The great combinatorial power of the twenty amino acids, which vary in active R groups twenty different ways, used in the making of proteins. The alphabet you use is an example. From 26 letters one can make myriad words and an inexhaustible supply of sentences.
Because many amino acids may combine in a number of ways
structure and function of proteins of permease system
because sum reason
Proteins and DNA.
Enzymes and proteins. Denaturation unravels them, ruining their structure and therefore their function.
Different types of proteins are formed by the bonding of different types of amino acids. There are typically four types of amino acids that make up a protein.
structure and function of proteins of permease system
Proteins are required for the structure, function, and regulation of the body's cells, tissues, and organs.
Helps to maintain the structure, flexibility, and motion of proteins.
proteomics
proteins
because sum reason
Albert Light has written: 'Proteins: structure and function' -- subject(s): Analysis, Proteins
When it has the potential to facilitate a chemical reaction; to make it faster. The structure of enzyme-proteins can accelerate a chemical reaction by bringing reactants together by its binding, confinement properties, among others. Structure can indeed easily code for function.
DNA is packaged very tight by proteins. Proteins found around the DNA supports both the structure and functions. The proteins and the DNA make up the chromosomes. Proteins and DNA in animal cells are chromatin! DNA contains information because of the DNA's structure!
Much of a proteins function is based on its 3 dimensional structure. How the Amino acids interact with eachother. Examples of 3 dimension structure are Alpha helix, and beta sheets. this is bull that is not it.
Proteins and DNA.
Enzymes and proteins. Denaturation unravels them, ruining their structure and therefore their function.