Protein synthesis ribosome role

NUCLEOPROTEINS. Nucleoprotein conjugates have many roles in the storage and transmission of genetic information. Ribosomes are the sites of protein synthesis. Virus particles and even chromosomes are protein-nucleic acid complexes. 

Transfer RNA (tRNA) serves as a carrier of amino acid residues for protein synthesis. Transfer RNA molecules also fold into a characteristic secondary structure (marginal figure). The amino acid is attached as an aminoacyl ester to the 3 -terminus of the tRNA. Aminoacyl-tRNAs are the substrates for protein biosynthesis. The tRNAs are the smallest RNAs (size range—23 to 30 kD) and contain 73 to 94 residues, a substantial number of which are methylated or otherwise unusually modified. Transfer RNA derives its name from its role as the carrier of amino acids during the process of protein synthesis (see Chapters 32 and 33). Each of the 20 amino acids of proteins has at least one unique tRNA species dedicated to chauffeuring its delivery to ribosomes for insertion into growing polypeptide chains, and some amino acids are served by several tRNAs. For example, five different tRNAs act in the transfer of leucine into... 

Those cytoplasmic RNA molecules that serve as templates for protein synthesis (ie, that transfer genetic information from DNA to the protein-synthesizing machinery) are designated messenger RNAs, or mRNAs. Many other cytoplasmic RNA molecules (ribosomal RNAs rRNAs) have strucmral roles wherein they con-... 

The a-amino group of the new aminoacyl-tRNA in the A site carries out a nucleophilic attack on the esterified carboxyl group of the peptidyl-tRNA occupying the P site (peptidyl or polypeptide site). At initiation, this site is occupied by aminoacyl-tRNA mef. This reaction is catalyzed by a peptidyltransferase, a component of the 285 RNA of the 605 ribosomal subunit. This is another example of ribozyme activity and indicates an important—and previously unsuspected—direct role for RNA in protein synthesis (Table 38-3). Because the amino acid on the aminoacyl-tRNA is already activated, no further energy source is required for this reaction. The reaction results in attachment of the growing peptide chain to the tRNA in the A site. 

Whereas DNA has a single role as the storehouse of genetic information, RNA plays many roles in the operation of a cell. There are several different types of RNA, each having its own function. The principal job of RNA is to provide the information needed to synthesize proteins. Protein synthesis requires several steps, each assisted by RNA. One type of RNA copies the genetic information from DNA and carries this blueprint out of the nucleus and into the cytoplasm, where construction of the protein takes place. The protein is assembled on the surface of a ribosome, a cell component that contains a second type of RNA. The protein is consfructed by sequential addition of amino acids in the order specified by the DNA. The individual amino acids are carried to the growing protein chain by yet a third type of RNA. The details of protein synthesis are well understood, but the process is much too complex to be described in an introductoiy course in chemistry. 

The RNA molecules, ribosomal RNA (rRNA) and messenger RNA (mRNA) play key roles in the protein synthesis. The amount of RNA in individual cells or in a community may, therefore, be taken as an indicator of protein synthesis and, thus, microbial activity. The number of active cells can be detected by fluorescent in situ hybridization (FISH) (Amann et al. 1995). By this method, individual cells carrying high concentrations of rRNA, situated on ribosomes, are quantified by fluorescence microscopy. The amount of rRNA in a community can also be detected by Reverse Transcriptase Polymerase Chain Reaction (RT-PCR), where rRNA extracted from soil is detected by creating a DNA copy and separating by gel electrophoresis (Duineveld et al. 2001). 

In protein synthesis, there are three classes of RNA to worry about ribosomal RNA, rRNA messenger RNA, mRNA and transfer RNA, tRNA. All three classes of RNA play key roles in the final stage of the process the biosynthesis of proteins. However, we are going to take this one step at a time. We turn attention first to the... 

This definition expands our earlier thoughts in two ways. First, we have included specification of RNA molecules as well as proteins. As noted above, many RNA molecules serve a role as message carrier from DNA to the protein-synthesizing machinery (mRNA) and are translated into protein structures. Other RNA molecules serve other functions as components of the ribosome, rRNA, or as an interface between mRNA and amino acids in protein synthesis, tRNA. Finally, we have the very small RNA molecules known as siRNA. These species of RNA are not translated into proteins and this requires that the definition of a gene include the specification of their structure. 

Other specialized RNAs, ribosomal RNA (rRNA), transfer RNAs (tRNAs), and small RNA molecules are not translated into protein but have central roles in gene expression and protein synthesis. 

At one point or another during protein synthesis, several other proteins will be associated with the ribosome. These include factors that help in initiating the synthetic process, others that help in elongating the peptide chain, and yet others that play a role in terminating the synthesis of a peptide chain. Beyond this, there is also the mRNA to consider, as well as the aminoacylated tRNA molecules. Finally, since protein biosynthesis consumes energy, there is the hydrolysis of ATP and GTP to AMP and GDP, respectively, by the ribosome. 

RNA has a variety of functions within a cell for each function, a specific type of RNA is required. Messenger RNA (mRNA) serves as intermediaries for carrying genetic messages from the DNA to the ribosomes where protein synthesis lakes place. Ribosomal RNA (rRNA) serves both structural and functional roles in the ribosome it is diverse, both in terms of its size and structure. Transfer RNAs (tRNAs) are small molecules that have a central role in protein synthesis. Other RNA molecules, called ribozymes, function as enzymes to catalyze chemical transformations. Although ribozymes most often catalyze cleavage of the... 

RNA consists of long strings of ribonucleotides, polymerised in a similar way to DNA, but the chains are considerably shorter than those of DNA. RNA contains ribose rather than deoxyribose and also contains uracil instead of thymidine. This has important connotations in the secondary structure of RNA which does not form the long helices found in DNA. RNA is usually much more abundant than DNA in the cell and its concentration varies according to cell activity and growth. This is because RNA has several roles in protein synthesis. There are three major classes messenger RNA (mRNA) ribosomal RNA (rRNA) and transfer RNA (tRNA). 

Dahlberg, A. E., The functional role of ribosomal RNA in protein synthesis. Cell 57 525-529, 1989. 

Dissociable Protein Factors Play Key Roles at the Different Stages in Protein Synthesis on the Ribosome... 

The observations on ppGpp s role in rRNA synthesis show that this nucleotide is an important control factor regulating rRNA synthesis, but it does not eliminate the possibility that other factors also affect the level of rRNA. In vivo and in vitro evidence indicates that the inhibitory effect of ppGpp on transcription extends to most tRNA and riboso-mal protein genes. Ribosomal protein gene expression also appears to be regulated at the translational level. 

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