
Ordering Information
| Product Name | Catalog # | UNIT | Price | Qty | FAVORITES | |
MAP-4 CRISPR Activation Plasmid (h) | sc-402572-ACT | 20 µg | $397.00 |
MAP4 encodes microtubule-associated protein 4 (MAP-4), a ubiquitously expressed cytoskeletal regulator that binds and stabilizes microtubules to control their dynamics during interphase and mitosis. By modulating microtubule polymerization, MAP-4 influences intracellular trafficking, cell polarity, and spindle organization, thereby impacting cell-cycle progression and stress responses. Altered MAP4 expression and microtubule remodeling are associated with proliferative phenotypes and chromosomal instability, and have been investigated in the context of cancer biology and tissue remodeling. MAP-4 is also used as a mechanistic node for studying cytoskeleton-dependent signaling and organelle positioning in human cells.
MAP-4 CRISPR Activation Plasmid (h) provides a targeted, non-destructive approach to upregulating endogenous MAP4 expression without altering the underlying DNA sequence.
MAP-4 CRISPR Activation Plasmid (h) is a three-plasmid synergistic activation mediator (SAM) system engineered for highly efficient, site-specific transcriptional upregulation of the MAP4 locus in human cell lines. The system is built around a catalytically inactive Cas9 (dCas9) carrying two inactivating mutations (D10A and N863A) that eliminate nuclease activity while preserving DNA binding. This dCas9 is fused to VP64, a potent transcriptional activator, and is co-expressed with a blasticidin resistance gene for selection. The second plasmid encodes the MS2-p65-HSF1 fusion protein, a secondary activator complex that works in concert with dCas9-VP64, alongside a hygromycin resistance gene. The third plasmid encodes a target-specific 20 nt sgRNA fused to two MS2 RNA aptamers that recruit the MS2-p65-HSF1 complex to the activation site, accompanied by a puromycin resistance gene. The three plasmids are delivered at a 1:1:1 mass ratio for balanced expression of all system components.
Once assembled at the target locus, the SAM complex binds within approximately 200 bp upstream of the MAP4 transcriptional start site, where VP64, p65, and HSF1 act in concert to recruit transcriptional machinery and drive upregulation of endogenous MAP-4 expression. Unlike nuclease-active Cas9, dCas9 does not introduce double-strand breaks or modify the genomic sequence, preserving the native MAP4 locus and enabling the study of MAP-4-dependent transcriptional responses at the endogenous locus, making it a valuable tool for functional studies, target gene identification, and the modeling of MAP-4 pathway restoration in tumor cells with silenced or reduced MAP4 expression.
For Research Use Only. Not Intended for Diagnostic or Therapeutic Use.