【摘 要】
:
High throughput, combinatorial approaches have revolutionized small molecule drug discovery.Here we describe our work on high throughput methods for develop
【出 处】
:
The 3rd Canton Nucleic Acids Forum(第三届广州核酸国际论坛)
论文部分内容阅读
High throughput, combinatorial approaches have revolutionized small molecule drug discovery.Here we describe our work on high throughput methods for developing and characterizing RNA delivery and gene editing systems.Libraries of degradable polymers and lipid-like materials have been synthesized, formulated and screened for their ability to delivery RNA, both in vitro and in vivo.A number of delivery formulations have been developed with in vivo efficacy, and show potential therapeutic application for the treatment of genetic disease, viral infection, and cancer.
其他文献
Sample prep plays critical role in modern molecular testing, which is striving for high content and high specificity, to ensure high and unbiased recovery.W
To expand our understanding on how the ribosome functions in the various steps of protein synthesis, we have determined the structures of the 70S ribosome b
Demonstration of a phage-derived peptidic self-assembly targeting two receptors in different geometries Peptide complexation with siRNA forming different ge
Second generation MOE Gapmer antisense oligonucleotides have demonstrated great promise and clinical activity when employed as a therapeutic modality to tar
Next generation sequencing is the breakthrough technology that promotes big data driven approaches in drug discovery research.Several examples of successful
Gene-modified human cells and mice are important tools for studying gene function in vivo.Before 2010, gene-modified human cells and mice were mainly genera
RNA interference is an endogenous cellular mechanism for controlling gene expression in which small interfering RNAs (siRNAs) bind RNA-induced silencing com