Their functional or "R" group of the individual amino acid.
amino group, carboxylic group and their side chain attached to a sigle carbon and their isoelectric pH are the basis of characteristic of amino acid.
the amine group
Since it's a secondary α-amino acid that doesn't have a free amino group
On partial hydrolysis it gives hexaneamide which on further hoffman's bromamide gives 1aminopentane
They all have the same number of neutrons. All atoms of a given element have a specific number of protons. That is what gives an element its elemental identity. But we know that different atoms of a given element can have different numbers of neutrons. These different atoms of the same element are the isotopes of that element. All the atoms of a given isotope of a given element will have the same number of protons and will have the same number of neutrons. all isotopes of an atom have same number of proton but they have different number of neutron so they have same chemical properties and different physical properties. all isotopes of an atom have same number of proton but they have different number of neutron so they have same chemical properties and different physical properties.
purley ionic bonds do not occour because the atoms that gives up an electron in such a bond
Hydrogen
Mainly The R Group, but also that there is also the particular positions that give the amino acid molecule its characteristic chemical properties. Another is at the -C-C-N- peptide linkage.
Mainly The R Group, but also that there is also the particular positions that give the amino acid molecule its characteristic chemical properties. Another is at the -C-C-N- peptide linkage.
The presence of carboxyl and amino groups gives it the ability to form peptide bonds, and its side chain gives it unique chemical properties.
The R-group (side-chain), is what gives each amino acid its unique properties and affects how a protein folds.
The R-group (side-chain), is what gives each amino acid its unique properties and affects how a protein folds.
A Functional Group is a group of reactive atoms and bonds that give certain properties to a compound. The Carbonyl group is very important in organic chemistry.
The R-group (side-chain), is what gives each amino acid its unique properties and affects how a protein folds and how it interacts with itself and other molecules.
The electrons specifically the outermost electrons determines the chemical properties. These are often called the valence electrons. The radioactivity of a particular isotope is determined by the nuclear composition in terms of protons and neutrons.
Its unique sidegroup, also called its radical (often indicated as an R in molecular diagrams). The common amino acid backbone only allows polymerization of these monomers into protein molecules.
The type of bond that holds the atoms together in iron is called metallic bonding. Metallic bonds are formed by the delocalization of electrons between metal atoms, creating a "sea" of electrons that holds the atoms together. This gives metals their unique properties, such as conductivity and malleability.
dna gives codes for 1 of20 amino acids. amino acids form chains and a complete chain is a protein.
Since it's a secondary α-amino acid that doesn't have a free amino group