An Introduction to Molecular Biotechnology. Группа авторов

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Название An Introduction to Molecular Biotechnology
Автор произведения Группа авторов
Жанр Химия
Серия
Издательство Химия
Год выпуска 0
isbn 9783527812882



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as RNA‐seq, has been sort of revolution for transcriptomics (Chapter 21).

      The transcription of eukaryotic genes (Figure 4.17b) is controlled by neighboring regulatory DNA regions (promoter regions) that are themselves controlled by transcription regulators, which are responsible for the activation or inactivation of a gene. As well as the promoter region that is in close proximity to the coding sequences, further cis‐regulatory elements (enhancer, silencer) can also be positioned further away (Figure 4.17b). The eukaryotic RNA polymerase II is only activated when diverse transcription factors/regulators have bound to the promoter (Figure 4.17b). Table 4.6 reviews the most important control elements and the associated consensus sequences.

Box Consensus sequence Transcription factor
BRE G/C G/C G/A C G C C TFIIB
TATA T A T A A/T A/A/T TBP
INR C/T C/T A N T/A C/T C/T TFIID
DPE A/G G A/T C G T G TFIID

      As most genes in eukaryotic cells are expressed in a cell‐, tissue‐, and development‐specific manner, additional specific transcription regulators play a decisive role. Very many of these factors have not yet been discovered. Apparently, transcription regulators do not work alone but together in complex networks, which include not only transcription factors but also modifications at the DNA (methylation) and chromatin (histone modifications) level. Transcription can also be controlled by various other effectors, such as small noncoding RNAs, lncRNAs, miRNAs, and siRNAs, but also by the speed of RNA transport and degradation.

Structure of eukaryotic protein-coding genes consisting of exons (expressed sequences) and introns (intervening sequences) and are therefore referred to as mosaic genes. Schematic representation of alternative splicing processes. The letters A, B, C, and so on indicate exons. After the complete primary transcript is produced, further selection occurs in the splicing process, in which not all exons remain but a few are removed with the introns.

      For the position of the consensus boxes see Figure 4.17.

      In eukaryotes, the mRNA is further modified by the addition of a cap structure (to the nascent RNA molecule) at the 5′‐end and a poly(A) tail at the 3′‐end (Figure 4.15). The poly(A) polymerase, which does not require a template, adds around 200 A nucleotides to the 3′‐end. The fully processed mRNA is complexed by several proteins (poly(A)‐binding proteins, nuclear export receptor, hnRNP proteins, CBC, and SR proteins). The mRNA–protein complex is recognized by the nuclear pore complex (NPC) and transported into the cytoplasm (see Chapter 5). Damaged RNA molecules are degraded in the nucleus by the exosome.

Illustration summarizing the differences between 
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