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Guilherme Mazui

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What is the Difference Between mRNA and tRNA?

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The main differences between mRNA and tRNA are their structure and function:

  1. Structure:
  • mRNA has a linear structure and carries genetic information copied from DNA.
  • tRNA has an L-shaped 3D structure and is specific to each amino acid.
  1. Function:
  • mRNA provides a template for gene coding during protein synthesis.
  • tRNA carries amino acids to the ribosomes, which are added to the polypeptide chain.

Additionally, there are differences in their length and coding:

  • mRNA is 300 to 12,000 nucleotides long in mammals.
  • tRNA is 76 to 90 nucleotides long.
  • mRNA has codons, which are triplets of nucleotide bases that code for amino acids.
  • tRNA has an anticodon, which is a triplet of nucleotide bases that can bind to a complementary codon on mRNA.

Both mRNA and tRNA play crucial roles in protein synthesis, with mRNA providing the genetic information for protein production and tRNA acting as an adapter to bring specific amino acids to the growing polypeptide chain.

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  • What is the Difference Between mRNA and tRNA?
  • Comparative Table: mRNA vs tRNA

    • Comparative Table: mRNA vs tRNA

    Here is a table outlining the differences between mRNA and tRNA:

    Characteristic mRNA (Messenger RNA) tRNA (Transfer RNA)
    Structure Linear structure L-shaped 3D structure, cloverleaf shape
    Function Carries genetic information copied from DNA, provides a template for protein synthesis Carries amino acids to the ribosomes, specific to each amino acid
    Formation Transcription process from DNA by RNA polymerase Folding of RNA molecule
    Molecular Size 300 to 12,000 nucleotides, varies with genes 76 to 90 nucleotides, fixed size
    Modification Capped by 7-methylguanosine at 5' end, polyadenylation at 3' end No modification mentioned

    As you can see, mRNA and tRNA have distinct roles in the process of protein synthesis. mRNA carries genetic information from DNA and serves as a template for protein synthesis, while tRNA transports the amino acids to the ribosomes that need to be added to the polypeptide chain.

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    Guilherme Mazui

    Guilherme Mazui is graduated in journalism from the Federal University of Minas Gerais (UFMG) and a master's degree in Communication from the University of São Paulo (USP). In addition, he has experience in advertising writing and has worked as a content editor in several companies.