How Do You Spell MITOCHONDRIAL DNA?

Pronunciation: [mˌa͡ɪtəkˈɒndɹɪəl dˌiːˌɛnˈe͡ɪ] (IPA)

Mitochondrial DNA is a small but powerful component of human genetics. This DNA is found within mitochondria, which are the powerhouses of cells that produce energy. The spelling of "Mitochondrial DNA" can be explained using IPA phonetic transcription. The first syllable, "Mi," is pronounced as "maɪ." The second syllable, "to," is pronounced as "təʊ." The third syllable, "chond," is pronounced as "kɒnd." The fourth syllable, "ri," is pronounced as "raɪəl." The final syllable, "al," is pronounced as "əl." Overall, the pronunciation becomes "maɪ-toʊ-kɒnd-raɪəl-əl."

Meaning and Definition
Common Misspellings
Etymology
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MITOCHONDRIAL DNA Meaning and Definition

  1. Mitochondrial DNA (mtDNA) refers to a distinct type of genetic material found within mitochondria, the energy-generating structures present in the cells of almost all multicellular organisms. Unlike nuclear DNA, which resides in the cell's nucleus, mitochondrial DNA is stored in the mitochondria's own circular, double-stranded genome. The primary function of mitochondrial DNA is to provide instructions for the production and functioning of essential proteins and enzymes involved in energy generation.

    Mitochondrial DNA is inherited exclusively from the mother, as it is passed down through the cytoplasm of the egg cell during fertilization. This unique inheritance pattern allows scientists to trace maternal lineages and analyze genetic relationships among individuals, populations, and species. The structure and organization of mitochondrial DNA differ from nuclear DNA, as it contains fewer genes (typically 37 genes in humans) and is less prone to recombination.

    Mitochondrial DNA plays a crucial role in various physiological processes, including cellular respiration and synthesizing ATP (adenosine triphosphate), the primary source of energy for the cell. Mutation or damage to mitochondrial DNA can lead to impaired energy production and a variety of mitochondrial disorders, which can exhibit a wide range of symptoms depending on the affected tissues or organs.

    Due to its distinctive characteristics and important genetic information, mitochondrial DNA analysis has gained significant relevance in fields such as forensic science, evolutionary biology, population genetics, and medical research, providing insights into ancestry, migratory patterns, and genetic disorders.

Common Misspellings for MITOCHONDRIAL DNA

  • nitochondrial dna
  • kitochondrial dna
  • jitochondrial dna
  • mutochondrial dna
  • mjtochondrial dna
  • mktochondrial dna
  • motochondrial dna
  • m9tochondrial dna
  • m8tochondrial dna
  • mirochondrial dna
  • mifochondrial dna
  • migochondrial dna
  • miyochondrial dna
  • mi6ochondrial dna
  • mi5ochondrial dna
  • mitichondrial dna
  • mitkchondrial dna
  • mitlchondrial dna
  • mitpchondrial dna
  • mit0chondrial dna

Etymology of MITOCHONDRIAL DNA

The word "mitochondrial" is derived from the Greek words "mitos" meaning 'thread' or 'filament,' and "khondrion" meaning 'little granule' or 'grain.' Mitochondria are small, membrane-bound organelles found in the cells of most living organisms, responsible for generating energy in the form of ATP (adenosine triphosphate).

The term "DNA" stands for Deoxyribonucleic Acid, and it refers to the genetic material found within the nucleus of cells, encoding the instructions necessary for the growth, development, and functioning of living organisms.

When combined, the term "mitochondrial DNA" refers to the genetic material present within the mitochondria, which is separate from the DNA found in the cell nucleus. Mitochondrial DNA is inherited solely from the mother and has its own unique characteristics and evolutionary history.