Transcription factors and initiation of RNA synthesis in eukaryotes | Expression of Gene : Protein Synthesis Transcription in Prokaryotes and Eukaryotes | Genetics, Biotechnology, Molecular Biology, Botany

⇒	Expression of Gene : Protein Synthesis 2. Transcription in Prokaryotes and Eukaryotes
⇒	Transcription in prokaryotes
	⇒	Single RNA polymerase in E. coli
	⇒	Promoter sites for initiation of transcription in prokaryotes
	⇒	Initiation and elongation of RNA synthesis in prokaryotes
	⇒	'Inchworm model' for elongation of transcript
	⇒	Elongation arrest vs termination of transcription
	⇒	Termination and antitermination of mRNA synthesis in prokaryotes
⇒	Transcription in eukaryotes
	⇒	Multiple RNA polymerases in eukaryotes
	⇒	Promoter, enhancer and silencer sites for initiation of transcription in eukaryotes
	⇒	Transcription factors and initiation of RNA synthesis in eukaryotes
	⇒	Formation of preinitiation (transcription) complex with RNA polymerase II (Pol II)
	⇒	Structure and role of TFIID and other transcription factors (TBP, TAFs)
	⇒	TFIIB domains for interaction with TFIID/TATA complex
	⇒	Phosphorylation of CTD of a subunit of Pol II
	⇒	Formation of pre-initiation complex with Pol I and Pol III
	⇒	Separate DNA binding and transcription activation domains
	⇒	Transcription factors and elongation of RNA chains in eukaryotes
⇒	Chromatin structure and transcription
⇒	Transcription in mitochondria
	⇒	Transcription of vertebrate mtDNA
	⇒	Transcription of yeast and plant mtDNA
⇒	Transcription in chloroplasts

Transcription factors and initiation of RNA synthesis in eukaryotes
For eukaryotic RNA synthesis, the regulatory DNA sequences (promoters, enhancers, silencers, etc.) for genes transcribed by each of the three RNA polymerases differ. A number of transcription factors are also involved in the formation of a transcription complex, needed for initiation of transcription. Each RNA polymerase is believed generally to have its own set of transcription factors, although TFIID or a part of it (TBP = TATA binding protein)is required for all the three RNA polymerases (see later). These transcription factors may be defined as "proteins, which are needed for initiation of transcription, but are not a part of RNA polymerase". The regulatory DNA sequences and the transcription factors used by RNA polymerase II (used for mRNA synthesis) may be either common for many genes expressed constitutively or may be specific for tissue or stimulus specific expression of genes, whose expression is regulated. It means that for transcription of different genes, no single combination of DNA sequences or factors is adequate and essential, and that the transcription may be initiated in many different ways.

The common feature of this transcription, however, involves binding of a number of transcription factors to DNA sequences upstream of start point. The number of transcription factors associated with the initiation process increases as the variety of genes transcribed by the polymerase inceases (see later). These transcription factors help in DNA binding of an RNA polymerase to constitute what is described as transcription complex. After the formation of this complex, initiation of transcription occurs. All known transcription factors may not necessarily recognize DNA sequences, and a factor may instead recognize another factor or may even recognize RNA polymerase.





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