MEF2A KO cell line available to order. Free of charge wild type control provided.
ADCAD1, MADS box transcription enhancer factor 2, polypeptide A (myocyte enhancer factor 2A), MEF2, MEF2A_HUMAN, Myocyte enhancer factor 2A, Myocyte-specific enhancer factor 2A, RSRFC4, RSRFC9, Serum response factor-like protein 1
MEF2A KO cell line available to order. Free of charge wild type control provided.
Upon arrival, the vial should be stored in liquid nitrogen vapor phase and not at -80°C. Storage at -80°C may result in loss of viability.
1. Thaw the vial in 37°C water bath for approximately 1-2 minutes.
2. Transfer the cell suspension (0.8 mL) to a 15 mL/50 mL conical sterile polypropylene centrifuge tube containing 8.4 mL pre-warmed culture medium, wash vial with an additional 0.8 mL culture medium (total volume 10 mL) to collect remaining cells, and centrifuge at 201 x g (rcf) for 5 minutes at room temperature. 10 mL represents minimum recommended dilution. 20 mL represents maximum recommended dilution.
3. Resuspend the cell pellet in 5 mL pre-warmed culture medium and count using a haemocytometer or alternative cell counting method seed all remaining cells into a T25.
4. Incubate the culture at 37°C incubator with 5% CO2. Check the culture one day after revival and continue to check until 80% confluent. Media change can be given if needed.
5. Once confluent passage into an appropriate flask at a density of 2x104 cells/cm2. Seeding density is given as a guide only and should be scaled to align with individual lab schedules. Cultures should be monitored daily.
Although we aim to provide customers with a homozygous clone, feasibility will be dependent on the biology of the protein. Should only heterozygous edits be achieved, you will be notified of the outcome and be asked to confirm whether the cell line is acceptable. All clones will be accompanied with DNA sequencing data, and the mutation description.
Recommended control: Human wild-type MCF7 cell line (Human wild-type MCF7 cell line ab288560). Please note a wild-type cell line is not automatically included with a knockout cell line order, if required please add recommended wild-type cell line at no additional cost using the code WILDTYPE-TMTK1.
We will provide viable cells that proliferate on revival.
This product is subject to limited use licenses from The Broad Institute and ERS Genomics Limited, and is developed with patented technology. For full details of the limited use licenses and relevant patents please refer to our limited use license and patent pages.
MEF2A or Myocyte Enhancer Factor 2A is a transcription factor involved in regulating gene expression. MEF2A is approximately 55 kDa in size and is expressed in a variety of tissues including muscle brain and heart. It is part of the MEF2 family of transcription factors which all share a similar MADS-box/MEF2 domain structure. MEF2A binds to DNA and influences the transcription of genes involved in muscle differentiation and development.
MEF2A participates in transcriptional regulation as part of a larger complex that includes other regulatory proteins. This transcription factor plays an essential role in the development and function of muscles. It activates the transcription of genes necessary for muscle fiber formation and adaptation. MEF2A also influences the expression of genes related to neuronal survival and plasticity impacting cognitive function and memory in the brain.
MEF2A is involved in both the MAPK/ERK and PI3K/Akt pathways which are significant for cellular growth survival and differentiation. MEF2A interacts with proteins like MAPK and PI3K impacting these signaling pathways that regulate cell proliferation and apoptosis. This interaction highlights its role in cellular response to external stimuli and stress signals positioning MEF2A as an important factor in cell fate decisions.
Mutations or dysregulation of MEF2A are connected to cardiovascular diseases particularly coronary artery disease. MEF2A mutations can disrupt normal transcriptional regulation leading to impaired cardiovascular function. Additionally alterations in MEF2A function are linked to neurodegenerative disorders such as Alzheimer's disease where it may interact with proteins including Tau and amyloid precursor protein influencing neuronal health and survival.
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