Carbon skeleton
the form determines how the organic molecule will look and the shape will determine how the behave organic molecule reacts with other molecule
All living things are made up of organic molecules. The carbon element, which is found in all organic molecules, is the basic unit of life.
mechanism
A reductionist approach to considering the structure and function of organic molecules focuses on breaking down complex biological systems into simple components to better understand their properties and behavior. It involves studying the individual atoms, bonds, and functional groups that make up organic molecules to elucidate their roles in biological processes. This reductionist perspective allows scientists to uncover the underlying principles governing the structure and function of organic molecules.
No, the most essential elements in organic molecules are carbon, hydrogen, and oxygen. These elements form the backbone of organic compounds and are crucial for the structure and function of living organisms. While hydrogen is important and frequently present in organic molecules, it is not the only essential element.
Hydrogen is the abundant element found in both water molecules and most organic molecules. It plays a crucial role in the structure and function of these substances, contributing to their chemical properties.
The main function of mitochondria is respiration in the cell, that is, to produce energy from the breakdown of organic molecules like carbohydrates.
The main function of mitochondria is respiration in the cell, that is, to produce energy from the breakdown of organic molecules like carbohydrates.
Hydrolase is an enzyme that catalyzes the splitting of organic molecules into smaller molecules in the presence of water. Example; the hydrolysis of the carbohydrate starch.
The specific function of a protein is determined by its unique sequence of amino acids, which dictates its shape and structure. This structure allows the protein to interact with other molecules in a specific way to carry out functions such as catalyzing chemical reactions, transporting molecules, and supporting cell structure.
The primary factor that determines the complex shapes of organic molecules is the arrangement and bonding of carbon atoms, which can form stable covalent bonds with other atoms and themselves. Carbon's tetravalency allows it to create diverse structures, including chains, branches, and rings. Additionally, the presence of functional groups and the spatial arrangement of atoms, influenced by factors like hybridization and stereochemistry, further contributes to the variety of shapes and reactivity in organic molecules.
All organic molecules are comprised of covalent bonds between hydrogen atoms and carbon atoms. There are many other elements that play a role in modifying the structure of organic molecules, such as oxygen, phosphorous, and nitrogen.