SAB4200751
Anti-CRISPR/Cas9 (C-terminal) antibody, Mouse monoclonal
clone 10C11-A12, purified from hybridoma cell culture
Synonyme(s) :
Anti-CRISPR-associated protein-9 nuclease, Anti-Crispr, Anti-Crsipr RNA
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About This Item
Code UNSPSC :
12352203
Nomenclature NACRES :
NA.41
Forme d'anticorps
purified from hybridoma cell culture
Niveau de qualité
Type de produit anticorps
primary antibodies
Clone
10C11-A12, monoclonal
Forme
buffered aqueous solution
Concentration
~1.00 mg/mL
Technique(s)
immunoblotting: 1-2 μg/mL using whole extracts of human HEK-293T cells over-expressing CAS9 protein
immunofluorescence: 1.25-2.5 μg/mL using human HEK-293T cells over-expressing CAS9 protein
immunoprecipitation (IP): 5-10 μg/test using whole extract of human HEK-293T cells over-expressing CAS9 protein
Numéro d'accès UniProt
Conditions d'expédition
dry ice
Température de stockage
−20°C
Modification post-traductionnelle de la cible
unmodified
Description générale
CAS9, also known as clustered regularly interspaced short palindromic repeats (CRISPR)-associated protein-9 nuclease, is the signature gene of the type II CRISPR -RuvC (RNase H-like fold) Cas system. CAS9 contains 1388 amino acids. This protein is predicted to contain a RuvC/ ribonuclease (RNase) H domain involved in CRISP RNA (crRNA) maturation and McrA/HNH signature domain involved in the DNA degradation step.
CRISPR (Clustered Regularly Interspaced Short Palindromic Repeats) belongs to the type II CRISPR/CAS9 system. It is part of an adaptive immune system of the Streptococcus pyogenes SF370, protecting from pathogens′ target genes by cleaving the foreign DNA in a sequence-dependent manner. The type II CRISPR/Cas system which has been adapted to expression in eukaryotic cells, consists of four genes including the Cas9 (CRISPR-associated proteins) nuclease, two noncoding CRISPR RNAs (crRNAs, or gRNA), trans-activating crRNA (tracrRNA) and a precursor crRNA (pre-crRNA) array. The pre-crRNA contains nuclease guide sequences (spacers) interspaced by identical direct repeats (DRs).
The Cas9 endonuclease can be engineered with a single gRNA, directing a DNA double-strand break (DSB) at a desired genomic location. Similar to DSBs induced by zinc finger nucleases (ZFNs), the cell then activates endogenous DNA repair processes, either non-homologous end joining (NHEJ) or homology-directed repair (HDR), to heal the targeted DSB.
In comparison to other genome-editing technologies such as designer zinc fingers (ZFs), transcription activator–like effectors (TALEs) and homing meganucleases, the CRISPR/CAS9 system is a scalable, affordable and easy to engineer. Therefore, the anti-CRISPR/CAS9 antibody can be a useful tool for detecting CRISPR/CAS9 positively transfected cells, revealing DSB sites in the genome and in ChIP (Chromatin Immunoprecipitation) related assays
The Cas9 endonuclease can be engineered with a single gRNA, directing a DNA double-strand break (DSB) at a desired genomic location. Similar to DSBs induced by zinc finger nucleases (ZFNs), the cell then activates endogenous DNA repair processes, either non-homologous end joining (NHEJ) or homology-directed repair (HDR), to heal the targeted DSB.
In comparison to other genome-editing technologies such as designer zinc fingers (ZFs), transcription activator–like effectors (TALEs) and homing meganucleases, the CRISPR/CAS9 system is a scalable, affordable and easy to engineer. Therefore, the anti-CRISPR/CAS9 antibody can be a useful tool for detecting CRISPR/CAS9 positively transfected cells, revealing DSB sites in the genome and in ChIP (Chromatin Immunoprecipitation) related assays
Immunogène
Recombinant protein within the C-terminal region of Streptococcus pyogenes Cas9
Application
Monoclonal Anti-CRISPR/CAS9 (C-terminal) recognizes CAS9 protein in CAS9 construct over-expression systems. The antibody successfully recognizes mutant Cas9 variants, including nickase Cas9 and dead Cas9 (dCas9). The antibody may be used in various immunochemical techniques including Immunoblotting, Immunofluorescence and Immunoprecipitation. Monoclonal Anti- CRISPR/CAS9 (C-terminal) does not cross react with FnCas9 from Francisella novicida bacteria and Cpf1 proteins from Acidaminococcus sp. (strain BV3L6) and Lachnospiraceae bacterium ND2006.
Actions biochimiques/physiologiques
CAS9 plays a vital role in plasmid DNA interference. It is the only Cas protein needed to deliver resistance against foreign DNA. CAS9 stimulates both RNA-guided genome editing and gene regulation in various organisms, but it can facilitate only one activity at a time within any given cell.
Forme physique
Supplied as a solution in 0.01 M phosphate buffered saline pH 7.4, containing 15 mM sodium azide as a preservative.
Stockage et stabilité
For continuous use, store at 2-8 °C for up to one month. For extended storage, freeze in working aliquots. Repeated freezing and thawing is not recommended. If slight turbidity occurs upon prolonged storage, clarify the solution by centrifugation before use. Working dilution samples should be discarded if not used within 12 hours.
Autres remarques
This product is for R&D use only, not for drug, household, or other uses.
In order to obtain best results in different techniques and preparations we recommend determining optimal working concentration by titration test.
In order to obtain best results in different techniques and preparations we recommend determining optimal working concentration by titration test.
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Code de la classe de stockage
10 - Combustible liquids
Point d'éclair (°F)
Not applicable
Point d'éclair (°C)
Not applicable
Certificats d'analyse (COA)
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Les clients ont également consulté
Patrick D Hsu et al.
Cell, 157(6), 1262-1278 (2014-06-07)
Recent advances in genome engineering technologies based on the CRISPR-associated RNA-guided endonuclease Cas9 are enabling the systematic interrogation of mammalian genome function. Analogous to the search function in modern word processors, Cas9 can be guided to specific locations within complex
Luisa Bortesi et al.
Biotechnology advances, 33(1), 41-52 (2014-12-24)
Targeted genome editing using artificial nucleases has the potential to accelerate basic research as well as plant breeding by providing the means to modify genomes rapidly in a precise and predictable manner. Here we describe the clustered regularly interspaced short
Luciano A Marraffini et al.
Nature, 463(7280), 568-571 (2010-01-15)
All immune systems must distinguish self from non-self to repel invaders without inducing autoimmunity. Clustered, regularly interspaced, short palindromic repeat (CRISPR) loci protect bacteria and archaea from invasion by phage and plasmid DNA through a genetic interference pathway. CRISPR loci
Benjamin L Oakes et al.
Cell, 176(1-2), 254-267 (2019-01-12)
The ability to engineer natural proteins is pivotal to a future, pragmatic biology. CRISPR proteins have revolutionized genome modification, yet the CRISPR-Cas9 scaffold is not ideal for fusions or activation by cellular triggers. Here, we show that a topological rearrangement of Cas9
Elitza Deltcheva et al.
Nature, 471(7340), 602-607 (2011-04-02)
CRISPR/Cas systems constitute a widespread class of immunity systems that protect bacteria and archaea against phages and plasmids, and commonly use repeat/spacer-derived short crRNAs to silence foreign nucleic acids in a sequence-specific manner. Although the maturation of crRNAs represents a
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