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Ribosomal RNA Synthesis02:53

Ribosomal RNA Synthesis

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Ribosome synthesis is a highly complex and coordinated process involving more than 200 assembly factors. The synthesis and processing of ribosomal components occurs not only in the nucleolus but also in the nucleoplasm and the cytoplasm of eukaryotic cells.
Ribosome biogenesis begins with the synthesis of 5S and 45S pre-rRNAs by distinct RNA polymerases. The primary transcripts are extensively processed and modified before they are bound and folded by ribosomal proteins and assembly factors,...
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Ribozymes02:47

Ribozymes

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The term ribozyme is used for RNA that can act as an enzyme. Ribozymes are mainly found in selected viruses, bacteria, plant organelles, and lower eukaryotes. Ribozymes were first discovered in 1982 when Tom Cech’s laboratory observed Group I introns acting as enzymes. This was shortly followed by the discovery of another ribozyme, Ribonulcease P, by Sid Altman’s laboratory. Both Cech and Altman received the Nobel Prize in chemistry in 1989 for their work on ribozymes.
Ribozymes can...
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Nucleic Acids02:43

Nucleic Acids

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Nucleic acids are the most important macromolecules for the continuity of life. They carry the cell's genetic blueprint and carry instructions for its functioning.
DNA and RNA
The two main types of nucleic acids are deoxyribonucleic acid (DNA) and ribonucleic acid (RNA). DNA is the genetic material in all living organisms, ranging from single-celled bacteria to multicellular mammals. It is in the nucleus of eukaryotes and in the organelles, chloroplasts, and mitochondria. In prokaryotes,...
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Types of RNA01:23

Types of RNA

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Overview
Three main types of RNA are involved in protein synthesis: messenger RNA (mRNA), transfer RNA (tRNA), and ribosomal RNA (rRNA). These RNAs perform diverse functions and can be broadly classified as protein-coding or non-coding RNA. Non-coding RNAs play important roles in the regulation of gene expression in response to developmental and environmental changes. Non-coding RNAs in prokaryotes can be manipulated to develop more effective antibacterial drugs for human or animal use.
RNA...
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RNA Structure01:19

RNA Structure

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The basic structure of RNA consists of a string of ribonucleotides attached by phosphodiester bonds. Although most RNA is single-stranded, it can form complex secondary and tertiary structures. Such structures play essential roles in the regulation of transcription and translation.
Different Types of RNA Have the Same Basic Structure
There are three main types of ribonucleic acid (RNA) involved in protein synthesis: messenger RNA (mRNA), transfer RNA (tRNA), and ribosomal RNA (rRNA). All three...
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RNA Stability01:53

RNA Stability

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Intact DNA strands can be found in fossils, while scientists sometimes struggle to keep RNA intact under laboratory conditions. The structural variations between RNA and DNA underlie the differences in their stability and longevity. Because DNA is double-stranded, it is inherently more stable. The single-stranded structure of RNA is less stable but also more flexible and can form weak internal bonds. Additionally, most RNAs in the cell are relatively short, while DNA can be up to 250 million...
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Related Experiment Video

Updated: Jul 1, 2025

Single-step Purification of Macromolecular Complexes Using RNA Attached to Biotin and a Photo-cleavable Linker
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Single-step Purification of Macromolecular Complexes Using RNA Attached to Biotin and a Photo-cleavable Linker

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DEAD Box RNA Helicases: Biochemical Properties, Role in RNA Processing and Ribosome Biogenesis.

Ashaq Hussain1

  • 1Centre for Cellular and Molecular Biology, Hyderabad, India. ashaqccmb@gmail.com.

Cell Biochemistry and Biophysics
|March 2, 2024
PubMed
Summary

DEAD box RNA helicases are essential ATP-dependent enzymes crucial for cellular functions. This review details their structure, biochemical properties, and vital roles in RNA processing and ribosome biogenesis.

Keywords:
DEAD box RNA HelicasesRNA processingRNA rearrangementRibosome biogenesis

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Area of Science:

  • Molecular Biology
  • Biochemistry
  • Genetics

Background:

  • DEAD box RNA helicases are ATP-dependent enzymes involved in numerous cellular processes.
  • They are critical for RNA structural rearrangements, folding, and macromolecular complex organization.

Purpose of the Study:

  • To provide an overview of the structural organization of DEAD box RNA helicases.
  • To discuss the biochemical properties, including substrate binding and ATP hydrolysis.
  • To extensively review the physiological roles in RNA processing and ribosome biogenesis.

Main Methods:

  • Literature review and synthesis of existing research on DEAD box RNA helicases.
  • Analysis of structural and biochemical data.
  • Discussion of physiological functions based on published studies.

Main Results:

  • Detailed outline of helicase structural organization.
  • In-depth discussion of biochemical properties: substrate binding, ATP binding and hydrolysis, and conformational changes.
  • Extensive review of physiological roles in RNA processing and ribosome biogenesis.

Conclusions:

  • DEAD box RNA helicases are fundamental to cellular machinery.
  • Understanding their biochemical mechanisms is key to comprehending their diverse physiological roles.
  • This review consolidates current knowledge on these vital enzymes.