Cis-regulatory elements: Difference between revisions
(Created page with "== Introduction == Cis-regulatory elements (CREs) are regions of non-coding DNA that regulate the transcription of nearby genes. They are vital components of genetic regulatory networks and play a significant role in the spatial and temporal control of gene expression. == Function == CREs function by providing binding sites for transcription factors and other proteins that can influence the rate of transcription of the associated gene. They can...") |
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[[Image:Detail-146583.jpg|thumb|center|A close-up view of a DNA molecule, focusing on the double helix structure.]] | |||
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[[Category:Molecular biology]] | [[Category:Molecular biology]] | ||
[[Category:Gene expression]] | [[Category:Gene expression]] | ||
Revision as of 00:28, 27 December 2025
Introduction
Cis-regulatory elements (CREs) are regions of non-coding DNA that regulate the transcription of nearby genes. They are vital components of genetic regulatory networks and play a significant role in the spatial and temporal control of gene expression.
Function
CREs function by providing binding sites for transcription factors and other proteins that can influence the rate of transcription of the associated gene. They can be located upstream, downstream, or within the gene they regulate. The exact position and orientation of a CRE relative to the gene does not typically affect its function.
Types of Cis-regulatory Elements
There are several types of CREs, each with unique roles in gene regulation.
Promoters
Promoters are sequences of DNA located at the beginning of genes. They provide a site for RNA polymerase and other transcription factors to bind and initiate transcription.
Enhancers
Enhancers are sequences of DNA that can increase the rate of transcription of a gene. They can be located far away from the gene they regulate and can function in either orientation.
Silencers
Silencers are sequences of DNA that can decrease the rate of transcription of a gene. Like enhancers, they can be located far away from the gene they regulate and can function in either orientation.
Insulators
Insulators are sequences of DNA that can block the effect of enhancers or silencers on a gene. They can also protect a gene from the effects of nearby active or inactive chromatin.
Role in Development and Disease
CREs play a crucial role in the development of organisms by controlling when and where genes are expressed. They are also implicated in many diseases, including cancer, where mutations in CREs can lead to misregulation of gene expression.
Experimental Techniques for Studying Cis-regulatory Elements
Several experimental techniques are available for studying CREs, including reporter assays, chromosome conformation capture, and DNA footprinting.
Evolution of Cis-regulatory Elements
The evolution of CREs is a topic of ongoing research. It is believed that changes in CREs can lead to changes in gene expression patterns, contributing to the evolution of new traits.
See Also
