carboxylic acids
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.
Caboxylic acid contains R-COOH type structure, in which, due to -COOH group, it is acidic in nature i.e. H+ ion, can be easily released due to high polarity between -O-H bond. Such type of nature and bond fission can be observed in other compounds like carbonyl group
The amino group (d.-Nh2) P.S. i have the same packet for AP Bio
Amino acids are held together by peptide bonds, which are covalent bonds formed through dehydration synthesis or condensation reactions. It forms between the amino terminus of one amino acid's backbone and the carboxyl terminus of another amino acid's backbone.
Lime is a type of citrus fruit and as such, contains citric acid.
ester
It contains retroviruses, like HIV and it also contains RNA nucleic acids.
RNA (Ribonucleic Acid) contains Ribose. Ribose is a type of sugar that helps make up the backbone of RNA, along with a phosphate group.
The nucleuic acid of fungi contains Nucleotide composition
an "amine" group, particularly a "primary amine"
Amino acids are joined by peptide bonds. A peptide bond is a covalent bond that forms between two amino acids when the carboxyl group (COOH) of one amino acid reacts with the amino group (NH2) of the other amino acid, resulting in a C-N bond, which is a peptide bond. Click on the related link below to see an image of a peptide bond.
This is a conjugate base to the weak acid called Acetic acid, CH3COOH.CH3COO- is called: Acetate ion.This is the conjugate base of the weak acid Acetic Acid, CH3COOH.It is commonly called an Acetate anion or just Acetate.Ethanoate is the official IUPAC name.