Download presentation
Presentation is loading. Please wait.
Published byDeborah Brianne Thompson Modified over 9 years ago
1
Translation
2
Is the process in which mRNA provides a template for synthesis of polypeptide.
3
Over view of"central dogma" DNA → RNA → protein.
4
Components Required for Translation A large number of components required for the synthesis of a polypeptide chain. These include all the amino acids that are found in the finished product, the m-RNA to be translated, t-RNAs, functional ribosomes, energy sources, enzymes, and protein factors needed for the initiation, elongation, and termination of the polypeptide chain. These gather in the cytosol prior to turning on the assembly line that creates a finished product.
6
1.Amino acids All the amino acids that appear in the finished protein must be present at the time of protein synthesis. 2. Transfer RNA (t-RNA) At least one specific type of t-RNA is required per amino acid. In humans there are at least 50 species of t-RNA. Whereas bacteria contain 30 to 40 species. Because there are only 20 different amino acids commonly carried by t-RNAs, some amino acids have more than one specific t-RNA molecule. This is particularly true of those amino acids that are coded for by several codons.
7
Amino acid attachment site Each tRNA molecule has an attachment site for a specific amino acid at its 3'-end. When a tRNA has a covalently attached amino acid it is said to be charged, when tRNA is not bound to an amino acid it is described as being uncharged. The amino acid that is attached to the tRNA molecule is said to be activated.
8
Anticodon Each t-RNA molecule contains a three-base nucleotide sequence—the anticodon—that recognizes a specific codon on the mRNA. This codon specifies the insertion into the growing peptide chain of the amino acid carried by that t-RNA. Because of their ability to both carry a specific amino acid and to recognize the codon for that amino acid, t-RNA are known as adaptor molecules.
9
Typical a clover leaf diagram of t-RNA molecule
10
3. Messenger RNA (mRNA) The specific mRNA required as a template for the synthesis of the desired polypeptide chain must be present. 4. Aminoacyl-t-RNA synthetases This family of enzymes is required for attachment of amino acids to their corresponding t-RNAs. 5.Functionally component ribosomes Ribosomes are large complexes of protein and r-RNA. They consist of two subunits—one large and one small.
11
Ribosomal RNA (r-RNA) Prokaryotic ribosomes contain 3 molecules of r-RNA, whereas eukaryotic ribosomes contain 4 molecules of r-RNA. Ribosomal Protein Are present in considerably greater numbers in eukaryotic ribosomes than in prokaryotic ribosomes. These proteins play a number of roles in the structure and function of the ribosome and its interactions with other components of the translation system.
12
A and P sites on the ribosome The ribosome has two binding sites for t-RNA molecules, the A and P sites, each of which extends over both subunits. Together, they cover two neighboring codons. During translation, the A site binds an incoming aminoacyl-t-RNA as directed by the codon currently occupying this site. This codon specifies the next amino acid to be added to the growing peptide chain. The P site codon is occupied by peptidyl-t-RNA. This t-RNA carries the chain of amino acids that has already been synthesized.
13
6.Protein factors Initiation, elongation, and termination factors are required for peptide synthesis. Some of these protein factors perform a catalytic function, whereas others appear to stabilize the synthetic machinery. 7. ATP and GTP are required as source of energy
14
Codon Recognition By tRNA Recognition of particular codon in an mRNA sequence is accomplished by the anti codon sequence of the t-RNA. Some t-RNA recognize more than one codon for a given amino acid. Antiparallel binding between codon and anti codon: Binding of the t-RNA anti codon to the mRNA codon follows the rules of complementary and anti parallel binding. Wobble hypothesis: The mechanism by which t-RNA can recognize more than one codon for a specific amino acid is described by the “wobble” hypothesis in which the base at the 5'-end of the anti codon (the first base of the anti codon) is not a spatially defined as the other two bases. Movement of that first base allows nontraditional base pairing with the 3'-base of the codon (the last base of the codon). This movement is called “wobble” and allows a single t-RNA to recognize more than one codon.
15
Steps in Translation The process of translation is divided into 3 separate steps: initiation, elongation, and termination. 1.Initiation Initiation of protein synthesis involves the assembly of the components of the translation system. These components include the two ribosomal subunits, the mRNA to be translated, the aminoacyl-t-RNA specified by the first codon in the message, GTP, and the initiation factors, that facilitate the assembly of this initiation complex. In prokaryotes, three initiation factors are known (IF- 1, IF-2, and IF-3), whereas in eukaryotes, there are at least nine.
17
2. Elongation Elongation of the polypeptide chain involves the addition of amino acids to the carboxyl end of the growing polypeptide chain. During elongation, the ribosomes moves from the 5'-end to the 3'-end of the mRNA that is being translated. Delivery of the aminoacyl-t-RNA whose codon appears next on the mRNA template is facilitated in prokaryote by elongation factors EF-Tu and EF-Ts and requires GTP. In eukaryotes, elongation factors are designated eEF. The formation of the peptide bonds is catalyzed by peptidyl-transferase. After the peptide bond has been formed the ribosome advances three nucleotides toward the 3'-end of the mRNA. This process is known as translocation. This causes release of the uncharged t-RNA and movement of the peptidyl-t-RNA into the P site.
19
3. Termination Termination occurs when one of the three termination codons moves into the A site. These codons are recognized in by release factors: RF-1, which recognizes the termination codons UAA and UAG. RF-2, which recognizes UGA and UAA. RF-3, which binds GTP and stimulates the activity RF-1 and RF-2.
21
Polysomes Translation begins at the 5'-end of the mRNA, with the ribosome proceeding along the RNA molecule. Because of the length of most mRNA, more than one ribosome at a time can generally translate the message. Such a complex of one mRNA and a number of ribosomes is called a polysome or polyribosome.
Similar presentations
© 2024 SlidePlayer.com Inc.
All rights reserved.