How Do You Spell THRIFTY GENE HYPOTHESIS?

Pronunciation: [θɹˈɪfti d͡ʒˈiːn ha͡ɪpˈɒθəsˌɪs] (IPA)

The spelling of the term "thrifty gene hypothesis" can be explained using IPA phonetic transcription. The first sound, /θ/, represents the voiceless dental fricative sound, followed by /r/ for the rhotic consonant. The next sound, /ɪ/, is the short vowel sound of "i", followed by /f/ for the labiodental fricative sound. The next sound, /ti/, represents the affricate sound, followed by /dʒ/ for the voiced palato-alveolar fricative sound. Finally, the last two sounds are /h/ for the voiceless glottal fricative and /aɪθəsɪs/ for hypothesis.

THRIFTY GENE HYPOTHESIS Meaning and Definition

  1. The thrifty gene hypothesis is a theory in genetics and evolutionary biology that postulates the existence of genes that favor the efficient storage and utilization of energy. This hypothesis proposes that during periods of feast and famine in human history, individuals with these genes had a survival advantage and were more likely to pass on their genetic material.

    According to this hypothesis, individuals possessing the "thrifty genes" are better equipped to store excess energy from available food sources in times of abundance. This stored energy can be tapped into during periods of food scarcity, providing a survival advantage when food is scarce.

    However, in modern societies where food is abundant and physical activity is reduced, this advantageous genetic adaptation can lead to obesity and metabolic disorders, such as type 2 diabetes. The thrifty gene hypothesis thus suggests that the prevalence of these diseases in modern populations is a result of a mismatch between our genetic makeup and our current environment.

    Although the thrifty gene hypothesis has been widely debated and criticized since its proposal in 1962, it has contributed to the study of the genetic basis of obesity and metabolic disorders. Researchers continue to explore the complex interaction between genetics, environment, and lifestyle factors, contributing to our understanding of the links between evolution, genetics, and modern health challenges.