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Single Nucleotide Polymorphisms-SNPs01:05

Single Nucleotide Polymorphisms-SNPs

17.2K
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,...
17.2K
Next-generation Sequencing03:00

Next-generation Sequencing

95.4K
The first human genome sequencing project cost $2.7 billion and was declared complete in 2003, after 15 years of international cooperation and collaboration between several research teams and funding agencies. Today, with the advent of next-generation sequencing technologies, the cost and time of sequencing a human genome have dropped over 100 fold.
Next-Generation Sequencing Methods
Although all next-generation methods use different technologies, they all share a set of standard features....
95.4K
Viral Mutations00:36

Viral Mutations

36.8K
A mutation is a change in the sequence of bases of DNA or RNA in a genome. Some mutations occur during replication of the genome due to errors made by the polymerase enzymes that replicate DNA or RNA. Unlike DNA polymerase, RNA polymerase is prone to errors because it is not capable of “proofreading” its work. Viruses with RNA-based genomes, like HIV, therefore accrue mutations faster than viruses with DNA-based genomes. Because mutation and recombination provide the raw material...
36.8K
Leaky Scanning02:28

Leaky Scanning

5.4K
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...
5.4K
Mismatch Repair01:20

Mismatch Repair

5.7K
Organisms are capable of detecting and fixing nucleotide mismatches that occur during DNA replication. This sophisticated process requires identifying the new strand and replacing the erroneous bases with correct nucleotides. Mismatch repair is coordinated by many proteins in both prokaryotes and eukaryotes.
The Mutator Protein Family Plays a Key Role in DNA Mismatch Repair
The human genome has more than 3 billion base pairs of DNA per cell. Prior to cell division, that vast amount of genetic...
5.7K
Mutation, Gene Flow, and Genetic Drift01:09

Mutation, Gene Flow, and Genetic Drift

60.7K
In a population that is not at Hardy-Weinberg equilibrium, the frequency of alleles changes over time. Therefore, any deviations from the five conditions of Hardy-Weinberg equilibrium can alter the genetic variation of a given population. Conditions that change the genetic variability of a population include mutations, natural selection, non-random mating, gene flow, and genetic drift (small population size).
60.7K

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Related Experiment Video

Updated: Nov 9, 2025

Determining the Likelihood of Variant Pathogenicity Using Amino Acid-level Signal-to-Noise Analysis of Genetic Variation
07:15

Determining the Likelihood of Variant Pathogenicity Using Amino Acid-level Signal-to-Noise Analysis of Genetic Variation

Published on: January 16, 2019

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How much worse can variants get?

Michael Le Page

    New Scientist (1971)
    |April 12, 2021
    PubMed
    Summary

    The novel coronavirus may become a common cold virus or evolve into a more dangerous pathogen. Scientists are monitoring its potential for future mutations and public health impact.

    Area of Science:

    • Virology
    • Epidemiology
    • Public Health

    Background:

    • The ongoing evolution of coronaviruses presents a significant public health challenge.
    • Understanding the potential trajectory of SARS-CoV-2 is crucial for pandemic preparedness.

    Purpose of the Study:

    • To analyze the potential evolutionary pathways of the novel coronavirus.
    • To assess the risk of SARS-CoV-2 evolving into a common cold or a more virulent strain.

    Main Methods:

    • Review of current scientific literature on coronavirus evolution.
    • Analysis of mutation patterns and transmissibility data.
    • Epidemiological modeling of potential future scenarios.

    Main Results:

    • The coronavirus exhibits potential for both attenuation and increased virulence.

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  • Specific mutations could lead to milder or more severe disease outcomes.
  • The virus's evolutionary trajectory remains uncertain, necessitating continued surveillance.
  • Conclusions:

    • The future impact of the coronavirus depends on its evolutionary path.
    • Ongoing monitoring and research are essential to predict and mitigate potential threats.
    • Preparedness strategies must account for the possibility of both diminished and heightened pathogenicity.