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Related Concept Videos

DNA Helicases00:55

DNA Helicases

DNA unwinding helicase enzymes are a type of motor protein. Motor proteins can translocate along filaments or polymers using energy generated from ATP hydrolysis. Helicases are involved in all the important cellular processes where DNA unwinding is required, such as DNA replication, repair, recombination, and transcription. They are present in all living organisms, but vary in their structure, function, and mechanism of action. For example, in prokaryotes, DnaB helicase binds and translocates...
Coordination of Gene Expression Processes in Bacteria01:29

Coordination of Gene Expression Processes in Bacteria

The DNA replication, transcription, and translation processes are intricately coupled in bacteria, allowing efficient gene expression and rapid protein synthesis. While this physical and functional coordination is advantageous, it introduces challenges that bacteria overcome through specific regulatory mechanisms.Coupling of Replication, Transcription, and TranslationThe coupling of replication, transcription, and translation is a hallmark of bacterial gene expression. As the replisome unwinds...
Translational Regulation01:29

Translational Regulation

Translational regulation in prokaryotes ensures efficient protein synthesis by controlling ribosome access to mRNA. This regulation is mediated by secondary RNA structures, including translational riboswitches, RNA thermometers, and small RNAs (sRNAs), which respond to intracellular and environmental signals to modulate gene expression.Translational RiboswitchesRiboswitches in the leader region of mRNAs can regulate translation by altering the accessibility of the Shine-Dalgarno (SD) sequence,...
Leaky Scanning02:28

Leaky Scanning

During most eukaryotic translation processes, the small 40S ribosome subunit scans an mRNA from its 5' end until it encounters the first start AUG codon. The large 60S ribosomal subunit then joins the smaller one to initiate protein synthesis. The location of the translation initiation is largely determined by the nucleotides near the start codon as there may be multiple translation initiation sites present on the mRNA.  Marilyn Kozak discovered that the sequence RCCAUGG (where R stands for...
DNA Topoisomerases02:02

DNA Topoisomerases

Topoisomerases are enzymes that relax overwound DNA molecules during various cell processes, including DNA replication and transcription. These enzymes regulate positive and negative DNA supercoiling without changing the nucleotide sequence. DNA overwinding in a clockwise direction results in positively supercoiled DNA, whereas underwinding in a counterclockwise direction produces negatively supercoiled DNA.
Types and Mechanism of action
Topoisomerases are divided into two main types.  Type I...
RNA Structure01:19

RNA Structure

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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Related Experiment Video

Updated: Jun 26, 2026

Isolation of Cognate RNA-protein Complexes from Cells Using Oligonucleotide-directed Elution
10:53

Isolation of Cognate RNA-protein Complexes from Cells Using Oligonucleotide-directed Elution

Published on: January 16, 2017

Found in translation: another RNA helicase function.

Abigail L Stevenson1, John E G McCarthy

  • 1Manchester Interdisciplinary Biocentre, University of Manchester, 131 Princess Street, Manchester M1 7DN, UK.

Molecular Cell
|December 30, 2008
PubMed
Summary
This summary is machine-generated.

A newly identified protein, DHX29 (a DExH-box protein), helps start protein production on specific messenger RNAs. This discovery is key for understanding how cells build proteins, especially from complex genetic instructions.

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A Fluorescence-based Exonuclease Assay to Characterize DmWRNexo, Orthologue of Human Progeroid WRN Exonuclease, and Its Application to Other Nucleases
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A Fluorescence-based Exonuclease Assay to Characterize DmWRNexo, Orthologue of Human Progeroid WRN Exonuclease, and Its Application to Other Nucleases

Published on: December 23, 2013

Optical Tweezers to Study RNA-Protein Interactions in Translation Regulation
12:26

Optical Tweezers to Study RNA-Protein Interactions in Translation Regulation

Published on: February 12, 2022

Related Experiment Videos

Last Updated: Jun 26, 2026

Isolation of Cognate RNA-protein Complexes from Cells Using Oligonucleotide-directed Elution
10:53

Isolation of Cognate RNA-protein Complexes from Cells Using Oligonucleotide-directed Elution

Published on: January 16, 2017

A Fluorescence-based Exonuclease Assay to Characterize DmWRNexo, Orthologue of Human Progeroid WRN Exonuclease, and Its Application to Other Nucleases
06:10

A Fluorescence-based Exonuclease Assay to Characterize DmWRNexo, Orthologue of Human Progeroid WRN Exonuclease, and Its Application to Other Nucleases

Published on: December 23, 2013

Optical Tweezers to Study RNA-Protein Interactions in Translation Regulation
12:26

Optical Tweezers to Study RNA-Protein Interactions in Translation Regulation

Published on: February 12, 2022

Area of Science:

  • Molecular Biology
  • Biochemistry
  • Genetics

Background:

  • Translation initiation is a critical step in gene expression.
  • Messenger RNAs (mRNAs) often feature complex structures in their 5' untranslated regions (5' UTRs).
  • These 5' UTR structures can pose challenges for the translation machinery.

Purpose of the Study:

  • To identify novel factors involved in translation initiation.
  • To investigate the role of uncharacterized proteins in mRNA translation.
  • To understand how cells overcome structural barriers in mRNA 5' UTRs during translation initiation.

Main Methods:

  • Biochemical assays to study protein function.
  • RNA structure analysis.
  • In vitro translation assays.
  • Cellular localization studies.

Main Results:

  • DHX29, a mammalian DExH-box protein, was identified as a novel factor in translation initiation.
  • DHX29 demonstrates the ability to unwind RNA structures.
  • The protein facilitates translation initiation specifically on mRNAs with structured 5' UTRs.
  • DHX29 acts as an RNA helicase to resolve these structures.

Conclusions:

  • DHX29 plays a crucial role in overcoming inhibitory 5' UTR structures during translation initiation.
  • This finding reveals a new mechanism for regulating gene expression at the translational level.
  • DHX29 is a key player in ensuring efficient protein synthesis from complex mRNAs.