABE7.10 by a bipartite nuclear localization signals (bpNLS) resulted in 1.96-fold average improvement in ABE-mediated editing efficiency at four sites.

Conclusions

Collectively, this system, designated as zABE7.10, provides a strategy to perform A?T to G?C base editing in zebrafish and enhances its capacity to model human diseases.

     

Histochemical methods for acid β-galactosidase: Technics for semipermeable membranes

Summary Indigogenic and azocoupling reactions for the detection of acid -galctosidase in unfixed cold microtome sections adherent to semipermeable membranes are described. The indigogenic method is the method of choice. The described procedure prevents the leakage of the enzyme activity of sections (the diffusion is limited to the closest surroundings of the actual localization of enzyme activity) and is recommended as a routine method in studies concerning acid -galactosidase.     

"绿色革命"之父诺曼•博洛格

在第一次"绿色革命"中,国际玉米小麦改良中心做出了突出的贡献,而在这个国际组织中,小麦项目的创始人和领导者是大名鼎鼎的美国小麦育种专家诺曼?博洛格(Norman Borlaug). 诺曼?博洛格于1914年出生在美国艾奥瓦州,是美国著名的农业科学家、植物病理学家、遗传育种学家.他于1944年到达墨西哥从事农业科学研究,...