The Role of tRNA in Protein Synthesis

What is the function of tRNA in protein synthesis?

The Role of tRNA in Protein Synthesis

tRNA, or transfer RNA, plays a crucial role in protein synthesis. But what exactly is its function and how does it contribute to the process?

Transfer RNA (tRNA) is a type of RNA molecule that transfers specific amino acids to ribosomes during protein synthesis. It acts as an interpreter between nucleic acid (mRNA) and protein (amino acids) by reading the genetic code on mRNA and bringing the corresponding amino acids to the ribosome.

During translation, tRNA molecules carry amino acids to the ribosome where they are added to the growing protein chain according to the sequence of codons on mRNA. Each tRNA molecule recognizes a specific codon on mRNA and brings the corresponding amino acid to the ribosome, ensuring that the protein is assembled in the correct order.

Without tRNA, the process of protein synthesis would be disrupted, leading to errors in the production of proteins essential for cellular functioning. Therefore, tRNA plays a vital role in ensuring the accurate translation of genetic information into proteins.

In summary, tRNA acts as a key player in the intricate process of protein synthesis by facilitating the accurate and efficient transfer of amino acids to ribosomes, ultimately leading to the production of functional proteins necessary for cell growth and survival.

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