Total chemical synthesis of proteins / edited by Lei Liu, Ashraf Brik, Philip Dawson. -- Weinheim : Wiley-VCH, 2021. – (58.17421/T717) |
Contents
Preface
1 Characterization of Protein Molecules Prepared by Total Chemical Synthesis
2 Automated Fast Flow Peptide Synthesis 17
3 N,S- and N,Se-Acyl Transfer Devices in Protein Synthesis 59
4 Chemical Synthesis of Proteins Through Native Chemical Ligation of Peptide Hydrazides 87
5 Expanding Native Chemical Ligation Methodology with Synthetic Amino Acid Derivatives 119
6 Peptide Ligations at Sterically Demanding Sites 161
7 Controlling Segment Solubility in Large Protein Synthesis 185
8 Toward HPLC-free Total Chemical Synthesis of Proteins 211
9 Solid-phase Chemical ligation 259
10 Ser/Thr Ligation for Protein Chemical Synthesis 285
11 Protein Semisynthesis 307
12 Bio-orthogonal Imine Chemistry in Chemical Protein Synthesis 327
13 Deciphering Protein Fording Using Chemical Protein Synthesis 357
14 Chemical Synthesis of Ubiquitinated Proteins for Biochemical Studies 383
15 Glycoprotein Synthesis 411
16 Chemical Synthesis of Membrane Proteins 437
17 Chemical Synthesis of Selenoproteins 463
18 Histone Synthesis 489
19 Application of Chemical Synthesis to Engineer Protein Backbone Connectivity
20 Beyond Phosphate Esters: Synthesis of Unusually phosphorylated Peptides and Proteins for Proteomic Research 533
21 Cyclic Peptides via Ligation Methods 553
Index 579