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Improving Translational Accuracy02:07

Improving Translational Accuracy

11.6K
Base complementarity between the three base pairs of mRNA codon and the tRNA anticodon is not a failsafe mechanism. Inaccuracies can range from a single mismatch to no correct base pairing at all. The free energy difference between the correct and nearly correct base pairs can be as small as 3 kcal/ mol. With complementarity being the only proofreading step, the estimated error frequency would be one wrong amino acid in every 100 amino acids incorporated. However, error frequencies observed in...
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Initiation of Translation02:33

Initiation of Translation

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Initiating translation is complex because it involves multiple molecules. Initiator tRNA, ribosomal subunits, and eukaryotic initiation factors (eIFs) are all required to assemble on the initiation codon of mRNA. This process consists of several steps that are mediated by different eIFs.
First, the initiator tRNA must be selected from the pool of elongator tRNAs by eukaryotic initiation factor 2 (eIF2). The initiator tRNA (Met-tRNAi) has conserved sequence elements including modified bases at...
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Leaky Scanning02:28

Leaky Scanning

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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...
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Post-translational Translocation of Proteins to the RER01:27

Post-translational Translocation of Proteins to the RER

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A sizable fraction of proteins destined for ER are first synthesized in the cell cytosol and then transported across the ER membrane–a process called post-translational translocation. Similar to cotranslationally translocated proteins, these proteins also use the Sec translocon complex to enter the ER lumen.
Targeting proteins to the ER
Hsp40 and Hsp70 chaperone molecules bind the translated proteins in the cytosol to prevent their folding. The chaperone binding helps to keep the signal...
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Translation in Prokaryotes01:29

Translation in Prokaryotes

2.8K
Prokaryote translation is a complex, highly coordinated process that converts genetic information from mRNA into functional proteins. It involves three stages: initiation, elongation, and termination, each facilitated by specific molecular components.Initiation of TranslationThe process begins with the assembly of the ribosomal subunits and initiation factors on the mRNA. In bacteria, the 30S ribosomal subunit recognizes the Shine-Dalgarno sequence in the mRNA, a conserved region upstream of...
2.8K
Diversity of Protists I01:15

Diversity of Protists I

2.3K
Excavata is a diverse group of protists that includes both chemoorganotrophic and phototrophic species, with some thriving in anaerobic environments. Among the key groups within Excavata are diplomonads and parabasalids, which are flagellated protists that lack mitochondria and chloroplasts. These microorganisms typically inhabit anoxic environments, such as the intestines of animals, where they exist either symbiotically or as parasites, relying on fermentation for energy production. Some...
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Translon: a single term for translated regions.

Nature methods·2025
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Guidelines for minimal reporting requirements, design and interpretation of experiments involving the use of eukaryotic dual gene expression reporters (MINDR).

Nature structural & molecular biology·2025
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An evolutionarily conserved phosphoserine-arginine salt bridge in the interface between ribosomal proteins uS4 and uS5 regulates translational accuracy in Saccharomyces cerevisiae.

Nucleic acids research·2024
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Programmed chromosome fragmentation in ciliated protozoa: multiple means to chromosome ends.

Microbiology and molecular biology reviews : MMBR·2023
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Posttranscriptional modification to the core of tRNAs modulates translational misreading errors.

RNA (New York, N.Y.)·2023
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Publisher Correction: Genetic tool development in marine protists: emerging model organisms for experimental cell biology.

Nature methods·2020
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Video Experimental Relacionado

Updated: May 4, 2026

Xenopus laevis as a Model to Identify Translation Impairment
10:24

Xenopus laevis as a Model to Identify Translation Impairment

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Los ciliados con desplazamiento: frecuente desplazamiento de marco traslacional programado en euplotidos.

Lawrence A Klobutcher1, Philip J Farabaugh

  • 1Department of Biochemistry, University of Connecticut Health Center, Farmington, CT 06032, USA. klobutcher@nso2.uchc.edu

Cell
|January 16, 2003
PubMed
Resumen

El desplazamiento de marco traslacional programado +1 es frecuente en Euplotes ciliates. Esta alta frecuencia puede estar relacionada con su exclusiva parada de reasignación de codones, lo que afecta la evolución del código genético.

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Área de la Ciencia:

  • Biología Molecular Biología Molecular
  • Genética La genética.
  • Biología evolutiva Biología evolutiva.

Sus antecedentes:

  • Los ciliados, particularmente el género Euplotes, exhiben características genéticas únicas.
  • El traslado de marco traslacional es un mecanismo biológico conocido que afecta la expresión génica.

Objetivo del estudio:

  • Investigar la frecuencia del desplazamiento de cuadro traslacional +1 programado en Euplotes.
  • Explorar el vínculo potencial entre el cambio de marco y detener la reasignación de codones en este género.

Principales métodos:

  • Análisis de datos genómicos y transcriptómicos de las especies de Euplotes.
  • Enfoques bioinformáticos para identificar y cuantificar eventos de cambio de marco.
  • Análisis comparativo con otras especies de ciliados.

Principales resultados:

  • Evidencia de una alta incidencia de desplazamiento de marco traslacional +1 programado en Euplotes.
  • Correlación entre el desplazamiento frecuente de fotogramas y la ocurrencia de la reasignación del codón stop.

Conclusiones:

  • El desplazamiento de fotogramas +1 programado es una característica significativa de la expresión génica de Euplotes.
  • La reasignación del codón de parada probablemente potenció la evolución del desplazamiento frecuente de fotogramas en Euplotes.