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Transcriptional repressor CTCF also known as 11-zinc finger protein or CCCTC-binding factor is a transcription factor that in humans is encoded by the CTCF gene. [ 5 ] [ 6 ] CTCF is involved in many cellular processes, including transcriptional regulation , insulator activity, V(D)J recombination [ 7 ] and regulation of chromatin architecture.
CTCF molecules can form homodimers on DNA, which can be co-bound by cohesin; this chromatin loop structure helps constrain the ability of enhancers within the loop to target genes outside the loop. Loops with CTCF and cohesin at the start and end of the loop that restrict enhancer-gene targeting are "insulated neighborhoods."
Topologically associating domains within chromosome territories, their borders and interactions. A topologically associating domain (TAD) is a self-interacting genomic region, meaning that DNA sequences within a TAD physically interact with each other more frequently than with sequences outside the TAD. [1]
Moreover, CTCF and cohesin play important roles in determining TADs and enhancer-promoter interactions. The result shows that the orientation of CTCF binding motifs in an enhancer-promoter loop should be facing to each other in order for the enhancer to find its correct target.
CTCF forms methylation-sensitive insulators that regulate X-chromosome inactivation. Transcriptional repressor CTCFL (this protein) is a paralog of CTCF and appears to be expressed primarily in the cytoplasm of spermatocytes, unlike CTCF which is expressed primarily in the nucleus of somatic cells. CTCF and CTCFL are normally expressed in a ...
This process continues until the extruding complex is released or encounters a barrier. In vertebrates, one well-studied factor that limits loop extrusion by cohesin is the CCCTC-binding factor (CTCF). CTCF directly interacts with cohesin, stabilizing it on chromatin and anchoring loop boundaries.
Polyspace is a static code analysis tool for large-scale analysis by abstract interpretation to detect, or prove the absence of, certain run-time errors in source code for the C, C++, and Ada programming languages.
Gal4 is a modular protein consisting broadly of a DNA-binding domain and an activation domain. The UAS to which GAL4 binds is CGG-N 11-CCG, where N can be any base. [6] Although GAL4 is a yeast protein not normally present in other organisms it has been shown to work as a transcription activator in a variety of organisms such as Drosophila, [7] and human cells, highlighting that the same ...