Basket Updated
0
Items added
T cells are essential to cell-mediated immunity. Recognition of an antigen and engagement of a variable T cell receptor that is expressed on the cell surface leads to T cell activation.
The immune system is composed of tissues, cells, and molecules whose primary function is to detect, respond to, and eliminate pathogens and transformed cells.
Cell viability assays measure the population of live, viable cells within a sample. Typically, viability assays measure markers of cell health, including cellular metabolism, ATP levels, and cell proliferation.
B cells are lymphocytes that are an important part of the humoral immune response. The main role of B cells is to produce antibodies in response to antigens.
Apoptosis is a type of programmed cell death that occurs normally throughout the lifespan and can also occur in response to harmful stimuli. Apoptotic cells are identified by their altered morphology, caspase activation, and the presence of damaged DNA.
Cell viability is a measure of the proportion of live, healthy cells within a population. Assays to assess cell viability measure metabolic activity, ATP content, cell proliferation, or membrane integrity.
This post explores common T cell types, their roles in modulating immune cell response, and T cell activation via interaction with cell surface receptors.
The adaptive immune response uses antigen-specific receptors to detect foreign antigens. This is a slow occurrence that results from efforts of T cells, B cells, and natural killer T cells.
Many cell cycle and proliferation assays exist to measure the amount and rate of cell division. Proliferation can be used as a marker for cell viability.
An antibody shouldn’t be one of the variables in your experiment. Find out why customers rank CST highest for antibody specificity and sensitivity.
Cell counting is essential for monitoring cell health and proliferation. Learn how to count accurately and determine cell density and percent viability.
Myeloid cells are differentiated from hematopoietic stem cells in the bone marrow and include monocytes, macrophages, neutrophils, basophils, eosinophils, erythrocytes, megakaryocytes, and platelets.
Resources include signaling pathways, antibodies and companion products, research overviews, technical resources, and recent review articles.
Study the intricate cell cycle pathway's regulation of cell division and proliferation. Learn more here.
The comprehensive CST catalog of rigorously tested and validated products related to cell cycle regulation, DNA damage, and cell death and viability.
Cell Signaling Technology, Inc. Announces License in Personalized Cancer Diagnostics.
Resazurin assay protocol, a simple and sensitive way to measure cell viability. Our step-by-step protocol is easy to follow & produces reproducible results.
Overview of stem cell markers, lineage markers, development and differentiation signaling networks at Cell Signaling Technology.
Lymphoid lineage cells can be characterized using antibodies for cell type-specific markers, allowing cells to be visualized using flow cytometry or IHC.
Cell Signaling Technology Expands in China
Immunophenotyping is a technique that uses antibodies to allow the identification and quantification of particular cell types within a heterogenous population.
Distinguish living cells from dead or dying cells with viability dyes.
In-cell Western: a simple method for quantification of intracellular signaling in whole cells. Data and links for tech support.
Cell Signaling Technology (CST) Enters Agreement with Roche for CDx Development
Cancer cells can resist death. They evade apoptosis, the mechanism that programs cell death once cells become damaged. Normally, apoptosis helps keep an organism healthy through growth and development, but cancer cells do not follow this process, no matter how abnormally they grow.
Intracellular flow cytometry enables characterization of signaling networks at a single cell level in phenotypically distinct cell populations.