Search engine for discovering works of Art, research articles, and books related to Art and Culture
Javascript must be enabled to continue!
A Unified Architecture of Transcriptional Regulatory Elements
View through CrossRef
AbstractGene expression is precisely controlled in time and space through the integration of signals that act at gene promoters and gene-distal enhancers. Classically, promoters and enhancers are considered separate classes of regulatory elements, often distinguished by histone modifications. However, recent studies have revealed broad similarities between enhancers and promoters, blurring the distinction: active enhancers often initiate transcription, and some gene promoters have the potential of enhancing transcriptional output of other promoters. Here, we propose a model in which promoters and enhancers are considered a single class of functional element, with a unified architecture for transcription initiation. The context of interacting regulatory elements, and surrounding sequences, determine local transcriptional output as well as the enhancer and promoter activities of individual elements.
Title: A Unified Architecture of Transcriptional Regulatory Elements
Description:
AbstractGene expression is precisely controlled in time and space through the integration of signals that act at gene promoters and gene-distal enhancers.
Classically, promoters and enhancers are considered separate classes of regulatory elements, often distinguished by histone modifications.
However, recent studies have revealed broad similarities between enhancers and promoters, blurring the distinction: active enhancers often initiate transcription, and some gene promoters have the potential of enhancing transcriptional output of other promoters.
Here, we propose a model in which promoters and enhancers are considered a single class of functional element, with a unified architecture for transcription initiation.
The context of interacting regulatory elements, and surrounding sequences, determine local transcriptional output as well as the enhancer and promoter activities of individual elements.
Related Results
Transcriptional Regulation Underlying Long-term Sensitization in Aplysia
Transcriptional Regulation Underlying Long-term Sensitization in Aplysia
The final published article is available in the Oxford Research Encyclopedia of Neuroscience: https://oxfordre.com/neuroscience/display/10.1093/acrefore/9780190264086.001.0001/acre...
Mediator kinase submodule-dependent regulation of cardiac transcription
Mediator kinase submodule-dependent regulation of cardiac transcription
<p>Pathological cardiac remodeling results from myocardial stresses including pressure and volume overload, neurohumoral activation, myocardial infarction, and hypothyroidism...
Modulating Fis and IHF binding specificity, crosstalk and regulatory logic through the engineering of complex promoters
Modulating Fis and IHF binding specificity, crosstalk and regulatory logic through the engineering of complex promoters
AbstractBacterial promoters are usually formed by multiplecis-regulatory elements recognized by a plethora of transcriptional factors (TFs). From those, global regulators are key e...
Transcriptional Changes Fade Prior to Long-Term Memory for Sensitization of the Aplysia Siphon-Withdrawal Reflex
Transcriptional Changes Fade Prior to Long-Term Memory for Sensitization of the Aplysia Siphon-Withdrawal Reflex
Forming a long-term memory requires changes in neuronal transcription. What happens, though, as the memory is forgotten? And how does the transcriptional state relate to the main...
Transposable elements as essential elements in the control of gene expression
Transposable elements as essential elements in the control of gene expression
AbstractInterspersed repetitions called transposable elements (TEs), commonly referred to as mobile elements, make up a significant portion of the genomes of higher animals. TEs co...
Development of a Comprehensive Regulatory Model for Medical Devices
Development of a Comprehensive Regulatory Model for Medical Devices
Abstract
Background: The development of a comprehensive regulatory model for medical devices is essential to ensure the safety, efficacy, and quality of medical devices throughout...
MicroRNAs reinforce repression of PRC2 transcriptional targets independently and through a feed-forward regulatory network
MicroRNAs reinforce repression of PRC2 transcriptional targets independently and through a feed-forward regulatory network
AbstractGene expression can be regulated at multiple levels, but it is not known if and how there is broad coordination between regulation at the transcriptional and post-transcrip...
H3K4me3 is a post-transcriptional histone mark
H3K4me3 is a post-transcriptional histone mark
Histone H3 Lysine 4 trimethylation (H3K4me3) is widely recognized as a hallmark of actively transcribed gene promoters, yet its precise role in transcriptional regulation remains u...