carboxyl, amino, phosphate
Yes, it is basic in the chemical sense because it contains the amine group -NH2 which can accept a proton.
An amino acid always has an amino group and a carboxyl group. The amine group of one amino acid is capable of forming a peptide bond with the carboxyl group of another amino acid.
The R group in an amino acid are what make that amino acid unique.
Proteins are composed of polypeptides which are in turn composed of amino acids which are organic molecules and are composed of: Carbon Hydrogen Oxygen Nitrogen And a variable group (Can be a carbon, hydrogen, or sometimes a sulfur) All amino acids share a common structure, where an amino group is bonded to a carbon atom (designated the alpha carbon) which is in turn bonded to carboxylate (carboxyllic acid), a hydrogen and the variable group often denoted as the R group (except glycine which has a H for an R group). Amino acids combine through a dehydration mechanism which removes a hydroxyl group from the carboxyllic acid of one amino acid and the proton from another amino acid's amino group: the resultant bond is referred to as a peptide bond and is very stable and rigid (planar) due to delocalisation of the double bond of the carbonyl over to the N atom
The amino group is most likely to gain a proton.
carboxyl, amino, phosphate
It is an amino group, part of the structure of an amino acid that also includes alpha carbon, carboxyl group, hydrogen and an R group side chain. Basic amino group H2N (-NH2) may gain a proton and become -NH3+, an acidic carboxyl group (H3N).
the ortho effect operates due to position of substituted group in ortho position. it increases the steric repulsion in 'amino' grup of aniline there by decreasing its basicity ,i.e tendency to accept proton.
Amino
A monoprotic base is a molecule that has one functional group that can accept a proton. NaOH for example is a (strong) monoprotic base because it can accept one proton. But amines can also be monoprotic bases.
No,fatty acids don't have an amino group
Yes, it is basic in the chemical sense because it contains the amine group -NH2 which can accept a proton.
An amino acid always has an amino group and a carboxyl group. The amine group of one amino acid is capable of forming a peptide bond with the carboxyl group of another amino acid.
Yes, amino acids contain nitrogen in their amine group.
H2o
For forming a peptide bond, it is essential. There are a number of amino acids that have an amino group as an R-group, as well.