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Protein Folding Kinetics: Biophysical Methods

Bengt Nölting

Second Edition.

Resumen/Descripción – provisto por la editorial

No disponible.

Palabras clave – provistas por la editorial

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Disponibilidad
Institución detectada Año de publicación Navegá Descargá Solicitá
No detectada 2006 SpringerLink

Información

Tipo de recurso:

libros

ISBN impreso

978-3-540-27277-9

ISBN electrónico

978-3-540-27278-6

Editor responsable

Springer Nature

País de edición

Reino Unido

Fecha de publicación

Información sobre derechos de publicación

© Springer-Verlag Berlin Heidelberg 2006

Cobertura temática

fisica

Ciencias físicas

biologia

Ciencias biológicas

otras-ingenierias

Otras ingenierías y tecnologías

Tabla de contenidos

doi: 10.1007/3-540-27278-X_1

Introduction

Bengt Nölting

Is randomness in quantum mechanics “algorithmically random”? Is there any relation between Heisenberg’s uncertainty relation and Gödel’s incompleteness? Can quantum randomness be used to trespass the Turing’s barrier? Can complexity shed more light on incompleteness? In this paper we use variants of “algorithmic complexity” to discuss the above questions.

Pp. 1-4

doi: 10.1007/3-540-27278-X_2

Structures of proteins

Bengt Nölting

Is randomness in quantum mechanics “algorithmically random”? Is there any relation between Heisenberg’s uncertainty relation and Gödel’s incompleteness? Can quantum randomness be used to trespass the Turing’s barrier? Can complexity shed more light on incompleteness? In this paper we use variants of “algorithmic complexity” to discuss the above questions.

Pp. 5-15

doi: 10.1007/3-540-27278-X_3

Physical interactions that determine the properties of proteins

Bengt Nölting

Is randomness in quantum mechanics “algorithmically random”? Is there any relation between Heisenberg’s uncertainty relation and Gödel’s incompleteness? Can quantum randomness be used to trespass the Turing’s barrier? Can complexity shed more light on incompleteness? In this paper we use variants of “algorithmic complexity” to discuss the above questions.

Pp. 17-25

doi: 10.1007/3-540-27278-X_4

Calculation of the kinetic rate constants

Bengt Nölting

Is randomness in quantum mechanics “algorithmically random”? Is there any relation between Heisenberg’s uncertainty relation and Gödel’s incompleteness? Can quantum randomness be used to trespass the Turing’s barrier? Can complexity shed more light on incompleteness? In this paper we use variants of “algorithmic complexity” to discuss the above questions.

Pp. 27-49

doi: 10.1007/3-540-27278-X_5

High kinetic resolution of protein folding events

Bengt Nölting

Is randomness in quantum mechanics “algorithmically random”? Is there any relation between Heisenberg’s uncertainty relation and Gödel’s incompleteness? Can quantum randomness be used to trespass the Turing’s barrier? Can complexity shed more light on incompleteness? In this paper we use variants of “algorithmic complexity” to discuss the above questions.

Pp. 51-77

doi: 10.1007/3-540-27278-X_6

Kinetic methods for slow reactions

Bengt Nölting

Is randomness in quantum mechanics “algorithmically random”? Is there any relation between Heisenberg’s uncertainty relation and Gödel’s incompleteness? Can quantum randomness be used to trespass the Turing’s barrier? Can complexity shed more light on incompleteness? In this paper we use variants of “algorithmic complexity” to discuss the above questions.

Pp. 79-82

doi: 10.1007/3-540-27278-X_7

Resolution of protein structures in solution

Bengt Nölting

Is randomness in quantum mechanics “algorithmically random”? Is there any relation between Heisenberg’s uncertainty relation and Gödel’s incompleteness? Can quantum randomness be used to trespass the Turing’s barrier? Can complexity shed more light on incompleteness? In this paper we use variants of “algorithmic complexity” to discuss the above questions.

Pp. 83-93

doi: 10.1007/3-540-27278-X_8

High structural resolution of transient protein conformations

Bengt Nölting

Is randomness in quantum mechanics “algorithmically random”? Is there any relation between Heisenberg’s uncertainty relation and Gödel’s incompleteness? Can quantum randomness be used to trespass the Turing’s barrier? Can complexity shed more light on incompleteness? In this paper we use variants of “algorithmic complexity” to discuss the above questions.

Pp. 95-123

doi: 10.1007/3-540-27278-X_9

Experimental problems of the kinetic and structural resolution of reactions that involve proteins

Bengt Nölting

Is randomness in quantum mechanics “algorithmically random”? Is there any relation between Heisenberg’s uncertainty relation and Gödel’s incompleteness? Can quantum randomness be used to trespass the Turing’s barrier? Can complexity shed more light on incompleteness? In this paper we use variants of “algorithmic complexity” to discuss the above questions.

Pp. 125-136

doi: 10.1007/3-540-27278-X_10

The folding pathway of a protein (barstar) at the resolution of individual residues from microseconds to seconds

Bengt Nölting

Is randomness in quantum mechanics “algorithmically random”? Is there any relation between Heisenberg’s uncertainty relation and Gödel’s incompleteness? Can quantum randomness be used to trespass the Turing’s barrier? Can complexity shed more light on incompleteness? In this paper we use variants of “algorithmic complexity” to discuss the above questions.

Pp. 137-164