出典(authority):フリー百科事典『ウィキペディア(Wikipedia)』「2013/05/20 17:49:56」(JST)
In molecular biology, alanine scanning is a technique used to determine the contribution of a specific residue to the stability or function of given protein.[1] Alanine is used because of its non-bulky, chemically inert, methyl functional group that nevertheless mimics the secondary structure preferences that many of the other amino acids possess. Sometimes bulky amino acids such as valine or leucine are used in cases where conservation of the size of mutated residues is needed.
This technique can also be used to determine whether the side chain of a specific residue plays a significant role in bioactivity. This is usually accomplished by site-directed mutagenesis or randomly by creating a PCR library. Furthermore, computational methods to estimate thermodynamic parameters based on a theoretical alanine substitutions have been developed.
This technique is rapid, because many side chains are analyzed simultaneously and the need for protein purification and biophysical analysis is circumvented.[2] It is a mature technology which has been using for a long period of time. It is also very utility and widely used in biology, chemistry and biochemistry field. The data can be tested by IR, NMR Spectroscopy, mathematical method and bioassay etc.[3][4][5]
One good example of alanine scanning is the examination of the role of charged residues on the surface of proteins.[6] In a systematic study on the roles of conserved charged residues on the surface of epithelial sodium channel (ENaC), alanine scanning was used to reveal the importance of charged residues for the process of transport of the proteins to the cell surface.[6]
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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.[2] Each amino acids 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 cyclotides kalata B1.[3] 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.[4] 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.
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リンク元 | 「アラニン置換」「アラニンスキャニング」「alanine substitution」 |
関連記事 | 「scanning」「alanine」 |
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