Protein Folding Kinetics [electronic resource] : Biophysical Methods / by Bengt Nölting.
Nölting, Bengt.| Call Number | 572.6 |
| Author | Nölting, Bengt. author. |
| Title | Protein Folding Kinetics Biophysical Methods / by Bengt Nölting. |
| Edition | Second Edition. |
| Physical Description | XVI, 222 p. 170 illus., 12 illus. in color. online resource. |
| Contents | Structures of proteins -- Physical interactions that determine the properties of proteins -- Calculation of the kinetic rate constants -- High kinetic resolution of protein folding events -- Kinetic methods for slow reactions -- Resolution of protein structures in solution -- High structural resolution of transient protein conformations -- Experimental problems of the kinetic and structural resolution of reactions that involve proteins -- The folding pathway of a protein (barstar) at the resolution of individual residues from microseconds to seconds -- Highly resolved folding pathways and mechanisms of six proteins -- Structural determinants of the rate of protein folding -- Evolutionary computer programming of protein structure and folding -- Conclusions. |
| Summary | The book gives a deep insight into the principles and concepts of the kinetic and structural resolution of fast chemical and biophysical reactions of proteins with emphasis on protein-folding reactions. The study of fast protein-folding reactions and the understanding of the folding paradox have significantly advanced due to the recent development of new biophysical methods which allow not only kinetic resolution in the sub-millisecond time scale but also structural resolution with unprecedented precision. Pathways and structures of early and late folding events and the transition state structures of fast- and ultrafast-folding proteins can now be studied in far more detail. Important techniques include biophysical, chemical, molecular biological and mathematical methods, in particular protein engineering, Phi-value analysis, time-resolved circular dichroism, optical triggers and pulsed infrared LASER methods, pressure and temperature jump, ultrafast mixing, stopped flow and quenched flow, dielectric relaxation and electric-field-jump, acoustic relaxation, fluorescence- and isotope-labeling, H/D exchange methods, NMR line broadening and stopped-flow NMR, transition state theory, solutions of rate equations, and evolutionary computer programming. Protein Folding Kinetics - Biophysical Methods is written for students and researchers in biochemistry, biophysics, and related fields. Special features in the second edition: • Includes detailed information and 12 color figures on the high resolution of folding transition states. • Discusses structural determinants of the rate of protein folding on a timescale from microseconds to seconds. • Provides information on self-evolving computer programs for protein-folding simulations and protein-structure predictions. |
| Added Author | SpringerLink (Online service) |
| Subject | LIFE SCIENCES. BIOTECHNOLOGY. Food Biotechnology. BIOCHEMISTRY. PROTEINS. BIOPHYSICS. BIOLOGICAL PHYSICS. Life Sciences. Protein Science. Biochemistry, general. Biophysics and Biological Physics. Biotechnology. Food Science. |
| Multimedia |
-
Libraries with this item
-
950 BiomedicalandLifeSciences(Springer-11642)
Total Ratings:
0
04282nam a22005535i 4500
001
vtls001568696
003
VRT
005
20170831184500.0
007
cr nn 008mamaa
008
170831s2006 gw | s |||| 0|eng d
020
$a 9783540272786 $9 978-3-540-27278-6
024
7
$a 10.1007/b138868 $2 doi
035
$a (DE-He213)978-3-540-27278-6
039
9
$y 201708311845 $z santha
050
4
$a QD431-431.7
072
7
$a PSBC $2 bicssc
072
7
$a SCI007000 $2 bisacsh
082
0
4
$a 572.6 $2 23
100
1
$a Nölting, Bengt. $e author.
245
1
0
$a Protein Folding Kinetics $h [electronic resource] : $b Biophysical Methods / $c by Bengt Nölting.
250
$a Second Edition.
264
1
$a Berlin, Heidelberg : $b Springer Berlin Heidelberg, $c 2006.
300
$a XVI, 222 p. 170 illus., 12 illus. in color. $b online resource.
336
$a text $b txt $2 rdacontent
337
$a computer $b c $2 rdamedia
338
$a online resource $b cr $2 rdacarrier
347
$a text file $b PDF $2 rda
505
0
$a Structures of proteins -- Physical interactions that determine the properties of proteins -- Calculation of the kinetic rate constants -- High kinetic resolution of protein folding events -- Kinetic methods for slow reactions -- Resolution of protein structures in solution -- High structural resolution of transient protein conformations -- Experimental problems of the kinetic and structural resolution of reactions that involve proteins -- The folding pathway of a protein (barstar) at the resolution of individual residues from microseconds to seconds -- Highly resolved folding pathways and mechanisms of six proteins -- Structural determinants of the rate of protein folding -- Evolutionary computer programming of protein structure and folding -- Conclusions.
520
$a The book gives a deep insight into the principles and concepts of the kinetic and structural resolution of fast chemical and biophysical reactions of proteins with emphasis on protein-folding reactions. The study of fast protein-folding reactions and the understanding of the folding paradox have significantly advanced due to the recent development of new biophysical methods which allow not only kinetic resolution in the sub-millisecond time scale but also structural resolution with unprecedented precision. Pathways and structures of early and late folding events and the transition state structures of fast- and ultrafast-folding proteins can now be studied in far more detail. Important techniques include biophysical, chemical, molecular biological and mathematical methods, in particular protein engineering, Phi-value analysis, time-resolved circular dichroism, optical triggers and pulsed infrared LASER methods, pressure and temperature jump, ultrafast mixing, stopped flow and quenched flow, dielectric relaxation and electric-field-jump, acoustic relaxation, fluorescence- and isotope-labeling, H/D exchange methods, NMR line broadening and stopped-flow NMR, transition state theory, solutions of rate equations, and evolutionary computer programming. Protein Folding Kinetics - Biophysical Methods is written for students and researchers in biochemistry, biophysics, and related fields. Special features in the second edition: • Includes detailed information and 12 color figures on the high resolution of folding transition states. • Discusses structural determinants of the rate of protein folding on a timescale from microseconds to seconds. • Provides information on self-evolving computer programs for protein-folding simulations and protein-structure predictions.
650
0
$a LIFE SCIENCES.
650
0
$a BIOTECHNOLOGY.
650
0
$a Food $x Biotechnology.
650
0
$a BIOCHEMISTRY.
650
0
$a PROTEINS.
650
0
$a BIOPHYSICS.
650
0
$a BIOLOGICAL PHYSICS.
650
1
4
$a Life Sciences.
650
2
4
$a Protein Science.
650
2
4
$a Biochemistry, general.
650
2
4
$a Biophysics and Biological Physics.
650
2
4
$a Biotechnology.
650
2
4
$a Food Science.
710
2
$a SpringerLink (Online service)
773
0
$t Springer eBooks
776
0
8
$i Printed edition: $z 9783540272779
856
4
0
$u http://dx.doi.org/10.1007/b138868
912
$a ZDB-2-SBL
950
$a Biomedical and Life Sciences (Springer-11642)
999
$a VIRTUA
No Reviews to Display
| Summary | The book gives a deep insight into the principles and concepts of the kinetic and structural resolution of fast chemical and biophysical reactions of proteins with emphasis on protein-folding reactions. The study of fast protein-folding reactions and the understanding of the folding paradox have significantly advanced due to the recent development of new biophysical methods which allow not only kinetic resolution in the sub-millisecond time scale but also structural resolution with unprecedented precision. Pathways and structures of early and late folding events and the transition state structures of fast- and ultrafast-folding proteins can now be studied in far more detail. Important techniques include biophysical, chemical, molecular biological and mathematical methods, in particular protein engineering, Phi-value analysis, time-resolved circular dichroism, optical triggers and pulsed infrared LASER methods, pressure and temperature jump, ultrafast mixing, stopped flow and quenched flow, dielectric relaxation and electric-field-jump, acoustic relaxation, fluorescence- and isotope-labeling, H/D exchange methods, NMR line broadening and stopped-flow NMR, transition state theory, solutions of rate equations, and evolutionary computer programming. Protein Folding Kinetics - Biophysical Methods is written for students and researchers in biochemistry, biophysics, and related fields. Special features in the second edition: • Includes detailed information and 12 color figures on the high resolution of folding transition states. • Discusses structural determinants of the rate of protein folding on a timescale from microseconds to seconds. • Provides information on self-evolving computer programs for protein-folding simulations and protein-structure predictions. |
| Contents | Structures of proteins -- Physical interactions that determine the properties of proteins -- Calculation of the kinetic rate constants -- High kinetic resolution of protein folding events -- Kinetic methods for slow reactions -- Resolution of protein structures in solution -- High structural resolution of transient protein conformations -- Experimental problems of the kinetic and structural resolution of reactions that involve proteins -- The folding pathway of a protein (barstar) at the resolution of individual residues from microseconds to seconds -- Highly resolved folding pathways and mechanisms of six proteins -- Structural determinants of the rate of protein folding -- Evolutionary computer programming of protein structure and folding -- Conclusions. |
| Subject | LIFE SCIENCES. BIOTECHNOLOGY. Food Biotechnology. BIOCHEMISTRY. PROTEINS. BIOPHYSICS. BIOLOGICAL PHYSICS. Life Sciences. Protein Science. Biochemistry, general. Biophysics and Biological Physics. Biotechnology. Food Science. |
| Multimedia |