RESUMO
The clustered regularly interspaced short palindromic repeats (CRISPR)/CRISPR-associated protein (Cas) is an adaptive immune system against invasive viruses and exogenous DNA,which is developed by bacteria and archaer during long-term evolution.With advances in technology,researchers have found that CRISPR/ Cas9 system can precisely edit the genomes of eukaryotic cells through insertion,replacement or deletion of target genes.Using CRISPR/Cas9 genome editing technology,researchers found that overexpression of paired box gene 6 (PAX6) in cornea can cause congenital corneal epithelial damage;this technology promoted the research on the pathogenic mechanism of keratin 12 (KRT12) mutation in Meesmann corneal epithelial dystrophy;it has also built congenital cataract animal models by knocking out the G JA8 gene and αA lens gene,which is beneficial to the application of the diagnosis and pathological analysis of congenital cataract.In addition,the researchers have used CRISPR/Cas9 genome editing technology to confirm the correlation of RHOS334 mutated RHO allele,P23H mutated RHO gene,Y347X mutated Pde6b gene,and mutant RP9 allele with retinitis pigmentosa.The application of this technology has provided evidence to support the association of KCNJ13 gene and mutant CEP290 gene with Leber congenital amaurosis.CRISPR/Cas9 can provide target spot of intraocular neovascular diseases the targeted therapy by editing of VEGFR2 gene and TXNIP gene,and it also playse an important role in the study of pathogenic genes and establishment of animal models for proliferative vitreoretinopathy and retinoblastoma.In this review,we introduced the evolutionary history,the molecular characteristics and the mechanism of CRISPR/Cas9,and summarized its current research advances in eye diseases.
RESUMO
Nanomedicine offers great promise for early diagnosis and treatment of formidable diseases. The unique morphology and biology characteristics of bacteriophage provide unprecedented opportunity for such endeavor. The paper summarizes the application of bacteriophage in nanobiomaterials, nanomedicine, nanomedicine delivery and nanodiagnosis, especially the nano-imaging reagents and future direction concerning nanomedicine based on bacteriophage.