CCND3 Knockout Cell Lines

Gene: CCND3

Official Full Name: cyclin D3provided by HGNC

Gene Summary: The protein encoded by this gene belongs to the highly conserved cyclin family, whose members are characterized by a dramatic periodicity in protein abundance through the cell cycle. Cyclins function as regulators of CDK kinases. Different cyclins exhibit distinct expression and degradation patterns which contribute to the temporal coordination of each mitotic event. This cyclin forms a complex with and functions as a regulatory subunit of CDK4 or CDK6, whose activtiy is required for cell cycle G1/S transition. This protein has been shown to interact with and be involved in the phosphorylation of tumor suppressor protein Rb. The CDK4 activity associated with this cyclin was reported to be necessary for cell cycle progression through G2 phase into mitosis after UV radiation. Several transcript variants encoding different isoforms have been found for this gene. [provided by RefSeq, Oct 2008]

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Products Background

Products

Catalog Number	Product Name	Species	Gene	Passage ratio	Mycoplasma testing	Price
KO11816	CCND3 Knockout cell line (HeLa)	Human	CCND3	1:3~1:6	Negative	Online Inquiry
KO11817	CCND3 Knockout cell line (HCT 116)	Human	CCND3	1:2~1:4	Negative	Online Inquiry
KO11818	CCND3 Knockout cell line (HEK293)	Human	CCND3	1:3~1:6	Negative	Online Inquiry
KO11819	CCND3 Knockout cell line (A549)	Human	CCND3	1:3~1:4	Negative	Online Inquiry

Background

CCND3 Gene Knockout Cell Lines are genetically engineered cellular models that have been specifically developed to lack the CCND3 gene, a crucial component of the cell cycle regulatory machinery. This gene encodes cyclin D3, a protein that plays an essential role in the transition of cells from the G1 phase to the S phase of the cell cycle, thereby influencing cellular proliferation and differentiation. The precise ablation of CCND3 enables researchers to study its function and impact on various biological processes, including cancer development and progression.

The primary mechanism of these knockout cell lines involves the use of techniques like CRISPR-Cas9 or RNA interference, which allow for highly specific gene editing. By disrupting the CCND3 gene, these cell lines provide a unique opportunity for researchers to investigate the role of cyclin D3 in cell cycle regulation, tumorigenesis, and related signaling pathways. In clinical research settings, CCND3 knockout models can also be valuable for understanding drug resistance mechanisms, as cell cycle dysregulation is frequently associated with therapeutic failure.

One significant advantage of using CCND3 Gene Knockout Cell Lines is their ability to serve as a reliable experimental platform for studying the effects of cyclin D3 inhibition in various cellular contexts, compared to traditional methods that may yield heterogeneous results. Unlike other knockouts that affect multiple genes simultaneously or rely on less efficient methods, these cell lines provide a specific and reproducible tool for researchers.

Moreover, their application extends beyond basic research; they are instrumental in drug development, biomarker identification, and therapeutic interventions, making them essential assets in both academic and pharmaceutical research laboratories. By employing these cell lines, researchers can gain deeper insights into cell cycle dynamics and their implications in disease.

Our company specializes in the development of cutting-edge biological research products, leveraging advanced genetic engineering technologies to enhance research capabilities. With a commitment to quality and innovation, we provide exceptional tools such as CCND3 Gene Knockout Cell Lines, empowering scientists to accelerate discoveries in cellular and molecular biology.

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

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