How Do You Spell PYRIMIDINE DIMERS?

Pronunciation: [pˈɪɹɪmˌɪdiːn dˈa͡ɪməz] (IPA)

Pyrimidine dimers are a type of DNA damage caused by exposure to ultraviolet radiation. The word "pyrimidine" is spelled /paɪərəˈmɪdiːn/ using IPA phonetic transcription, with the stress on the second syllable. The "y" in "pyrimidine" is pronounced as a schwa sound /ə/. The word "dimers" refers to two identical molecules bound together and is pronounced /ˈdaɪmərz/ with the stress on the first syllable. Understanding the correct spelling and pronunciation of these scientific terms is essential for effective communication in the field of biology.

PYRIMIDINE DIMERS Meaning and Definition

  1. Pyrimidine dimers are a type of DNA damage that occurs when two adjacent pyrimidine bases, such as thymine or cytosine, on the same DNA strand become covalently bonded to each other. This abnormal bond formation between the bases distorts the DNA helix structure, leading to the formation of a dimer. Pyrimidine dimers are primarily caused by exposure to ultraviolet (UV) radiation, such as those found in sunlight, which can induce chemical reactions within the DNA molecule.

    The most common pyrimidine dimer is the thymine dimer, in which two adjacent thymine bases are joined by a cyclobutane ring. Another type of pyrimidine dimer is the pyrimidine-pyrimidone dimer, where two adjacent cytosine bases are bonded together, resulting in the formation of a four-membered ring. These dimers can disrupt the normal DNA replication and transcription processes, impairing the accurate transmission of genetic information and potentially leading to mutations.

    Cells have evolved elaborate repair mechanisms to counteract the formation of pyrimidine dimers. One such mechanism involves the action of DNA repair enzymes, such as photolyases and nucleotide excision repair proteins, which can recognize and remove the dimers from the DNA molecule. Failure to repair these lesions can have various detrimental effects, increasing the risk of mutagenesis, DNA strand breaks, and potentially leading to the development of diseases, including skin cancer.

    In conclusion, pyrimidine dimers are abnormal covalent bonds formed between adjacent pyrimidine bases as a result of exposure to ultraviolet radiation. They can disrupt DNA structure and function, posing a risk to the integrity and stability of the genetic material.

Common Misspellings for PYRIMIDINE DIMERS

  • oyrimidine dimers
  • lyrimidine dimers
  • -yrimidine dimers
  • 0yrimidine dimers
  • ptrimidine dimers
  • pgrimidine dimers
  • phrimidine dimers
  • purimidine dimers
  • p7rimidine dimers
  • p6rimidine dimers
  • pyeimidine dimers
  • pydimidine dimers
  • pyfimidine dimers
  • pytimidine dimers
  • py5imidine dimers
  • py4imidine dimers
  • pyrumidine dimers
  • pyrjmidine dimers
  • pyrkmidine dimers
  • pyromidine dimers

Etymology of PYRIMIDINE DIMERS

The word "pyrimidine" originates from the Greek word "pyr" meaning "fire" and the word "amid" meaning "nitrogen compound". In organic chemistry, pyrimidine refers to a type of heterocyclic aromatic compound that contains two nitrogen atoms in its structure.

The term "dimer" refers to a molecule that consists of two identical subunits. In this case, "pyrimidine dimers" specifically refer to the formation of covalent bonds between two adjacent pyrimidine bases in DNA molecules.

Therefore, the etymology of the term "pyrimidine dimers" is a combination of the Greek word "pyr", meaning "fire", the word "amid", meaning "nitrogen compound", and the word "dimer", meaning a molecule consisting of two identical subunits.

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