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Single Nucleotide Polymorphisms-SNPs01:05

Single Nucleotide Polymorphisms-SNPs

A single nucleotide polymorphism or SNP is a single nucleotide variation at a specific genomic position in a large population. It is the most prevalent type of sequence variation found in the human genome. Point mutations that occur in more than 1% of the population qualify as SNPs. These are present once every 1000 nucleotides on an average in the human genome. Replacement of a purine with another purine (A/G) or a pyrimidine with another pyrimidine (C/T) is known as a transition. In contrast,...
Point and Frameshift Mutations01:30

Point and Frameshift Mutations

Point mutations are genetic alterations involving the change of a single nucleotide base pair in DNA. Depending on how the alteration affects protein synthesis, they can lead to various consequences.Point mutations fall into the following types:Silent mutations occur when a nucleotide change does not alter the amino acid sequence due to the redundancy of the genetic code. For instance, changing ACC to ACA still encodes threonine, leaving the protein function unaffected. This occurs because...
Comparing Copy Number Variations and SNPs02:26

Comparing Copy Number Variations and SNPs

Sequencing of the human genome has opened up several best-kept secrets of the genome. Scientists have identified thousands of genome variations that exist within a population. These variations can be a single nucleotide or a larger chromosomal variation.
Copy number variations or CNVs are the structural variations that cover more than 1kb of DNA sequence. The single nucleotide polymorphism (SNP), on the other hand, is a single nucleotide change or a point mutation that is found in more than 1%...
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...
Transfer RNA Synthesis02:36

Transfer RNA Synthesis

One of the unique features of tRNA is the presence of modified bases. In some tRNAs, modified bases account for nearly 20% of the total bases in the molecule. Altogether, these unusual bases protect the tRNA from enzymatic degradation by RNases.
Each of these chemical modifications is carried by a specific enzyme, post-transcription. All of these enzymes have unique base and site-specificity. Methylation, the most common chemical modification, is carried by at least nine different enzymes, with...
Improving Translational Accuracy02:07

Improving Translational Accuracy

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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Related Experiment Video

Updated: Jul 10, 2026

Simultaneous Affinity Enrichment of Two Post-Translational Modifications for Quantification and Site Localization
12:11

Simultaneous Affinity Enrichment of Two Post-Translational Modifications for Quantification and Site Localization

Published on: February 27, 2020

SynPAM-a distance measure based on synonymous codon substitutions.

Adrian Schneider1, Gaston Gonnet, Gina Cannarozzi

  • 1ETH Zurich, Institute of Computational Science, Universitaetsstrasse, Zurich, Switzerland. schneadr@inf.ethz.ch

IEEE/ACM Transactions on Computational Biology and Bioinformatics
|November 3, 2007
PubMed
Summary

SynPAM estimates evolutionary distances using synonymous codon substitutions in DNA sequences. This method offers reduced variance and reliable results over extended evolutionary timescales.

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Detection of Rare Mutations in CtDNA Using Next Generation Sequencing
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Detection of Rare Mutations in CtDNA Using Next Generation Sequencing

Published on: August 24, 2017

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Last Updated: Jul 10, 2026

Simultaneous Affinity Enrichment of Two Post-Translational Modifications for Quantification and Site Localization
12:11

Simultaneous Affinity Enrichment of Two Post-Translational Modifications for Quantification and Site Localization

Published on: February 27, 2020

Detection of Rare Mutations in CtDNA Using Next Generation Sequencing
11:11

Detection of Rare Mutations in CtDNA Using Next Generation Sequencing

Published on: August 24, 2017

Area of Science:

  • Computational biology
  • Evolutionary studies
  • Bioinformatics

Background:

  • Estimating evolutionary distances is crucial for DNA and protein sequence analysis.
  • Synonymous substitutions are valuable for molecular clock estimations due to minimal selection pressure.
  • Accurate measurement of synonymous distances is essential for evolutionary reconstructions.

Purpose of the Study:

  • To introduce SynPAM, a novel method for estimating distances between coding DNA sequences.
  • To leverage synonymous codon substitutions for more accurate evolutionary distance calculations.
  • To provide a robust tool for analyzing evolutionary relationships at the synonymous substitution level.

Main Methods:

  • Developed SynPAM, a maximum-likelihood approach for synonymous distance estimation.
  • Utilized empirical codon substitution matrices within a Markov model framework.
  • Applied the method to coding DNA sequences.

Main Results:

  • SynPAM demonstrated reduced variance compared to established synonymous distance measures.
  • The method provides reliable evolutionary distance estimates over longer evolutionary time ranges.
  • Empirical codon substitution matrices improved the accuracy of distance calculations.

Conclusions:

  • SynPAM offers a statistically robust and accurate method for estimating synonymous distances.
  • The approach enhances the reliability of evolutionary studies based on coding DNA sequences.
  • SynPAM provides a valuable advancement for computational biology and evolutionary research.