Yong-Sam Kim scite author profile

Gene therapy would benefit from a miniature CRISPR system that fits into the small adeno-associated virus (AAV) genome and has high cleavage activity and specificity in eukaryotic cells. One of the most compact CRISPR-associated nucleases yet discovered is the archaeal Un1Cas12f1. However, Un1Cas12f1 and its variants have very low activity in eukaryotic cells. In the present study, we redesigned the natural guide RNA of Un1Cas12f1 at five sites: the 5′ terminus of the trans-activating CRISPR RNA (tracrRNA), the tracrRNA–crRNA complementary region, a penta(uridinylate) sequence, the 3′ terminus of the crRNA and a disordered stem 2 region in the tracrRNA. These optimizations synergistically increased the average indel frequency by 867-fold. The optimized Un1Cas12f1 system enabled efficient, specific genome editing in human cells when delivered by plasmid vectors, PCR amplicons and AAV. As Un1Cas12f1 cleaves outside the protospacer, it can be used to create large deletions efficiently. The engineered Un1Cas12f1 system showed efficiency comparable to that of SpCas9 and specificity similar to that of AsCas12a.

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Highly efficient genome editing by CRISPR-Cpf1 using CRISPR RNA with a uridinylate-rich 3′-overhang

Moon

et al. 2018

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Genome editing has been harnessed through the development of CRISPR system, and the CRISPR from Prevotella and Francisella 1 (Cpf1) system has emerged as a promising alternative to CRISPR-Cas9 for use in various circumstances. Despite the inherent multiple advantages of Cpf1 over Cas9, the adoption of Cpf1 has been unsatisfactory because of target-dependent insufficient indel efficiencies. Here, we report an engineered CRISPR RNA (crRNA) for highly efficient genome editing by Cpf1, which includes a 20-base target-complementary sequence and a uridinylate-rich 3′-overhang. When the crRNA is transcriptionally produced, crRNA with a 20-base target-complementary sequence plus a U4AU4 3′-overhang is the optimal configuration. U-rich crRNA also maximizes the utility of the AsCpf1 mutants and multiplexing genome editing using mRNA as the source of multiple crRNAs. Furthermore, U-rich crRNA enables a highly safe and specific genome editing using Cpf1 in human cells, contributing to the enhancement of a genome-editing toolbox.

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Quantitative Analysis of an Aberrant Glycoform of TIMP1 from Colon Cancer Serum by L-PHA-Enrichment and SISCAPA with MRM Mass Spectrometry

Ahn

Lee

et al. 2009

J. Proteome Res.

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Variations in glycosylation levels or in the glycoprofile of a certain glycoprotein in tumor-related sera have been widely reported and can be used as a means of differentiation. However, quantitative mass analysis of glycoproteins is difficult because of their high structural complexity and low mass sensitivity of glycopeptides. Therefore, more powerful technologies are required for the discovery of these potential biomarkers. Tissue inhibitor of metalloproteinase 1 (TIMP1), a glycoprotein typically present at a low concentration in serum, is known to be aberrantly glycosylated in colorectal cancer cell lines as a result of the terminal addition of beta-1,6-N-acetylglucosamine (beta-1,6-GlcNAc) by N-acetylglucosaminyltransferase-V (GnT-V), which is reportedly up-regulated in invasive/metastatic cancer cells. In this report, a highly sensitive method is presented for the quantitative analysis of aberrant GlcNAcylated TIMP1 in the serum of colorectal cancer (CRC) patients. Glycoproteins having an N-linked glycan terminating with beta-1,6-GlcNAc were enriched by phytohemagglutinin-L(4) (L-PHA), a lectin that specifically recognizes the beta-1,6-GlcNAc moiety of N-linked glycan. The L-PHA-enriched glycoproteins were digested in solution with trypsin. With the use of a monoclonal anti-peptide TIMP1 antibody linked covalently to magnetic beads, a unique target peptide (antigen) of TIMP1 was immuno-enriched from the L-PHA-enriched tryptic digests and analyzed quantitatively by multiple reaction monitoring (MRM) mass analysis. The systematic coupling of L-PHA lectin enrichment followed by stable isotope standards and capture by anti-peptide antibodies (SISCAPA) with MRM mass analysis afforded quantitation of TIMP1 at attomolar (10(-18)) concentrations. An aberrantly GlcNAcylated substoichiometric TIMP1 isoform was quantified at approximately 0.8 ng/mL serum, using sample equivalent to only 1.7 microL of serum from a CRC patient. This approach provides a useful tool for the quantitation of a specific aberrant glycoform from human serum containing a variety of protein isoforms and may be helpful in studies of biological function as it pertains to protein glycan heterogeneity.

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Yong-Sam Kim

Efficient CRISPR editing with a hypercompact Cas12f1 and engineered guide RNAs delivered by adeno-associated virus

Highly efficient genome editing by CRISPR-Cpf1 using CRISPR RNA with a uridinylate-rich 3′-overhang

Quantitative Analysis of an Aberrant Glycoform of TIMP1 from Colon Cancer Serum by L-PHA-Enrichment and SISCAPA with MRM Mass Spectrometry

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