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Related Concept Videos

Ribosomes01:27

Ribosomes

Ribosomes translate genetic information encoded by messenger RNA (mRNA) into proteins. Both prokaryotic and eukaryotic cells have ribosomes. Cells that synthesize large quantities of protein—such as secretory cells in the human pancreas—can contain millions of ribosomes.
Ribosome Structure and Assembly
Ribosomes are composed of ribosomal RNA (rRNA) and proteins. In eukaryotes, rRNA is transcribed from genes in the nucleolus—a part of the nucleus that specializes in ribosome production. Within...
Ribosomes01:27

Ribosomes

Ribosomes translate genetic information encoded by messenger RNA (mRNA) into proteins. Both prokaryotic and eukaryotic cells have ribosomes. Cells that synthesize large quantities of protein—such as secretory cells in the human pancreas—can contain millions of ribosomes.
Ribosome Structure and Assembly
Ribosomes are composed of ribosomal RNA (rRNA) and proteins. In eukaryotes, rRNA is transcribed from genes in the nucleolus—a part of the nucleus that specializes in ribosome production. Within...
Termination of Translation01:44

Termination of Translation

The large ribosomal subunit has several important structures essential to translation. These include the peptidyl transferase center (PTC) - which is the site where the peptide bond is formed - and a large, internal, water-filled tube through which the nascent polypeptide moves. This latter structure is called the Peptide Exit Tunnel, and it begins at the PTC and spans the body of the large ribosomal subunit. During translation, as the nascent polypeptide chain is synthesized, it passes through...
Ribosome Profiling02:24

Ribosome Profiling

Ribosome profiling or ribo-sequencing is a deep sequencing technique that produces a snapshot of active translation in a cell. It selectively sequences the mRNAs protected by ribosomes to get an insight into a cell’s translation landscape at any given point in time.
Applications of ribosome profiling
Ribosome profiling has many applications, including in vivo monitoring of translation inside a particular organ or tissue type and quantifying new protein synthesis levels.
The technique helps...
Ribosomes01:27

Ribosomes

Ribosomes translate genetic information encoded by messenger RNA (mRNA) into proteins. Both prokaryotic and eukaryotic cells have ribosomes. Cells that synthesize large quantities of protein—such as secretory cells in the human pancreas—can contain millions of ribosomes.
Ribosome Structure and Assembly
Ribosomes are composed of ribosomal RNA (rRNA) and proteins. In eukaryotes, rRNA is transcribed from genes in the nucleolus—a part of the nucleus that specializes in ribosome production. Within...
Ribosomes01:27

Ribosomes

Ribosomes translate genetic information encoded by messenger RNA (mRNA) into proteins. Both prokaryotic and eukaryotic cells have ribosomes. Cells that synthesize large quantities of protein—such as secretory cells in the human pancreas—can contain millions of ribosomes.
Ribosome Structure and Assembly
Ribosomes are composed of ribosomal RNA (rRNA) and proteins. In eukaryotes, rRNA is transcribed from genes in the nucleolus—a part of the nucleus that specializes in ribosome production. Within...

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Related Experiment Video

Updated: May 7, 2026

Peering at Brain Polysomes with Atomic Force Microscopy
08:49

Peering at Brain Polysomes with Atomic Force Microscopy

Published on: March 16, 2016

The ribosome at atomic resolution.

James R Williamson1

  • 1Departments of Molecular Biology and Chemistry, The Scripps Research Institute, La Jolla, CA 92037, USA. jrwill@scripps.edu

Cell
|December 17, 2009
PubMed
Summary
This summary is machine-generated.

The 2009 Nobel Prize in Chemistry honored research on the ribosome, the cell's protein-making machinery. Crystallographic studies revealed its atomic structure, crucial for understanding protein synthesis.

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Dual DNA Rulers to Study the Mechanism of Ribosome Translocation with Single-Nucleotide Resolution
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Dual DNA Rulers to Study the Mechanism of Ribosome Translocation with Single-Nucleotide Resolution

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Single Molecule Fluorescence Energy Transfer Study of Ribosome Protein Synthesis
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Single Molecule Fluorescence Energy Transfer Study of Ribosome Protein Synthesis

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Related Experiment Videos

Last Updated: May 7, 2026

Peering at Brain Polysomes with Atomic Force Microscopy
08:49

Peering at Brain Polysomes with Atomic Force Microscopy

Published on: March 16, 2016

Dual DNA Rulers to Study the Mechanism of Ribosome Translocation with Single-Nucleotide Resolution
10:27

Dual DNA Rulers to Study the Mechanism of Ribosome Translocation with Single-Nucleotide Resolution

Published on: July 8, 2019

Single Molecule Fluorescence Energy Transfer Study of Ribosome Protein Synthesis
08:07

Single Molecule Fluorescence Energy Transfer Study of Ribosome Protein Synthesis

Published on: July 6, 2021

Area of Science:

  • Biochemistry, Molecular Biology, Structural Biology

Background:

  • The ribosome is a fundamental cellular machine responsible for protein synthesis.
  • Understanding its structure is key to deciphering cellular function.

Discussion:

  • Nobel Prize in Chemistry 2009 awarded for crystallographic studies of the ribosome.
  • Revealed atomic resolution structures of ribosomal subunits.

Key Insights:

  • Provides an extraordinary context for understanding protein synthesis.
  • Elucidates the molecular mechanisms of translation.

Outlook:

  • Potential for novel drug development targeting bacterial ribosomes.
  • Further insights into the evolution of cellular machinery.