How Do You Spell CHROMOSOME FRAGILITIES?

Pronunciation: [kɹˈə͡ʊməsˌə͡ʊm fɹad͡ʒˈɪlɪtiz] (IPA)

The spelling of the word "chromosome fragilities" can be a bit tricky. The word consists of three syllables: chro-mo-some frag-i-li-ties. The first syllable "chro-" is pronounced with a "k" sound, followed by the "mo" pronounced like "mow" in lawn. The second syllable "some" sounds like "sum". The third syllable "frag" has a "g" sound and a short "a" sound. "I-li-ties" is pronounced "ee-luh-ties". Altogether, "chromosome fragilities" is pronounced as kroh-muh-sohm frag-uh-lih-tees in IPA phonetic transcription.

CHROMOSOME FRAGILITIES Meaning and Definition

  1. Chromosome fragilities refer to regions on the chromosomes that are susceptible to breakage, rearrangement or loss. Chromosomes are structures found inside the nucleus of a cell and contain organized strands of DNA. They play a vital role in the transmission of genetic material during cell division and the maintenance of genetic stability. However, in certain regions of the chromosomes, there are inherent vulnerabilities to damage or alteration.

    Chromosome fragilities can occur naturally or can be caused by external factors such as exposure to certain chemicals or radiation. These fragile sites are typically characterized by the presence of DNA sequences that are difficult to replicate or stabilize during cell division, making them more prone to breakage. Fragile sites can vary in size, ranging from a few hundred base pairs to several kilobases.

    The breakage of chromosomes at these fragile sites can result in various genetic abnormalities or diseases. For example, in certain cancers, the fragile sites may be prone to rearrangements or loss, leading to the disruption of vital genes involved in cell growth regulation. Additionally, individuals with chromosomal fragility disorders may experience recurrent chromosomal breakage, which can manifest as physical or developmental abnormalities.

    Understanding chromosome fragilities is crucial for genetic research, diagnostic purposes, and the development of targeted therapies. Advances in molecular genetics have enabled the identification of specific fragile sites, allowing researchers to investigate their molecular mechanisms and potential implications in various genetic disorders. Researchers continue to explore the causes and consequences of chromosome fragilities, aiming to elucidate their role in diseases and potentially develop strategies to prevent or mitigate their effects.

Common Misspellings for CHROMOSOME FRAGILITIES

  • xhromosome fragilities
  • vhromosome fragilities
  • fhromosome fragilities
  • dhromosome fragilities
  • cgromosome fragilities
  • cbromosome fragilities
  • cnromosome fragilities
  • cjromosome fragilities
  • curomosome fragilities
  • cyromosome fragilities
  • cheomosome fragilities
  • chdomosome fragilities
  • chfomosome fragilities
  • chtomosome fragilities
  • ch5omosome fragilities
  • ch4omosome fragilities
  • chrimosome fragilities
  • chrkmosome fragilities
  • chrlmosome fragilities
  • chrpmosome fragilities

Etymology of CHROMOSOME FRAGILITIES

The etymology of the term "chromosome fragilities" can be broken down as follows:

1. Chromosome: This word derives from the Greek words "chroma" meaning "color" and "soma" meaning "body". German anatomist and biologist Wilhelm von Waldeyer-Hartz is credited with coining the term "chromosome" in 1888 to describe the thread-like structures found in the nucleus of cells that were observed to be strongly stained with certain dyes.

2. Fragilities: The word "fragilities" is the plural form of the noun "fragility", which is derived from the Latin word "fragilis", meaning "easily broken" or "fragile". The term "fragilities" is used in this context to describe the susceptible and breakable nature of certain chromosomes.

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