Model Organisms: Difference between revisions

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    {| class="wikitable"
    {| class="wikitable"
    ! Organism
    ! Organism
    ! Scientific Name
    ! Lifespan
    ! Lifespan
    ! Use in Research
    ! Use in Research
    |-
    |-
    | [[Yeast (Saccharomyces Cerevisiae)|Yeasts]]
    | [[Yeast (Saccharomyces Cerevisiae)]]
    | ''Saccharomyces cerevisiae''
    | Days
    | Days
    | Studying cellular aging, replication, and metabolism
    | Studying cellular aging, replication, and metabolism
    |-
    |-
    | Nematodes
    | [[Nematode Worms (Caenorhabditis Elegans)]]
    | ''Caenorhabditis elegans''
    | 2-3 weeks
    | 2-3 weeks
    | Genetic and pharmacological studies in aging
    | Genetic and pharmacological studies in aging
    |-
    |-
    | Fruit Flies
    | [[Fruit Flies (Drosophila Melanogaster)]]
    | ''Drosophila melanogaster''
    | 40-50 days
    | 40-50 days
    | Genetic regulation of aging and age-related diseases
    | Genetic regulation of aging and age-related diseases
    |-
    |-
    | [[Mice]]
    | [[Mice (Mus Musculus)]]
    | ''Mus musculus''
    | 1-2 years
    | 1-2 years
    | Aging and age-associated diseases research, genetic similarity to humans
    | Aging and age-associated diseases research, genetic similarity to humans
    |-
    |-
    | Zebrafishes
    | [[Rats (Rattus Norvegicus)]]
    | ''Danio rerio''
    | 2-3 years
    | Used in a variety of aging studies, including age-related diseases and neurobiology
    |-
    | Zebrafishes (Danio Rerio)
    | 3-5 years
    | 3-5 years
    | Vertebrate development and genetics, including aging processes
    | Vertebrate development and genetics, including aging processes
    |-
    |-
    | Rhesus Monkeys
    | Rhesus Monkeys (Macaca Mulatta)
    | ''Macaca mulatta''
    | Up to 40 years
    | Up to 40 years
    | Studies relevant for human aging due to close genetic relation
    | Studies relevant for human aging due to close genetic relation
    |-
    | [[Rats]]
    | ''Rattus norvegicus''
    | 2-3 years
    | Used in a variety of aging studies, including age-related diseases and neurobiology
    |}
    |}



    Latest revision as of 02:40, 25 December 2023

    Model organisms are non-human species that are extensively studied to understand particular biological phenomena, with the expectation that discoveries made in the organism model will provide insight into the workings of other organisms. In longevity research, model organisms are crucial for understanding the mechanisms of aging and developing interventions to extend lifespan and improve healthspan.

    Importance in Longevity Research

    Model organisms offer several advantages in longevity research:

    • Genetic Manipulation: Easy to genetically manipulate, allowing researchers to study the effects of specific genes on aging.
    • Short Lifespan: Many have short lifespans, enabling the study of genetic and environmental impacts on aging within a reasonable timeframe.
    • Conserved Pathways: They often share many biological pathways with humans, making it possible to translate findings into human aging research.

    Common Model Organisms

    Organism Lifespan Use in Research
    Yeast (Saccharomyces Cerevisiae) Days Studying cellular aging, replication, and metabolism
    Nematode Worms (Caenorhabditis Elegans) 2-3 weeks Genetic and pharmacological studies in aging
    Fruit Flies (Drosophila Melanogaster) 40-50 days Genetic regulation of aging and age-related diseases
    Mice (Mus Musculus) 1-2 years Aging and age-associated diseases research, genetic similarity to humans
    Rats (Rattus Norvegicus) 2-3 years Used in a variety of aging studies, including age-related diseases and neurobiology
    Zebrafishes (Danio Rerio) 3-5 years Vertebrate development and genetics, including aging processes
    Rhesus Monkeys (Macaca Mulatta) Up to 40 years Studies relevant for human aging due to close genetic relation

    See Also

    References