Aminoacyl tRNA synthetase
Aminoacyl_tRNA_synthetase
Structure of an aminoacyl-tRNA synthetase
Crystal structure of a tRNA synthetase
Aminoacyl-tRNA synthetase complex
General structure of aminoacyl-tRNA synthetase
Aminoacyl-tRNA synthetase sequence alignment
Aminoacyl tRNA Synthetase
Aminoacyl tRNA synthetase is a crucial enzyme in the process of protein synthesis. It plays a vital role in the translation of the genetic code by attaching the appropriate amino acid to its corresponding tRNA. This process is essential for the accurate translation of mRNA into a polypeptide chain.
Function
Aminoacyl tRNA synthetases are responsible for the esterification of a specific amino acid to its corresponding tRNA. This reaction occurs in two steps:
- The amino acid is activated by ATP, forming an aminoacyl-adenylate intermediate and releasing pyrophosphate.
- The activated amino acid is then transferred to the 3' end of the tRNA, forming an aminoacyl-tRNA and releasing AMP.
This process ensures that the tRNA is "charged" with the correct amino acid, which is then used by the ribosome during translation.
Classification
Aminoacyl tRNA synthetases are classified into two classes based on their structure and mechanism:
- Class I synthetases typically attach the amino acid to the 2'-OH group of the terminal adenosine of tRNA. They generally have a Rossmann fold and are mostly monomeric.
- Class II synthetases attach the amino acid to the 3'-OH group and often have an antiparallel _-sheet structure. They are usually dimeric or multimeric.
Specificity
The specificity of aminoacyl tRNA synthetases is critical for the fidelity of protein synthesis. Each synthetase must recognize its corresponding amino acid and tRNA with high specificity. This is achieved through:
- Active site recognition: The enzyme's active site is tailored to bind only the correct amino acid.
- tRNA recognition: Specific nucleotide sequences and structural features of the tRNA are recognized by the synthetase.
Editing Mechanisms
To prevent errors in protein synthesis, some aminoacyl tRNA synthetases have editing mechanisms to correct mistakes. These mechanisms include:
- Pre-transfer editing: Hydrolysis of incorrectly activated aminoacyl-adenylate before it is transferred to tRNA.
- Post-transfer editing: Hydrolysis of incorrectly charged aminoacyl-tRNA.
Clinical Significance
Mutations in aminoacyl tRNA synthetases can lead to various human diseases, including neurological disorders and cancer. These enzymes are also targets for antibiotic development, as they are essential for bacterial survival.
Related Pages
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