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SH domains[electronic resource] :structure, mechanisms and applications /

纪录类型:	书目-语言数据,印刷品 : Monograph/item
[NT 15000414] null:	572.6
[NT 47271] Title/Author:	SH domains : structure, mechanisms and applications // edited by Natalya Kurochkina.
[NT 51406] other author:	Kurochkina, Natalya.
出版者:	Cham : : Springer International Publishing :, 2015.
面页册数:	viii, 253 p. : : ill., digital ;; 24 cm.
Contained By:	Springer eBooks
标题:	Protein-tyrosine kinase.
标题:	Amino acids.
标题:	Life Sciences.
标题:	Protein Science.
标题:	Protein Structure.
标题:	Protein-Ligand Interactions.
标题:	Cell Biology.
ISBN:	9783319200989 (electronic bk.)
ISBN:	9783319200972 (paper)
[NT 15000228] null:	SH3 Domains as Suitable Models to Study Amyloid Aggregation -- SH Domain Proteins in Plants: Roles in Signaling Transduction and Membrane Trafficking -- Versatility of SH3 Domains in the Cellular Machinery -- Structure-Function Relationship of Bacterial SH3 Domains -- Activation of PI3K by Thyroid Hormone Nuclear Receptors -- SH Domains' Interaction with SliMs: Maximizing Adaptivity of Signaling Networks -- SH Domains and Epidermal Growth Factor Receptor -- SH2 Domain Structures and Interactions -- Cytoskeletal Signaling by Src Homology Domain-Containing Adaptor Proteins -- Structure and Function of Jak3- SH2 Domain -- Helical Assemblies and SH Domains.
[NT 15000229] null:	This book covers structure, function, and important roles of the SH domains, structure-function relationships, the versatile nature of their action, mechanisms of aggregation, specificity of interactions, impact of mutations on protein functional dysregulation, and cell signaling. Their involvement in various cellular processes such as migration, invasiveness, actin reorganization, shaping spines, determination of the morphology assembly of fibrils, and mechanotransduction makes these molecules attractive drug targets. Substrates, inhibitors and activators of PTKs present a wide variety of therapeutic agents in the context of delivering treatments for numerous pathologies. The new emerging field of stem cell therapies and design of biomaterials for treatments relies on the directed regulation of stem cell growth, differentiation and morphology, as well as the production of biomimetic scaffolds that respond to programmed signals. Advances in deciphering the mechanisms of action of these important molecules will lead to the implementation and success of their vital applications.
电子资源:	http://dx.doi.org/10.1007/978-3-319-20098-9

SH domains[electronic resource] :structure, mechanisms and applications /
SH domainsstructure, mechanisms and applications /[electronic resource] :edited by Natalya Kurochkina. - Cham :Springer International Publishing :2015. - viii, 253 p. :ill., digital ;24 cm.

SH3 Domains as Suitable Models to Study Amyloid Aggregation -- SH Domain Proteins in Plants: Roles in Signaling Transduction and Membrane Trafficking -- Versatility of SH3 Domains in the Cellular Machinery -- Structure-Function Relationship of Bacterial SH3 Domains -- Activation of PI3K by Thyroid Hormone Nuclear Receptors -- SH Domains' Interaction with SliMs: Maximizing Adaptivity of Signaling Networks -- SH Domains and Epidermal Growth Factor Receptor -- SH2 Domain Structures and Interactions -- Cytoskeletal Signaling by Src Homology Domain-Containing Adaptor Proteins -- Structure and Function of Jak3- SH2 Domain -- Helical Assemblies and SH Domains.

This book covers structure, function, and important roles of the SH domains, structure-function relationships, the versatile nature of their action, mechanisms of aggregation, specificity of interactions, impact of mutations on protein functional dysregulation, and cell signaling. Their involvement in various cellular processes such as migration, invasiveness, actin reorganization, shaping spines, determination of the morphology assembly of fibrils, and mechanotransduction makes these molecules attractive drug targets. Substrates, inhibitors and activators of PTKs present a wide variety of therapeutic agents in the context of delivering treatments for numerous pathologies. The new emerging field of stem cell therapies and design of biomaterials for treatments relies on the directed regulation of stem cell growth, differentiation and morphology, as well as the production of biomimetic scaffolds that respond to programmed signals. Advances in deciphering the mechanisms of action of these important molecules will lead to the implementation and success of their vital applications.

ISBN: 9783319200989 (electronic bk.)

Standard No.: 10.1007/978-3-319-20098-9doiSubjects--Topical Terms:

603795
Protein-tyrosine kinase.

LC Class. No.: QP606.P78

Dewey Class. No.: 572.6

SH domains[electronic resource] :structure, mechanisms and applications /
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505 0 $a SH3 Domains as Suitable Models to Study Amyloid Aggregation -- SH Domain Proteins in Plants: Roles in Signaling Transduction and Membrane Trafficking -- Versatility of SH3 Domains in the Cellular Machinery -- Structure-Function Relationship of Bacterial SH3 Domains -- Activation of PI3K by Thyroid Hormone Nuclear Receptors -- SH Domains' Interaction with SliMs: Maximizing Adaptivity of Signaling Networks -- SH Domains and Epidermal Growth Factor Receptor -- SH2 Domain Structures and Interactions -- Cytoskeletal Signaling by Src Homology Domain-Containing Adaptor Proteins -- Structure and Function of Jak3- SH2 Domain -- Helical Assemblies and SH Domains.
520 $a This book covers structure, function, and important roles of the SH domains, structure-function relationships, the versatile nature of their action, mechanisms of aggregation, specificity of interactions, impact of mutations on protein functional dysregulation, and cell signaling. Their involvement in various cellular processes such as migration, invasiveness, actin reorganization, shaping spines, determination of the morphology assembly of fibrils, and mechanotransduction makes these molecules attractive drug targets. Substrates, inhibitors and activators of PTKs present a wide variety of therapeutic agents in the context of delivering treatments for numerous pathologies. The new emerging field of stem cell therapies and design of biomaterials for treatments relies on the directed regulation of stem cell growth, differentiation and morphology, as well as the production of biomimetic scaffolds that respond to programmed signals. Advances in deciphering the mechanisms of action of these important molecules will lead to the implementation and success of their vital applications.
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