Total Chemical Synthesis of Proteins (eBook, PDF)
Redaktion: Brik, Ashraf; Liu, Lei; Dawson, Philip
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Total Chemical Synthesis of Proteins (eBook, PDF)
Redaktion: Brik, Ashraf; Liu, Lei; Dawson, Philip
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With contributions from a panel of experts representing a range of disciplines, this practical reference presents a carefully curated collection of synthetic approaches and strategies for the total synthesis of native and modified proteins.
- Geräte: PC
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- Größe: 17.08MB
With contributions from a panel of experts representing a range of disciplines, this practical reference presents a carefully curated collection of synthetic approaches and strategies for the total synthesis of native and modified proteins.
Dieser Download kann aus rechtlichen Gründen nur mit Rechnungsadresse in A, B, BG, CY, CZ, D, DK, EW, E, FIN, F, GR, HR, H, IRL, I, LT, L, LR, M, NL, PL, P, R, S, SLO, SK ausgeliefert werden.
Produktdetails
- Produktdetails
- Verlag: Wiley-VCH
- Seitenzahl: 604
- Erscheinungstermin: 23. Februar 2021
- Englisch
- ISBN-13: 9783527823574
- Artikelnr.: 61253651
- Verlag: Wiley-VCH
- Seitenzahl: 604
- Erscheinungstermin: 23. Februar 2021
- Englisch
- ISBN-13: 9783527823574
- Artikelnr.: 61253651
- Herstellerkennzeichnung Die Herstellerinformationen sind derzeit nicht verfügbar.
Ashraf Brik is Professor of Chemistry at the Schulich Faculty of Chemistry in the Technion-Israel Institute of Technology. He received academic degrees from the Ben-Gurion University of the Negev from the Technion-Israel Institute of Technology, completing his Ph.D. in 2001. From 2002 to 2006, he was a Research Associate in the Scripps Research Institute. In 2007, he joined the Department of Chemistry in the Ben-Gurion University of the Negev as an Assistant Professor and was promoted to a Full Professor in 2012. Professor Brik has authored over 110 scientific publications and has received numerous scientific awards, including the 2017 Bruno Award, the Bessel Award of the Humboldt Foundation for 2015, the 11th Hirata Award, Teva Award for Excellence in memory of Eli Hurvitz, the 2013 Tetrahedron Young Investigator Award in Bioorganic and Medicinal Chemistry for and the 2011 Israel Chemical Society prize for Outstanding Young Chemists. Philip E. Dawson is a Professor in the Department of Chemistry, The Scripps Research Institute in La Jolla, CA, where he is also the Dean of Graduate and Postdoctoral Studies. He received his A.B. (1992) from Washington University, and Ph.D. (1996) from the Scripps Institute under the guidance of Stephen Kent. Following postdoctoral work at Caltech, he returned to Scripps as Assistant Professor in 1997. He has served as President of the American Peptide Society and co-chaired the 22nd American Peptide Symposium and the 2016 GRC. He has published over 150 papers, and has been honored with an Alfred P. Sloan Foundation fellowship, the Vincent du Vigneaud Award, the Max Bergmann Kreis Gold Medal and the Zervas Award. Lei Liu is a Professor of Chemistry at Tsinghua University. Liu received his B.Sc. in chemistry from University of Science and Technology of China (1995-1999). His Ph.D. was obtained in 2004 from the Chemistry Department of Columbia University. From 2004 to 2007, Liu was a Research Associate in the Scripps Research Institute. In 2007, Liu joined the Department of Chemistry in Tsinghua University at Beijing. Liu is now a Full Professor and vice chair of the Chemistry Department of Tsinghua. Professor Liu has authored over 200 scientific publications and has received scientific awards including the National Natural Science Award and Tan Kah Kee Young Scientist Award.
Characterization of protein molecules prepared by total chemical synthesis
Automated fast flow peptide synthesis
N,S- and N,Se-acyl transfer devices in protein synthesis
Chemical synthesis of proteins through native chemical ligation of peptide hydrazides
Expanding native chemical ligation methodology with synthetic amino acid derivatives
Peptide ligations at sterically demanding sites
Controlling segment solubility in large protein synthesis
Towards HPLC-free total chemical synthesis of proteins
Solid phase chemical ligation
Ser/Thr ligation for protein chemical synthesis
Protein semisynthesis
Bio-orthogonal imine chemistry in chemical protein synthesis
Deciphering protein folding using chemical protein synthesis
Chemical synthesis of ubiquitinated proteins for biochemical studies
Glycoprotein synthesis
Chemical Synthesis of membrane proteins
Chemical synthesis of selenoproteins
Histone synthesis
Application of chemical synthesis to engineer protein backbone connectivity
Beyond phosphate esters - synthesis of unusually phosphorylated peptides and proteins for proteomic research
Cyclic peptides via ligation methods
Automated fast flow peptide synthesis
N,S- and N,Se-acyl transfer devices in protein synthesis
Chemical synthesis of proteins through native chemical ligation of peptide hydrazides
Expanding native chemical ligation methodology with synthetic amino acid derivatives
Peptide ligations at sterically demanding sites
Controlling segment solubility in large protein synthesis
Towards HPLC-free total chemical synthesis of proteins
Solid phase chemical ligation
Ser/Thr ligation for protein chemical synthesis
Protein semisynthesis
Bio-orthogonal imine chemistry in chemical protein synthesis
Deciphering protein folding using chemical protein synthesis
Chemical synthesis of ubiquitinated proteins for biochemical studies
Glycoprotein synthesis
Chemical Synthesis of membrane proteins
Chemical synthesis of selenoproteins
Histone synthesis
Application of chemical synthesis to engineer protein backbone connectivity
Beyond phosphate esters - synthesis of unusually phosphorylated peptides and proteins for proteomic research
Cyclic peptides via ligation methods
Characterization of protein molecules prepared by total chemical synthesis
Automated fast flow peptide synthesis
N,S- and N,Se-acyl transfer devices in protein synthesis
Chemical synthesis of proteins through native chemical ligation of peptide hydrazides
Expanding native chemical ligation methodology with synthetic amino acid derivatives
Peptide ligations at sterically demanding sites
Controlling segment solubility in large protein synthesis
Towards HPLC-free total chemical synthesis of proteins
Solid phase chemical ligation
Ser/Thr ligation for protein chemical synthesis
Protein semisynthesis
Bio-orthogonal imine chemistry in chemical protein synthesis
Deciphering protein folding using chemical protein synthesis
Chemical synthesis of ubiquitinated proteins for biochemical studies
Glycoprotein synthesis
Chemical Synthesis of membrane proteins
Chemical synthesis of selenoproteins
Histone synthesis
Application of chemical synthesis to engineer protein backbone connectivity
Beyond phosphate esters - synthesis of unusually phosphorylated peptides and proteins for proteomic research
Cyclic peptides via ligation methods
Automated fast flow peptide synthesis
N,S- and N,Se-acyl transfer devices in protein synthesis
Chemical synthesis of proteins through native chemical ligation of peptide hydrazides
Expanding native chemical ligation methodology with synthetic amino acid derivatives
Peptide ligations at sterically demanding sites
Controlling segment solubility in large protein synthesis
Towards HPLC-free total chemical synthesis of proteins
Solid phase chemical ligation
Ser/Thr ligation for protein chemical synthesis
Protein semisynthesis
Bio-orthogonal imine chemistry in chemical protein synthesis
Deciphering protein folding using chemical protein synthesis
Chemical synthesis of ubiquitinated proteins for biochemical studies
Glycoprotein synthesis
Chemical Synthesis of membrane proteins
Chemical synthesis of selenoproteins
Histone synthesis
Application of chemical synthesis to engineer protein backbone connectivity
Beyond phosphate esters - synthesis of unusually phosphorylated peptides and proteins for proteomic research
Cyclic peptides via ligation methods