CNOT7 Knockout Cell Lines

Gene: CNOT7

Official Full Name: CCR4-NOT transcription complex subunit 7provided by HGNC

Gene Summary: The protein encoded by this gene binds to an anti-proliferative protein, B-cell translocation protein 1, which negatively regulates cell proliferation. Binding of the two proteins, which is driven by phosphorylation of the anti-proliferative protein, causes signaling events in cell division that lead to changes in cell proliferation associated with cell-cell contact. The encoded protein downregulates the innate immune response and therefore provides a therapeutic target for enhancing its antimicrobial activity against foreign agents. Alternative splicing of this gene results in multiple transcript variants. Related pseudogenes have been identified on chromosomes 1 and X. [provided by RefSeq, Apr 2016]

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Products Background

Products

Catalog Number	Product Name	Species	Gene	Passage ratio	Mycoplasma testing	Price
KO26991	CNOT7 Knockout cell line (HeLa)	Human	CNOT7	1:3~1:6	Negative	Online Inquiry
KO26992	CNOT7 Knockout cell line (HCT 116)	Human	CNOT7	1:2~1:4	Negative	Online Inquiry
KO26993	CNOT7 Knockout cell line (HEK293)	Human	CNOT7	1:3~1:6	Negative	Online Inquiry
KO26994	CNOT7 Knockout cell line (A549)	Human	CNOT7	1:3~1:4	Negative	Online Inquiry

Background

CNOT7 Gene Knockout Cell Lines are genetically modified cell lines in which the CNOT7 gene, a critical component of the CCR4-NOT complex involved in mRNA degradation and post-transcriptional gene regulation, has been inactivated. These cell lines serve as powerful tools for researchers aiming to investigate the functional role of CNOT7 within various biological processes, including cell cycle regulation, apoptosis, and gene expression modulation. The mechanism of action whereby CNOT7 influences these processes generally involves the degradation of specific mRNAs, thus modulating the availability of numerous proteins essential for maintaining cellular homeostasis.

The scientific importance of CNOT7 Gene Knockout Cell Lines lies in their capacity to elucidate the underlying mechanisms of disease, particularly in cancer and neurodegenerative disorders, where dysregulation of mRNA stability is a common theme. Their application in both basic research and clinical settings provides insights into potential therapeutic targets. By employing this knockout model, researchers can systematically assess the phenotypic consequences of CNOT7 deficiency, helping to deepen our understanding of CNOT7-related pathways.

One of the unique advantages of CNOT7 Gene Knockout Cell Lines is the specificity and precision of the knockout achieved through advanced genome editing techniques, such as CRISPR/Cas9. This high level of specificity reduces off-target effects and enhances the reliability of experimental results. Compared to traditional approaches such as RNA interference, these cell lines offer a more stable and permanent means to study gene function, allowing for longitudinal studies over extended periods.

In summary, CNOT7 Gene Knockout Cell Lines offer essential insights for researchers and clinicians delving into the complexities of gene regulation and disease mechanisms. Their robust applications, coupled with unique technical advantages, make them an invaluable addition to any molecular biology toolkit. Our company specializes in providing high-quality genetic models tailored for impactful research, ensuring our customers have access to the most advanced tools available in the field.

Please note that all services are for research use only. Not intended for any clinical use.

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