RRNA Full Form

<<2/”>a href=”https://exam.pscnotes.com/5653-2/”>h2>rRNA: The Backbone of Protein Synthesis

What is rRNA?

Ribosomal ribonucleic acid (rRNA) is a type of RNA molecule that forms the structural and catalytic core of ribosomes, the cellular machinery responsible for protein synthesis. It is the most abundant type of RNA in cells, accounting for about 80% of total cellular RNA.

Structure and Function of rRNA

Structure:

  • rRNA Molecules are typically long and complex, with a highly conserved secondary and tertiary structure.
  • They are composed of a single, long RNA chain that folds into a complex three-dimensional structure.
  • This structure is stabilized by hydrogen Bonds between complementary bases and interactions with ribosomal proteins.

Function:

  • Ribosome Formation: rRNA molecules associate with ribosomal proteins to form the two subunits of ribosomes: the small subunit (SSU) and the large subunit (LSU).
  • mRNA Binding: The SSU contains a binding site for messenger RNA (mRNA), which carries the genetic code for protein synthesis.
  • tRNA Binding: The LSU contains binding sites for transfer RNA (tRNA) molecules, which carry amino acids to the ribosome.
  • Catalytic Activity: rRNA molecules possess catalytic activity, playing a crucial role in the formation of peptide bonds between amino acids during protein synthesis.

Types of rRNA

There are three main types of rRNA in prokaryotes and eukaryotes:

TypeSize (Svedberg units)Function
5S rRNA5SInvolved in the assembly and function of the LSU
16S rRNA (prokaryotes) / 18S rRNA (eukaryotes)16S/18SForms part of the SSU and binds to mRNA
23S rRNA (prokaryotes) / 28S rRNA (eukaryotes)23S/28SForms part of the LSU and contains the peptidyl transferase center (PTC)

Note: The Svedberg unit (S) is a measure of sedimentation rate, which is related to the size and shape of a molecule.

rRNA Synthesis and Processing

Transcription:

  • rRNA genes are transcribed by RNA polymerase I in eukaryotes and RNA polymerase in prokaryotes.
  • The primary transcript, known as pre-rRNA, is a large precursor molecule that contains multiple rRNA sequences.

Processing:

  • Pre-rRNA undergoes extensive processing, including:
    • Cleavage by specific ribonucleases
    • Modification of bases (e.g., methylation)
    • Association with ribosomal proteins
  • These processing steps ensure the correct folding and assembly of rRNA molecules into functional ribosomes.

rRNA and Protein Synthesis

rRNA plays a central role in protein synthesis, the process by which genetic information encoded in DNA is translated into proteins.

Steps of Protein Synthesis:

  1. Initiation: The SSU binds to mRNA and identifies the start codon (AUG).
  2. Elongation: The LSU joins the complex, and tRNA molecules carrying amino acids bind to the mRNA codons.
  3. Peptide Bond Formation: The rRNA in the LSU catalyzes the formation of peptide bonds between amino acids, linking them together to form a polypeptide chain.
  4. Termination: The ribosome reaches a stop codon, and the polypeptide chain is released.

rRNA and Evolution

rRNA molecules are highly conserved across all living organisms, suggesting that they have evolved very slowly. This conservation reflects their essential role in protein synthesis and the importance of maintaining their structure and function.

Phylogenetic Analysis:

  • rRNA sequences are used to study evolutionary relationships between different species.
  • The high degree of conservation allows for the comparison of rRNA sequences from diverse organisms.
  • This information can be used to construct phylogenetic trees, which depict the evolutionary history of life.

rRNA and Disease

Disruptions in rRNA synthesis or processing can lead to various diseases, including:

  • Diamond-Blackfan Anemia: A rare genetic disorder characterized by a deficiency in red blood cell production due to defects in rRNA synthesis.
  • Ribosomal Protein Disorders: Mutations in ribosomal proteins can affect ribosome function and lead to developmental disorders and cancer.
  • Antibiotic Resistance: Some antibiotics target bacterial ribosomes, inhibiting protein synthesis and killing bacteria. However, mutations in rRNA genes can confer resistance to these antibiotics.

Frequently Asked Questions

Q: What is the difference between rRNA and mRNA?

A: rRNA is a structural and catalytic component of ribosomes, while mRNA carries genetic information from DNA to ribosomes for protein synthesis.

Q: How is rRNA transcribed?

A: rRNA is transcribed by RNA polymerase I in eukaryotes and RNA polymerase in prokaryotes.

Q: What is the role of rRNA in protein synthesis?

**A: ** rRNA forms the core of ribosomes and plays a crucial role in mRNA binding, tRNA binding, and peptide bond formation.

Q: How is rRNA involved in evolution?

A: rRNA sequences are highly conserved across species, allowing for phylogenetic analysis and the study of evolutionary relationships.

Q: Can rRNA be used for therapeutic purposes?

A: Research is ongoing to develop therapeutic strategies targeting rRNA, such as the development of new antibiotics and therapies for ribosomal protein disorders.

Q: What are some examples of diseases related to rRNA?

A: Examples include Diamond-Blackfan Anemia, ribosomal protein disorders, and antibiotic resistance.

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