Eukaryotic transcription

Eukaryotic transcription

Eukaryotic transcription is more complex than prokaryotic transcription. For instance, in eukaryotes the genetic material (DNA), and therefore transcription, is primarily localized to the nucleus, where it is separated from the cytoplasm (in which translation occurs) by the nuclear membrane. DNA is also present in mitochondria in the cytoplasm and mitochondria utilize a specialized RNA polymerase for transcription. This allows for the temporal regulation of gene expression through the sequestration of the RNA in the nucleus, and allows for selective transport of RNAs to the cytoplasm, where the ribosomes reside.

The basal eukaryotic transcription complex includes the RNA polymerase and additional proteins that are necessary for correct initiation and elongation.

Initiation

Among eukaryotes that regulate the transcription of individual genes, the "core promoter" of protein-encoding gene contains binding sites for the basal transcription complex and RNA polymerase II, and is normally within about 50 bases upstream of the transcription initiation site. Further transcriptional regulation is provided by "upstream control element"s (UCEs), usually present within about 200 bases upstream of the initiation site. The core promoter for Pol II sometimes contains a TATA box, the highly conserved DNA recognition sequence for the TATA box binding protein, TBP, whose binding initiates transcription complex assembly at the promoter.

Some genes also have enhancer elements that can be thousands of bases upstream or downstream of the transcription initiation site. Combinations of these upstream control elements and enhancers regulate and amplify the formation of the basal transcription complex.

Transcription process

Eukaryotes have three nuclear RNA polymerases, each with distinct roles and properties: [ [http://www.sparknotes.com/biology/molecular/dnatranscription/section3.rhtml SparkNotes: DNA Transcription: Eukaryotic DNA Transcription ] ] [ [http://www.mun.ca/biochem/courses/3107/Lectures/Topics/euk_transcription.html Eukaryotic Transcription ] ]

There are many eukaryotes that differ from the canonical presentation of the roles of RNA polymerases. Certain organisms possess four distinct RNA polymerases. Other organisms utilize RNA polymerase I to transcribe certain protein-coding genes in addition to rRNAs.

Transcription regulation

The regulation of gene expression is achieved through the interaction of several levels of control including the regulation of transcription initiation. Most (not all) eukaryotes possess robust methods of regulating transcription initiation on a gene-by-gene basis. The transcription of a gene can be regulated by cis-acting elements within the regulatory regions of the DNA, and trans-acting factors that include transcription factors and the basal transcription complex.

Splicing

Two types of splicing, cis-splicing and trans-splicing, use the same splicing machinery to cleave RNAs at specific points and rejoin them to form new combinations once transcribed. Although most eukaryotes possess splicing machinery the extent of cis- and trans-splicing varies from organism to organism.

Cis-splicing

Primary (initial) mRNA transcripts are synthesized as larger precursor RNAs that are processed by splicing out introns (non-coding sequences) and ligating exons (non-contiguous coding sequences) into the mature mRNA. Primary transcripts for some genes can be large. The primary transcripts of the neurexin genes, for instance, are as large as 1.7 megabases (1,700,000 bases), while the mature (processed) neurexin mRNAs are under 10 kilobases (10,000 bases), with as many as 24 exons and thousands of possible alternative splice variants that produce proteins with different activities. Alternative splicing is now incorporated in as much as 60% of human genetic coding, drastically increasing the potential variety of actual proteins produced.

Trans-splicing

Observed in range of different eukaryotes (including most conspicuously the worm "C. elegans" and a group of parasitic protists called kinetoplastids), trans-splicing occurs whereby an exon from one RNA molecule is spliced onto the 5' end of a completely separate molecule post-transcriptionally. While relatively unimportant to many eukaryotes, the role of this process in the biology of some organisms is ubiquitous. In kinetoplastids, for example, every single nuclear-encoded message must be trans-spliced before translation of the message can occur.

References


Wikimedia Foundation. 2010.

Игры ⚽ Поможем решить контрольную работу

Look at other dictionaries:

  • Transcription (genetics) — Transcription is the process of creating a complementary RNA copy of a sequence of DNA.[1] Both RNA and DNA are nucleic acids, which use base pairs of nucleotides as a complementary language that can be converted back and forth from DNA to RNA by …   Wikipedia

  • Transcription (génétique) — Transcription (biologie) Pour les articles homonymes, voir Transcription. Transcription/Traduction La transcription est un processus biolog …   Wikipédia en Français

  • Transcription inverse — Transcription (biologie) Pour les articles homonymes, voir Transcription. Transcription/Traduction La transcription est un processus biolog …   Wikipédia en Français

  • Transcription Factor II D — (TFIID) is one of several general transcription factors that make up the RNA polymerase II preinitiation complex.cite book | author = Lewin, Benjamin | title = Genes VIII | publisher = Pearson Prentice Hall | location = Upper Saddle River, NJ |… …   Wikipedia

  • Transcription (biologie) — Pour les articles homonymes, voir Transcription. Transcription/Traduction La transcription est un processus biologique ubiquitaire qui consiste, au niveau de la …   Wikipédia en Français

  • Eukaryotic translation — is the process by which messenger RNA is translated into proteins in eukaryotes. It consists of initiation, elongation and termination [http://nobelprize.org/educational games/medicine/dna/a/translation/ nobelprize.org] Translation] InitiationCap …   Wikipedia

  • Eukaryotic chromosome fine structure — refers to the structure of sequences for eukaryotic chromosomes. Some fine sequences are included in more than one class, so the classification listed is not intended to be completely separate.Chromosomal characteristicsSome sequences are… …   Wikipedia

  • Transcription Factor II B — (TFIIB) is one of several general transcription factors that make up the RNA polymerase II preinitiation complex.cite book | author = Lewin, Benjamin | title = Genes VIII | publisher = Pearson Prentice Hall | location = Upper Saddle River, NJ |… …   Wikipedia

  • Reverse transcription — Transcription (biologie) Pour les articles homonymes, voir Transcription. Transcription/Traduction La transcription est un processus biolog …   Wikipédia en Français

  • Transcription factor — In the field of molecular biology, a transcription factor (sometimes called a sequence specific DNA binding factor) is a protein that binds to specific sequences of DNA and thereby controls the transfer (or transcription) of genetic information… …   Wikipedia

Share the article and excerpts

Direct link
Do a right-click on the link above
and select “Copy Link”