DMAC2L Knockout Cell Lines

Gene: DMAC2L

Official Full Name: distal membrane arm assembly component 2 likeprovided by HGNC

Gene Summary: This gene encodes a subunit of mitochondrial ATP synthase. Mitochondrial ATP synthase catalyzes ATP synthesis, utilizing an electrochemical gradient of protons across the inner membrane during oxidative phosphorylation. ATP synthase is composed of two linked multi-subunit complexes: the soluble catalytic core, F1, and the membrane-spanning component, Fo, comprising the proton channel. This gene encodes the subunit s, also known as factor B, of the proton channel. This subunit is necessary for the energy transduction activity of the ATP synthase complexes. Alternatively spliced transcript variants encoding different isoforms have been identified. [provided by RefSeq, Jul 2008]

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Products Background

Products

Catalog Number	Product Name	Species	Gene	Passage ratio	Mycoplasma testing	Price
KO27829	DMAC2L Knockout cell line (HeLa)	Human	DMAC2L	1:3~1:6	Negative	Online Inquiry
KO27830	DMAC2L Knockout cell line (HCT 116)	Human	DMAC2L	1:2~1:4	Negative	Online Inquiry
KO27831	DMAC2L Knockout cell line (HEK293)	Human	DMAC2L	1:3~1:6	Negative	Online Inquiry
KO27832	DMAC2L Knockout cell line (A549)	Human	DMAC2L	1:3~1:4	Negative	Online Inquiry

Background

DMAC2L Gene Knockout Cell Lines are specialized cellular models designed to facilitate advanced research in gene function and cellular biology. These cell lines are created through precise gene editing techniques to knock out the DMAC2L gene, allowing researchers to study the effects of its absence on cellular processes, signaling pathways, and disease mechanisms.

The core function of DMAC2L Gene Knockout Cell Lines lies in their ability to enable targeted investigation into the role of the DMAC2L gene, which has been implicated in various physiological processes and pathologies. Utilizing CRISPR/Cas9 technology, these cell lines exhibit specific gene disruption that can lead to phenotypic changes observable in cellular behavior, gene expression, and protein interactions. Researchers can leverage these alterations to decipher the gene's contribution to cellular homeostasis, differentiation, and potential disease states.

Scientific applications of DMAC2L Gene Knockout Cell Lines are vast, spanning fields such as cancer research, neurobiology, and regenerative medicine. By understanding the functional role of DMAC2L, researchers can identify novel therapeutic targets and develop interventions for conditions marked by dysregulation in gene expression. This offers a substantial advantage in translating laboratory findings into clinical applications.

The unique selling points of DMAC2L Gene Knockout Cell Lines include their high specificity and reliability compared to traditional knockout methods, which often lack precision and can result in off-target effects. The robustness of these cell lines ensures reproducibility in experimental results, making them a dependable resource for rigorous scientific inquiry.

For researchers and clinicians, DMAC2L Gene Knockout Cell Lines offer invaluable insights and are pivotal in advancing our understanding of gene functionality in health and disease. As the demand for custom, high-quality research tools grows, our company prides itself on leveraging cutting-edge biotechnology to produce these superior cell lines, backed by a team of experts dedicated to supporting groundbreaking research efforts.

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

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