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CRISPR

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By Targets:	Biochemical Assay Reagents (2) DNA/RNA Synthesis (1) FGFR (1) Liposome (2) VEGFR (1)
By Research Areas:	Cancer (2) Cardiovascular Disease (1) Inflammation/Immunology (1)

5

Inhibitors & Agonists

3

Peptides

Cat. No.	Product Name	Target	Research Areas	Chemical Structure

Peptide A5K INF7-A5K-TAT	Biochemical Assay Reagents	Others
Peptide A5K (INF7-A5K-TAT) is an amphiphilic peptide derived from the HA2-TAT fusion scaffold. Peptide A5K can non-covalently bind to CRISPR ribonucleoproteins and efficiently deliver them to cells, such as primary human T cells, B cells, and NK cells. Peptide A5K enables low-toxicity, precise, and multiplex genome editing, holding great application potential in the field of cell therapy .

PolQi1	DNA/RNA Synthesis	Cancer
PolQi1 is a selective inhibitor targeting the Polθ domain of DNA polymerase. PolQi1 inhibits the Polθ-mediated microhomology end joining (TMEJ/alt-EJ) pathway, reducing insertion/deletion (Indels) and imprecise editing events during DNA repair. PolQi1 can enhance the efficiency and accuracy of homology-directed repair (HDR) or Prime editing, and reduce off-target effects; and in combination with DNA-PK inhibitor AZD-7648 (HY-111783), exert efficient genome editing capabilities with dual pathway regulation. PolQi1 can be mainly used in gene editing research (such as CRISPR-Cas9 or Prime editing system optimization) to improve the precision editing efficiency of difficult-to-edit cells (such as primary hepatocytes and mouse embryos) .

Peptide A5K acetate INF7-A5K-TAT acetate	Biochemical Assay Reagents	Others
Peptide A5K (INF7-A5K-TAT) acetate is an amphiphilic peptide derived from the HA2-TAT fusion scaffold. Peptide A5K acetate can non-covalently bind to CRISPR ribonucleoproteins and efficiently deliver them to cells, such as primary human T cells, B cells, and NK cells. Peptide A5K acetate enables low-toxicity, precise, and multiplex genome editing, holding great application potential in the field of cell therapy .

BCP-NC2-C12	Liposome	Others
BCP-NC2-C12 is an ionizable cationic lipid. BCP-NC2-C12 can be used to generate lipid nanoparticles (LNPs) for in vivo delivery of mRNA. BCP-NC2-C12 LNPs mediated an approximately 90% reduction in PCSK9 serum protein levels via CRISPR/Cas9 gene knockout .

Si5-N14	Liposome VEGFR FGFR	Cardiovascular Disease Inflammation/Immunology Cancer
Si5-N14 is a key component of siloxane-incorporated lipid nanoparticles (SiLNP), possessing pro-vascular repair and anti-tumor activities. In the transgenic GFP mouse model, Si5-N14 can mediate CRISPR-Cas9 editing. In the Lewis lung carcinoma (LLC) tumor-bearing mouse model, Si5-N14 can knock out the expression of Vascular Endothelial Growth Factor Receptor 2 (VEGFR2) to exert an anti-tumor effect. In a mouse model of lung injury induced by viral infection, the delivery of Fibroblast Growth Factor-2 (FGF-2) mRNA via Si5-N14 can promote vascular repair, increase blood oxygen levels, and improve lung function. Si5-N14 shows promise for research in the fields of oncology, pneumonia, and cardiovascular diseases .

Cat. No.	Product Name	Target	Research Area

Peptide A5K INF7-A5K-TAT	Biochemical Assay Reagents	Others
Peptide A5K (INF7-A5K-TAT) is an amphiphilic peptide derived from the HA2-TAT fusion scaffold. Peptide A5K can non-covalently bind to CRISPR ribonucleoproteins and efficiently deliver them to cells, such as primary human T cells, B cells, and NK cells. Peptide A5K enables low-toxicity, precise, and multiplex genome editing, holding great application potential in the field of cell therapy .

INF7TAT-P55 P55	Peptides	Others
INF7TAT-P55 (P55) is a peptide that enables ribonucleoprotein delivery for CRISPR engineering. INF7TAT-P55 supports efficient genome editing in T cells with excellent yields, and is well suited for CD34+ HSPCs .

Peptide A5K acetate INF7-A5K-TAT acetate	Biochemical Assay Reagents	Others
Peptide A5K (INF7-A5K-TAT) acetate is an amphiphilic peptide derived from the HA2-TAT fusion scaffold. Peptide A5K acetate can non-covalently bind to CRISPR ribonucleoproteins and efficiently deliver them to cells, such as primary human T cells, B cells, and NK cells. Peptide A5K acetate enables low-toxicity, precise, and multiplex genome editing, holding great application potential in the field of cell therapy .

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