Development of the Schedule for Multiple Parallel “Difficult” Peptide Synthesis on Pins

Development of the Schedule for Multiple Parallel “Difficult” Peptide Synthesis on Pins

Unified schedule for multiple parallel solid-phase synthesis of so-called “difficult” peptides on polypropylene pins was developed. Increase in the efficiency of 9-fluorenyl(methoxycarbonyl) N-terminal amino-protecting group removal was shown to have a greater influence on the accuracy of the “diffi...

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Bibliographic Details
Published in:International journal of peptides Vol. 2013; no. 2013; pp. 1 - 9
Main Authors: Kolesanova, Ekaterina F., Kharybin, Oleg N., Sanzhakov, Maxim A.
Format: Journal Article
Language:English
Published: Cairo, Egypt Hindawi Puplishing Corporation 2013
Hindawi Publishing Corporation
John Wiley & Sons, Inc
Subjects:
Hepatitis C virus
Peptides
Physiological aspects
Protein biosynthesis
Protein research
Russia
Online Access:Get full text
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Summary:Unified schedule for multiple parallel solid-phase synthesis of so-called “difficult” peptides on polypropylene pins was developed. Increase in the efficiency of 9-fluorenyl(methoxycarbonyl) N-terminal amino-protecting group removal was shown to have a greater influence on the accuracy of the “difficult” peptide synthesis than the use of more efficient amino acid coupling reagents such as aminium salts. Hence the unified schedule for multiple parallel solid-phase synthesis of “difficult” peptides included the procedure for N-terminal amino group deprotection modified by applying a more efficient reagent for the deprotection and the standard procedure of amino acid coupling by carbodiimide method with an additional coupling using aminium salts, if necessary. Amino acid coupling with the help of carbodiimide allows to follow the completeness of the coupling via the bromophenol blue indication, thus providing the accuracy of the synthesis and preventing an overexpenditure of expensive reagents. About 100 biotinylated hepatitis C virus envelope protein fragments, most of which represented “difficult” peptides, were successfully obtained by synthesis on pins with the help of the developed unified schedule.
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Academic Editor: John D. Wade
ISSN:1687-9767
1687-9775
DOI:10.1155/2013/197317