CRISPR-U™ technology (CRISPR based), developed by Ubigene, is more efficient than general
CRISPR/Cas9 technology in double-strand breaking and homologous recombination. With CRISPR-U™, Ubigene has
successfully edited over 3000 genes on more than 200 types of cell lines.
Objective
To create a Human ACHE Knockout
model in cell line by CRISPR-U™-mediated genome engineering.
Target gene info
Official symbol
ACHE
Gene id
43
Organism
Homo sapiens
Gene type
protein-coding
Official full symbol
acetylcholinesterase (Cartwright blood group)
Also known as
ACEE, ARACHE, N-ACHE, YT
Genomic regions
Chromosome 7
Summary
Acetylcholinesterase hydrolyzes the neurotransmitter, acetylcholine at neuromuscular junctions and brain cholinergic synapses, and thus terminates signal transmission. It is also found on the red blood cell membranes, where it constitutes the Yt blood group antigen. Acetylcholinesterase exists in multiple molecular forms which possess similar catalytic properties, but differ in their oligomeric assembly and mode of cell attachment to the cell surface. It is encoded by the single ACHE gene, and the structural diversity in the gene products arises from alternative mRNA splicing, and post-translational associations of catalytic and structural subunits. The major form of acetylcholinesterase found in brain, muscle and other tissues is the hydrophilic species, which forms disulfide-linked oligomers with collagenous, or lipid-containing structural subunits. The other, alternatively spliced form, expressed primarily in the erythroid tissues, differs at the C-terminal end, and contains a cleavable hydrophobic peptide with a GPI-anchor site. It associates with the membranes through the phosphoinositide (PI) moieties added post-translationally. AChE activity may constitute a sensitive biomarker of RBC ageing in vivo, and thus, may be of aid in understanding the effects of transfusion
Strategy Summary
This gene has 0 protein coding transcripts:
Frame-shift
Fragment A
Fragment B
gRNA Detail
Strategy
Project Comprehensive Difficulty Assessment
According to the Red Cotton database: the CRISPR gene-editing strategy design is Unknown. Knockout project comprehensive difficulty is thus assessed as Unknown.
Red Cotton™ Notes
Gene
ACHE
had been KO in hela cell line.
EZ-editor™ Gene Dependency
EZ-editor™ Gene Expression Level
EZ-editor™ Gene Copy Number
EZ-editor™ Gene Dependency
Result
The ACHE gene you inquire is evaluated as high risk
in 4%
cell line.
Cell line is not selected, unable to assess the accurate risk level, for reference only.
In all cell lines, there is
60.2% cells with expression level below cutoff,
36.3% cells with low expression level,
3.5% cells with medium expression level
of ACHE gene.
Cell line is not selected, unable to assess the accurate expression level, for reference only.
In all cell lines, there is
46.3% cells with low copy number,
43.2% cells with medium copy number,
10.5% cells with high copy number
of ACHE gene.
Cell line is not selected, unable to assess the accurate copy number, for reference only.
Ubigene is an international high-technology enterprise focused on gene-editing cells. Our exclusive CRISPR-U™ technology has 10-20 times more efficient editing than traditional methods, easily achieving gene knockout, point mutation, and knock-in. Based on CRISPR-U™ technology, Ubigene has accumulated over 6000 successful gene-editing cases from more than 300 cell lines including iPSC and ESC, and has established a KO Cell Line Bank with 4500+ KO cell lines and Red Cotton™ gRNA Plasmid Bank with 10000+ gRNA plasmids available in stock.
Ubigene focuses on technological innovation and product development, of which EZ-editor™ series products that cover the whole workflow of gene-editing keep improving. Ubigene will move on toward our goal of "Make genome editing easier" and we won't stop!
EZ-editor™ Gene Dependency
EZ-editor™ Gene Expression Level 
EZ-editor™ Gene Copy Number 
