A split prime editor with untethered reverse transcriptase and circular RNA template

Article Biotechnology & Applied Microbiology

Engineered pegRNAs improve prime editing efficiency

James W. Nelson et al.

Summary: Prime editing technology enhances editing efficiency by optimizing the structure of pegRNAs, preventing degradation of the 3' region from affecting system activity, without increasing the risk of off-target editing.

NATURE BIOTECHNOLOGY (2022)

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Article Biotechnology & Applied Microbiology

CRISPR prime editing with ribonucleoprotein complexes in zebrafish and primary human cells

Karl Petri et al.

Summary: This study demonstrated prime editing using purified ribonucleoprotein complexes, achieving desired edits in zebrafish embryos and human cells. However, unintended insertions, deletions, and guide RNA scaffold incorporations were also observed.

NATURE BIOTECHNOLOGY (2022)

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Article Biotechnology & Applied Microbiology

Dual-AAV delivering split prime editor system for in vivo genome editing

Shengyao Zhi et al.

Summary: Prime editor (PE) is a new genome editing tool that has the potential to correct the majority of known human genetic disease-related mutations. In this study, split-PEs were constructed and delivered using dual adenoassociated viruses (AAVs), successfully mediating gene editing in human cells and adult mouse retina.

MOLECULAR THERAPY (2022)

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Article Engineering, Biomedical

Application of prime editing to the correction of mutations and phenotypes in adult mice with liver and eye diseases

Hyewon Jang et al.

Summary: Prime editing has shown the potential to precisely correct disease-causing mutations and ameliorate disease phenotypes in mouse models of genetic diseases. By identifying optimal guide RNAs, it can precisely target genes without detectable off-target edits. However, further validation in more animal models is necessary.

NATURE BIOMEDICAL ENGINEERING (2022)

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Article Biochemistry & Molecular Biology

Enhanced prime editing systems by manipulating cellular determinants of editing outcomes

Peter J. Chen et al.

Summary: The study found that DNA mismatch repair (MMR) hinders prime editing and promotes undesired byproducts, but the efficiency of substitution, small insertion, and small deletion edits can be enhanced by developing PE4 and PE5 prime editing systems. Strategic silent mutations near the intended edit and optimization of prime editor protein also contribute to improved editing outcomes.

CELL (2021)

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Article Cell & Tissue Engineering

Adenine base editing and prime editing of chemically derived hepatic progenitors rescue genetic liver disease

Yohan Kim et al.

Summary: DNA base editors and prime editing technology can be used for in situ correction of disease-causing alleles, with CdHs being a multipotent cell population with potential for treating genetic liver diseases.

CELL STEM CELL (2021)

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Article Biotechnology & Applied Microbiology

Genome-wide specificity of prime editors in plants

Shuai Jin et al.

Summary: The study systematically evaluated the mismatch tolerance, off-target editing, and genome-wide variants induced by prime editors in plant cells, showing high precision and low off-target effects in plant genome editing.

NATURE BIOTECHNOLOGY (2021)

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Article Multidisciplinary Sciences

Reverse-transcribed SARS-CoV-2 RNA can integrate into the genome of cultured human cells and can be expressed in patient-derived tissues

Liguo Zhang et al.

Summary: Researchers have found that SARS-CoV-2 RNA may be reverse-transcribed and integrated into the DNA of human cells, leading to positive PCR results in patients even after infection and recovery. However, the integrated viral sequences mainly consist of subgenomic sequences, which cannot produce infectious virus.

PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA (2021)

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Article Multidisciplinary Sciences

Improved prime editors enable pathogenic allele correction and cancer modelling in adult mice

Pengpeng Liu et al.

Summary: The study introduces an NLS-optimized SpCas9-based prime editor that enhances genome editing efficiency and demonstrates the potential to induce tumor formation and correct pathogenic mutations in adult mice through somatic cell editing. The use of dual adeno-associated virus (AAVs) for delivery of a split-intein prime editor further establishes the capability of this system for in vivo installation of sequence modifications with important implications for disease modeling and correction.

NATURE COMMUNICATIONS (2021)

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Review Biochemistry & Molecular Biology