Transfer RNA and translation

Although messenger RNA is synthesized in the cell nucleus, it then moves to the cytoplasm and to the ribosomes, where protein biosynthesis occurs. These particles are composed of two subunits, termed 508 and 308, and are combinations of rRNA and protein. The ribosomes are responsible for binding 

A tRNA molecule is specific for a particular amino acid, though there may be several different forms for each amino acid. Although relatively small, the polynucleotide chain may show several loops or arms because of base pairing along the chain. One arm always ends in the sequence cytosine-cytosine-adenosine. The 3 -hydroxyl of this terminal adenosine unit is used to attach the amino acid via an ester linkage. However, it is now a section of the nucleotide sequence that identifies the tRNA-amino acid combination, and not the amino acid itself. A loop in the RNA molecule contains a specific sequence of bases, termed an anticodon, and this sequence allows the tRNA to bind to a complementary sequence of bases, a codon, on mRNA. The synthesis of a protein from the message carried in mRNA is called translation, and a simplified representation of the process as characterized in the bacterium Escherichia coli is shown below. 

Initially, the amino acid is activated by an ATP-dependent process, producing an aminoacyl-AMP. A hydroxyl group in ribose, part of a terminal adenosine group of tRNA, then reacts with this mixed anhydride. In this way, the amino acid is bound to tRNA via an ester linkage as an aminoacyl-tRNA. The tRNA involved will be specific for the particular amino acid. A detailed mechanism for this process has been considered in 8ection 13.5.1. 

The mRNA is bound to the smaller 30S subunit of the bacterial ribosome. The mRNA is a transcription of one of the genes of DNA, and carries the information as a series of three-base codons. The message is read (translated) in the 5 to 3 direction along the mRNA molecule. The aminoacyl-tRNA anticodon (UAC) allows binding via hydrogen bonding to the appropriate codon (AUG) on mRNA. In prokaryotes, the first amino acid encoded in the sequence is A-formylmethionine (fMet). Although the codon for initiation (A-formylmethionine) is the same as 

Then the peptidyl-tRNA at the A site is translocated to the P site by the ribosome moving along the mRNA a codon at a time, exposing the A site for a new aminoacyl-tRNA appropriate for the particular codon, and a repeat of the elongation process occurs. The cycles of elongation and translocation continue until a termination codon is reached, and the peptide or protein is then hydrolysed and released 

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