How Do You Spell THIOSULFATE SULPHURTRANSFERASE?

Pronunciation: [θˌa͡ɪə͡ʊsˈʌlfe͡ɪt sˈʌlfətɹɐnsfˌɜːɹe͡ɪz] (IPA)

Thiosulfate Sulphurtransferase is a complex word that requires careful attention to its spelling. The IPA phonetic transcription for Thiosulfate is /θaɪəʊˈsʌl.feɪt/ and Sulphurtransferase is spelled as /ˌsʌl.fə ˈtræns.fə.reɪs/. The word is a compound composed of two parts, Thiosulfate and Sulphurtransferase. Thiosulfate refers to a chemical compound containing sulphur and sulphate ions, while Sulphurtransferase refers to an enzyme that catalyzes the transfer of a sulfur atom from one molecule to another. Proper spelling of scientific terms like this is crucial for accurate communication in the scientific community.

THIOSULFATE SULPHURTRANSFERASE Meaning and Definition

  1. Thiosulfate sulphurtransferase, also known as rhodanese, is an enzyme found in various organisms, including bacteria, plants, and animals. It plays a crucial role in sulfur metabolism by facilitating the transfer of a sulfur atom from a donor molecule to a recipient molecule.

    The enzyme receives the sulfur atom from thiosulfate, which acts as a source of sulfur, and transfers it to a variety of acceptor molecules, including cyanide, sulfite, and sulfide. This process of sulfur transfer is essential in maintaining the balance of sulfur-containing compounds in various biological systems.

    Thiosulfate sulphurtransferase contains an active site that allows the binding and activation of thiosulfate and the subsequent transfer of sulfur. It utilizes a reaction mechanism involving the formation of a covalent intermediate between the enzyme and thiosulfate, leading to the transfer of the sulfur atom. This transfer reaction has implications in detoxifying harmful compounds, such as cyanide, by converting them into less toxic forms.

    The enzyme's role in sulfur metabolism is crucial in various physiological processes. It is involved in the detoxification of reactive sulfur species, the metabolism of thiocyanate, and the biosynthesis of essential sulfur-containing compounds, including cysteine and methionine. Additionally, thiosulfate sulphurtransferase has been studied for its potential applications in bioremediation processes, as its sulfur transfer capabilities can transform pollutants into less harmful forms.

    In summary, thiosulfate sulphurtransferase is an enzyme that facilitates the transfer of sulfur from thiosulfate to various acceptor molecules, contributing to important physiological processes, sulfur metabolism, and potential environmental applications.

Common Misspellings for THIOSULFATE SULPHURTRANSFERASE

  • rhiosulfate sulphurtransferase
  • fhiosulfate sulphurtransferase
  • ghiosulfate sulphurtransferase
  • yhiosulfate sulphurtransferase
  • 6hiosulfate sulphurtransferase
  • 5hiosulfate sulphurtransferase
  • tgiosulfate sulphurtransferase
  • tbiosulfate sulphurtransferase
  • tniosulfate sulphurtransferase
  • tjiosulfate sulphurtransferase
  • tuiosulfate sulphurtransferase
  • tyiosulfate sulphurtransferase
  • thuosulfate sulphurtransferase
  • thjosulfate sulphurtransferase
  • thkosulfate sulphurtransferase
  • thoosulfate sulphurtransferase
  • th9osulfate sulphurtransferase
  • th8osulfate sulphurtransferase
  • thiisulfate sulphurtransferase
  • thiksulfate sulphurtransferase

Etymology of THIOSULFATE SULPHURTRANSFERASE

The word "thiosulfate sulphurtransferase" has its etymology traced back to its root words and prefixes:

1. Thio-: The prefix "thio-" is derived from the Greek word "theion", meaning "sulfur". It is commonly used in chemistry to indicate the presence or involvement of sulfur in a compound or molecule.

2. Sulfate: The word "sulfate" originates from the Latin word "sulfur", which means "sulfur" as well. In chemistry, a sulfate is a compound that contains the sulfate group (SO4).

3. Sulphurtransferase: This term is a combination of "sulfur" and "transferase". "Transferase" is a general term used to describe enzymes that catalyze the transfer of a functional group, in this case, sulfur, from one molecule to another.

Infographic

Add the infographic to your website: