Alanine scanning was used to determine simultaneously the functional contributions of 19 side chains buried at the interface between human growth hormone and the extracellular domain of its receptor. Each amino acid in the side chains was substituted by alanine. Then shotgun scanning method which combines the concepts of alanine scanning
mutagenesis and binomial mutagenesis with phage display technology was used. Another critical application of alanine scanning is to determine the influence of individual residues on structure and activity in the prototypic
cyclotide kalata B1. Cyclotides display a wide range of pharmaceutically important bioactivities, but their natural function is in plant defense as insecticidal agents. On the structure of cyclotides kalata B1, all 23 non-cysteine residues were successively substituted with alanine. The data were tested by
NMR Spectroscopy. In addition, alanine scanning is also used to determine which functional motif of Cry4Aa has the mosquitocidal activity. Cry4Aa was produced by
Bacillus thuringiensis. It is a dipteran-specific toxin and it plays an important role in how to produce a bioinsecticide to control mosquitoes. So, it is very essential to determine which functional motif of Cry4Aa contributes to this activity. In this study, several Cry4Aa mutants were made by replacing the residues of potential receptor binding site, loops 1, 2, and 3 in domain II with alanine. A bioassay
Culex pipiens was followed to test the activities. == Alanine-World model ==