Respuesta :
Answer:
The three-dimensional structure of a protein is determined by its amino acid sequence. Second, the function of a protein depends upon its three-dimensional structure. Third, the three-dimensional structure of a protein is unique, or nearly so. Fourth, the most important forces stabilizing the specific three-dimensional structure maintained by a given protein are noncovalent interactions. Finally, even though the structure of proteins is complicated, several common patterns can be recognized.
Types of molecules that interact with each other during the reaction.
Further explanation
Enzymes are composed of 2 parts:
a. Apoenzim parts are enzymes composed of proteins. Apoenzim is a type that dominates from all kinds of enzyme structures. Its unstable nature is easily changed when influenced by temperature and pH.
b. Parts of prosthetic groups are enzymes arranged on the basis of nonprotein. Based on the constituent, prosthetic there are two more parts, namely:
Coenzyme: Its job is to transfer chemicals from one enzyme to another.
Cofactor: Its job is to optimize the ptialin enzyme in breaking down complex sugar molecules.
Like all proteins, enzymes are made for very long, linear chains of amino acids that are folded to produce a three-dimensional product. Each unique amino acid produces a specific structural sequence, which is unique. Individual protein chains are sometimes grouped together to form complex proteins. Most enzymes can be denatured, stretched and inactivated by heating or chemical denaturation, disrupting the structure of the three dimension proteins. Depending on the enzyme, denaturation may not be changed or reversible.
Enzymes have 4 properties, namely:
1. an enzyme resembling a protein
2. Enzymes work back and forth
3. Enzymes work specifically
4. Enzymes are biocatalysts
Learn More :
Molecule Enzyme; brainly.com/question/9893247, https://brainly.com/question/6346224
Details
Class: High School
Subject: Biology
Keywords: Enzyme, Molecule, Proteins.
