Name: Transcription Factors, Enhancers and Repressors
Uploaded: 2019-08-01T07:21:56
Description: Learn by watching this video about Transcription Factors, Enhancers and Repressors at JoVE.com

In eukaryotic cells, transcription factors are proteins that can bind to DNA and regulate the expression of genes. In order to initiate transcription, each RNA polymerase requires several different proteins, called general transcription factors, to bind to promoter regions. For example, the first and largest of these proteins, called TFIID, will bind to the TATA Box region found in most promoters. Along with other proteins, they recruit the polymerase to the promoter region and form the pre-initiation complex.
Specific transcription factors, on the other hand, can bind to distal regulatory regions called enhancer sites, away from the transcription start site, sometimes thousands of base pairs upstream or downstream of a gene, and induce higher rates of transcription. In a process called looping, the DNA strand will bend in a way that allows transcription factors bound to enhancer sites to establish protein-protein interactions with mediator proteins and the pre-initiation complex. Specific transcription factors that bind to enhancer sites to promote transcription are known as activators, while those that block or reduce transcription are called repressors. The presence of specific transcription factors and distal regulatory elements allows for differential gene expression, such as the turning on or off of different genes during early development to determine whether the cell will become a skin cell or a neuron, as well as the coordinated transcription of related functional genes.
Over 1,500 different transcription factors have been identified in humans that regulate a wide range of critical genes, from the determination of cell types early in development to the cellular response to different environmental conditions.

Lee, Tong Ihn, and Richard A. Young. &ldquo;Transcriptional Regulation and Its Misregulation in Disease.&rdquo; Cell 152, no. 6 (March 14, 2013): 1237&ndash;51. [<a href="https://doi.org/10.1016/j.cell.2013.02.014">Source</a>]
Inukai, Sachi, Kian Hong Kock, and Martha L. Bulyk. &ldquo;Transcription Factor&ndash;DNA Binding: Beyond Binding Site Motifs.&rdquo; Current Opinion in Genetics &amp; Development 43 (April 2017): 110&ndash;19. [<a href="https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5447501/">Source</a>]

transcription factors

Tissue-specific transcription factors contribute to diverse cellular functions in mammals. For example, the gene for beta globin, a major component of hemoglobin, is present in all cells of the body. However, it is only expressed in red blood cells because the transcription factors that can bind to the promoter sequences of the beta globin gene are only expressed in these cells. Tissue-specific transcription factors also ensure that mutations in these factors may impair only the function of specific tissues or body parts without affecting the entire organism.
An additional layer of complexity is added by transcription factors in eukaryotes exerting combinatorial control. That means input provided by several transcription factors synchronously regulates the expression of a single gene. The combination of several transcriptional activators and repressors enables a gene to be differentially regulated and adapt to a variety of environmental changes without the need for additional genes.

Learn by watching this video about Transcription Factors, Enhancers and Repressors at JoVE.com

Transcription Factors, Enhancers and Repressors

Transcription Factors

Tissue-specific transcription factors contribute to diverse cellular functions in mammals. For example, the gene for beta globin, a major component of ...

transcription-factors-enhancers-and-repressors

Education

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Transcription: DNA to RNA

KEY TERMS AND CONCEPTS

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unit 1

unit 2

Unit 2

dna, cells, and evolution

DNA, Cells, and Evolution

Chapter 1 biochemistry of the cell

Biochemistry of the Cell

Chapter 2 protein structure

Protein Structure

Chapter 3 protein function

Protein Function

Chapter 4 dna and chromosome structure

DNA and Chromosome Structure

Chapter 5 dna replication

DNA Replication

Chapter 6 dna repair and recombination

DNA Repair and Recombination

Chapter 7 transcription: dna to rna

Chapter 8 translation: rna to protein

Translation: RNA to Protein

Chapter 9 gene expression

Gene Expression

Chapter 10 additional roles of rna

Additional Roles of RNA

Chapter 11 key terms and concepts

scientists in action

SCIENTISTS IN ACTION

what is gene expression?

gene-expression-transcription-splicing-and-translation

What is Gene Expression?

Overview
Gene expression is the process in which DNA&nbsp;directs the synthesis of functional products, that is, proteins. Cells can regulate gene ...

rna structure

RNA Structure

Overview
The basic structure of RNA consists of a five-carbon sugar and one of four nitrogenous bases. Although most RNA is single-stranded, it can form ...

rna stability

RNA Stability

Intact DNA strands can be found in fossils, while scientists sometimes struggle to keep RNA intact under laboratory conditions. The structural variations ...

bacterial rna polymerase

Bacterial RNA Polymerase

Unlike eukaryotes, bacteria use a single RNA Polymerase (RNAP) to transcribe all genes. The different subunits of bacterial RNAPhave distinct functions. ...

types of rna

Types of RNA

Overview
Three main types of RNA are involved in protein synthesis: messenger RNA (mRNA), transfer RNA (tRNA), and ribosomal RNA (rRNA). These RNAs ...

transcription

Transcription

Overview
Transcription is the process of synthesizing RNA from a DNA sequence by RNA polymerase. It is the first step in producing a protein from a gene ...

eukaryotic rna polymerases

Eukaryotic RNA Polymerases

RNA Polymerase (RNAP) is conserved in all animals, with bacterial, archaeal, and eukaryotic RNAPs sharing significant sequence, structural, and functional ...

rna polymerase ii accessory proteins

RNA Polymerase II Accessory Proteins

Proteins that regulate transcription can do so either via direct contact with RNA Polymerase or through indirect interactions facilitated by adaptors, ...

transcription elongation factors

Transcription Elongation Factors

Transcription elongation is a dynamic process that alters depending upon the sequence heterogeneity of the DNA being transcribed. Hence, it is not ...

pre-mrna processing

pre-mrna-processing-5-cap-and-poly-a-tail

Pre-mRNA Processing

In eukaryotic cells, transcripts made by RNA polymerase are modified and processed before exiting the nucleus. Unprocessed RNA is called precursor mRNA or ...

rna splicing

RNA Splicing

Splicing is the process by which eukaryotic RNA is edited before its translation into protein. The RNA strand transcribed from eukaryotic DNA is called ...

chromatin structure regulates pre-mrna processing

chromatin-structure-regulates-pre-mrna-processing

Chromatin Structure Regulates pre-mRNA Processing

In eukaryotic cells, nascent mRNA transcripts need to undergo many post-transcriptional modifications to reach the cell cytoplasm and translate into ...

nuclear export of mrna

Nuclear Export of mRNA

Before mRNAs are exported to the cytoplasm, it is crucial to check each mRNA for structural and functional integrity. Eukaryotic cells use several ...

ribosomal rna synthesis

Ribosomal RNA Synthesis

Ribosome synthesis is a highly complex and coordinated process involving more than 200 assembly factors. The synthesis and processing of ribosomal ...

transfer rna synthesis

Transfer RNA Synthesis

One of the unique features of tRNA is the presence of modified bases. In some tRNAs, modified bases account for nearly 20% of the total bases in the ...

the nucleolus

The Nucleolus

The nucleolus is the most prominent substructure of the nucleus. When it was first discovered, it was considered to be an isolated organelle that forms ...

additional subnuclear structures

Additional Subnuclear Structures

The eukaryotic nucleus is a double membrane-bound organelle that contains nearly all of the cell&#8217;s genetic material in the form of chromosomes. It ...

alternative rna splicing

Alternative RNA Splicing

Alternative RNA splicing is the regulated splicing of exons and introns to produce different mature mRNAs from a single pre-mRNA. Unlike in constitutive ...

bacterial transcription

Bacterial Transcription

RNA polymerase (RNAP) carries out DNA-dependent RNA synthesis in both bacteria and eukaryotes. Bacteria do not have a membrane-bound nucleus. So, ...

transcription initiation

Transcription Initiation

Initiation is the first step of transcription in eukaryotes. Prokaryotic RNA Polymerase (RNAP) can bind to the template DNA and start transcribing. On the ...