Cover of: Chemical reagents for protein modification | Roger L. Lundblad

Chemical reagents for protein modification

  • 339 Pages
  • 0.13 MB
  • 6658 Downloads
  • English
by
CRC Press , Boca Raton
Proteins -- Chemical modification., Chemical tests and reag
StatementRoger L. Lundblad.
Classifications
LC ClassificationsQP551 .L88 2005
The Physical Object
Pagination339 p. :
ID Numbers
Open LibraryOL17938639M
ISBN 100849319838
LC Control Number2005275229

Revised and updated, Chemical Reagents for Protein Modification, Third Edition is an encyclopedic work describing the many approaches to the site-specific modification of proteins.

More than 2, references are cited describing the development of the various reagents. This book explores how the use of site-specific protein modification relates toCited by: Book Description.

Download Chemical reagents for protein modification FB2

The use of the chemical modification of proteins has evolved over the past 80 years, benefiting from advances in analytical, physical, and organic chemistry. Over the past 30 years, the use of chemical reagents to modify proteins has been crucial in determining the function and structure of purified proteins.

Main Chemical Reagents for Protein Modification, Fourth Edition Chemical Reagents for Protein Modification, Fourth Edition Adriane Y Togashi Affiliation: University of São Paulo, São Paulo, Brazil, Fabiano R Cirano Affiliation: University of São Paulo, São Paulo, Brazil, Marcia M Marques Affiliation: University of São Paulo, São Paulo, Brazil, Francisco E Pustiglioni Affil.

First published inChemical Reagents for Protein Modification, 2nd Edition provides a unique combination of theoretical and practical considerations for the use of chemical reagents for site-specific modification of proteins.

The book is divided into three sections, with the first section describing general techniques, including information on the organic chemistry of the various modification reactions; the separation and characterization of site-specific modified proteins. Book Description First published inChemical Reagents for Protein Modification, 2nd Edition provides a unique combination of theoretical and practical considerations for the use of chemical reagents for site-specific modification of proteins.

First published inChemical Reagents for Protein Modification, 2nd Edition provides a unique combination of theoretical and practical considerations for the use of chemical reagents for site-specific modification of proteins. The book is divided into three sections, with the first section describing general techniques, including information on the organic chemistry of Book Edition: 1st Edition.

Chemical Reagents for Protein Modification - Roger L. Lundblad - Google Books The use of the chemical modification of proteins has evolved over the past 80.

Genre/Form: PROTEINS BIOCHEMISTRY CHEMISTRY, ORGANIC: Additional Physical Format: Online version: Lundblad, Roger L.

Chemical reagents for protein modification. The contents of this book are focused on the use of chemical modification to study the properties of proteins in Chemical reagents for protein modification book. Particular emphasis has been placed DOI link for Chemical Reagents for Protein Modification.

Volume Author: Roger L. Lundblad. The use of the chemical modification of proteins has evolved over the past 80 years, benefiting from advances in analytical, physical, and organic chemistry. Over the past 30 years, the use of chemical reagents to modify proteins has been crucial in determining the function and structure of purified proteins.

This groundbreaking work is part of theCited by: 1st Edition Published on Novem by CRC Press The contents of this book are focused on the use of chemical modification to study the properties of pro Chemical Reagents for Protein Modification: Volume II - 1st Edition.

Chemical Reagents for Protein Modification, 3rd ed By Roger L. Lundblad (Consultant in biotechnology, Chapel Hill, NC). CRC Press: Boca Raton, FL. xii + pp. $ ISBN Lawrence M. SayreCited by: ISBN: X: OCLC Number: Description: xiii, pages: illustrations ; 26 cm: Contents: Machine generated contents note: ch.

1 Introduction to the Chemical Modification of Proteins --References --ch. 2 Alkylating Agents --References --ch. 3 Acylating Agents --References --ch. 4 Nitration and Nitrosylation --Nitration --References --ch.

Additional Physical Format: Online version: Lundblad, Roger L. Chemical reagents for protein modification. Boca Raton: CRC Press, © (OCoLC) Revised and updated, Chemical Reagents for Protein Modification, Third Edition is an encyclopedic work describing the many approaches to the site-specific modification of proteins.

More than 2, references are cited describing the development of the various reagents. Chemical Reagents for Protein Modification, 2nd Edition provides a unique combination of theoretical and practical considerations for the use of chemical reagents for site-specific modification of proteins.

The book is divided into three Price: $ Chemical reagents for protein modification. [Roger L Lundblad] Print book: English: Site-Specific Chemical Modification of ProteinsThe Modification of Amino GroupsThe Modification of Histidine ResiduesThe Modification of ArginineThe Modification of Carboxyl GroupsThe Modification of CysteineThe Modification of CystineThe Modification.

acids (Figure 1). Protein modification reagents like PEGylation or biotinylation reagents have a reactive group at one terminus and a chemical moiety at the other end (PEG chain or biotin group, respectively).

The functional groups that are commonly targeted for bioconjugation include primary amines, sulfhydryls. ConspectusChemical modification of natural proteins must navigate difficult selectivity questions in a complex polyfunctional aqueous environment, within a narrow window of acceptable conditions.

Limits on solvent mixtures, pH, and temperature create challenges for most synthetic methods. While a protein’s complex polyfunctional environment undoubtedly creates Cited by: 1.

The use of the chemical modification of proteins has evolved over the past 80 years, benefiting from advances in analytical, physical, and organic chemistry. Over the past 30 years, the use of chemical reagents to modify proteins has been crucial in determining the function and structure of purified proteins.

This groundbreaking work is part of the foundation of emerging disciplines. Chemical protein modification has emerged as an invaluable tool for the development of modified proteins.

The complementary use of both genetic and chemical methods has provided a large toolbox that allows the preparation of almost unlimited protein constructs with either natural or synthetically modified by: Chemical modification of an existing protein can be useful for probing structure, function and stability relationships of proteins.

Chemical modification can serve as a replacement or complementary method to recombinant DNA technology for improving the properties of a protein (Table ).This may have particular benefit for proteins targeted for commercial exploitation.

Insect Physiol.,Vol. 17, pp. to Pergamon Press. Printed in Great Britain MODIFICATION BY CHEMICAL REAGENTS OF PROTEINS IN THE GUSTATORY AND OLFACTORY ORGANS OF THE FLESHFLY AND COCKROACH NORIYUKI KOYAMA and KENZO KURIHARA Biological Laboratory, Tokyo Institute of Technology, Meguro-ku, Tokyo, Cited by: Chemical modification in biochemistry.

In biochemistry, chemical modification is the technique of chemically reacting a protein or nucleic acid with chemical reagents.

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Chemical modification of protein is an arduous but fruitful task. Many chemical methods have been developed for such purpose by carefully balancing reactivity and selectivity. Now both chemists and biologists have in hand an arsenal of tools from which they can select a relevant reaction to tackle their by: Simply stated, protein modification reagents are chemicals that block, add, change or extend the molecular reach of functional groups.

(In a more general sense, protein modification also includes proteases and reducing agents for cleaving polypeptides, but those are distinct topics that are better discussed in other articles.).

Chemical reactivity interference typically involves chemical modification of reactive protein residues or, less frequently, modification of nucleophilic assay reagents. Typical protein-modifying reactions include (A) oxidation of the cysteine sulfur (see Redox section, vide infra), (B) nucleophilic addition to activated unsaturation (referred Cited by: 7.

Modification reagents for proteins and peptides are chemical agents that are used to modify the amino acid side chains in order to alter the native charges, block or expose reactive binding sites, inactivate functional groups, and change functional.

Chemical Reagents for Protein Modification, Fourth Edition provides a comprehensive review of reagents used for the chemical modification of proteins, representing a major revision of the work presented in previous editions.

The completely updated Fourth Edition is substantially larger and includes five new chapters:Format: Kindle. (, 'b95c7ee6-ecf3c-bbec-2b8abfcf9', {}); There are many methods used to identify the interaction sites between two or more proteins or protein subunits.

Proteolytic Mapping A common method used is the use of proteolytic enzymes that cleave at specifi. We initiated efforts on this front after struggling with gel-based analysis of modifications to peptide and small proteins. 9,10 Most chemical protein modification reactions require a significant excess of a small-molecule reagent, and separation steps are required to remove by-product and unreacted small-molecules.

In our hands, efficient Cited by: 9.Protein Post-Translational Modification. Protein modifications performed by “extra-translational” processes.

Description Chemical reagents for protein modification EPUB

Cannot be definitively predicted from DNA sequence. Can involve very complex systems of enzymes. In some cases, “consensus” sites of modification can be identified. Ubiquitous in eukaryotes.

Frequently critical for:File Size: KB.Chemical modification with imidazolesulfonyl azide 1 does not require engineering of the protein, and it therefore forms an attractive starting point for the development of such a method. However, diazotransfer reagent 1 is not protein-specific.

Prior work on acylating and alkylating agents shows that targeting the reagent to the protein of Cited by: 8.