How Do You Spell ABSCISIC ACID MONOAMMONIUM SALT R ISOMER?

Pronunciation: [ɐbsˈɪzɪk ˈasɪd mˌɒnə͡ʊɐmˈə͡ʊni͡əm sˈɒlt ˈɑːɹ ˈa͡ɪsəmə] (IPA)

Abscisic Acid Monoammonium Salt R Isomer is a chemical compound with a complex name that requires careful spelling. The IPA phonetic transcription of the name is əbˈsɪsɪk ˈæsɪd mɒnəʊˈæməniəm sɔlt ɑːr ˈaɪsəmər. The name is made up of four parts: Abscisic Acid, Monoammonium Salt, R, and Isomer. Each part has a specific meaning and contributes to the overall identity of the compound. This complex name is a reminder of the intricate nature of chemistry and the importance of accuracy in scientific language.

ABSCISIC ACID MONOAMMONIUM SALT R ISOMER Meaning and Definition

  1. Abscisic Acid Monoammonium Salt R Isomer, also known as (2Z,4E)-5-(1-Hydroxy-2,6,6-trimethyl-4-oxo-2-cyclohexen-1-yl)-3-methylpenta-2,4-dienoic acid monoammonium salt (R isomer), is a chemical compound that belongs to the group of plant hormones known as abscisic acids (ABA). It is derived from the naturally occurring plant hormone abscisic acid and exists as a salt form with one molecule of ammonium.

    The R isomer of Abscisic Acid Monoammonium Salt refers to the spatial arrangement of the molecule, arising from the presence of two double bonds and a chiral carbon atom. The R configuration indicates the absolute stereochemistry of the molecule.

    Abscisic acid is widely recognized for its crucial role in various physiological processes in plants, especially in stress response and growth regulation. It acts as a signaling molecule that mediates plant responses to environmental stresses such as drought, salinity, and cold temperatures. The presence of the monoammonium salt form enhances its stability and bioavailability, allowing for easier application and absorption by plants.

    The R isomer of Abscisic Acid Monoammonium Salt is of particular interest due to its specific molecular arrangement, which may contribute to its distinct biological properties and interactions with receptors. Further research and experimentation are necessary to fully understand the functions and potential applications of this compound in plant physiology and agricultural practices.