Noise in cellular signaling pathways: causes and effects
about
Prostate-associated gene 4 (PAGE4), an intrinsically disordered cancer/testis antigen, is a novel therapeutic target for prostate cancerPhysicochemical properties of cells and their effects on intrinsically disordered proteins (IDPs)A network-oriented perspective on cardiac calcium signalingPrioritizing protein complexes implicated in human diseases by network optimizationAllostery mediates ligand binding to Grb2 adaptor in a mutually exclusive manner.Conformational dynamics of the focal adhesion targeting domain control specific functions of focal adhesion kinase in cells.Integration and global analysis of isothermal titration calorimetry data for studying macromolecular interactions.The Stress-response protein prostate-associated gene 4, interacts with c-Jun and potentiates its transactivation.Asymmetric mRNA localization contributes to fidelity and sensitivity of spatially localized systemsCargo recognition in clathrin-mediated endocytosisDynamic hubs show competitive and static hubs non-competitive regulation of their interaction partnersGlobal multi-method analysis of affinities and cooperativity in complex systems of macromolecular interactionsSiGNet: A signaling network data simulator to enable signaling network inference.Intrinsically disordered proteins and conformational noise: implications in cancerCompetitive interactions of ligands and macromolecular crowders with maltose binding protein.Information transfer by leaky, heterogeneous, protein kinase signaling systems.How to find a leucine in a haystack? Structure, ligand recognition and regulation of leucine-aspartic acid (LD) motifs.Biological messiness vs. biological genius: Mechanistic aspects and roles of protein promiscuity.Distinct cellular states determine calcium signaling responseNew insights into mammalian signaling pathways using microfluidic pulsatile inputs and mathematical modeling.Organelles - understanding noise and heterogeneity in cell biology at an intermediate scale.Regulation of EGFR signal transduction by analogue-to-digital conversion in endosomes.Cell Polarity in Cerebral Cortex Development-Cellular Architecture Shaped by Biochemical Networks.Shaped 3D singular spectrum analysis for quantifying gene expression, with application to the early zebrafish embryo.Noise-processing by signaling networks.Cancer: tilting at windmills?Stochastic effects as a force to increase the complexity of signaling networks.Ultrafast cell switching for recording cell surface transitions: new insights into epidermal growth factor receptor signalling.From invasion to latency: intracellular noise and cell motility as key controls of the competition between resource-limited cellular populations.An optimization framework for network annotation.Real Talk: The Inter-play Between the mTOR, AMPK, and Hexosamine Biosynthetic Pathways in Cell Signaling
P2860
Q26748530-2A3D0B97-3682-48ED-BF14-F0C8857E03BDQ26823798-26CE60A6-EBD2-46A7-A489-1594EBF919E7Q27023389-5CBC4BD0-00EF-424E-8B9B-A56461007042Q28656340-655F215E-F89D-41EF-AB78-6A8A55309757Q30009939-F7B3E72B-9CDF-41BE-BF42-07F39D2F1412Q30368603-6B748577-08C5-4FF7-BDA6-4760D43368B0Q31071302-080A4715-C0DD-48F1-9BA9-D37F7BB1E3B2Q33862856-090FBB20-3632-4B26-A67F-772EF150A817Q34205647-A80AE148-E2DF-4ECC-B0A7-11143C889A1FQ34382206-50529EB4-B30B-4738-ABCA-AC218F3819DEQ34464848-0695F862-F949-4651-A612-37423001B6E5Q36377140-CED1F5AC-33B4-4066-A999-BC237C5F1F70Q36381455-BE776278-25B1-49FB-8E06-1627EDBD58F2Q36604641-F63ACFE0-E87D-45BF-9BC5-A78373E71EF5Q37215757-547D0310-0F65-42CE-8908-C615B973A076Q37519643-4CA9521A-9AA7-4E09-8DA8-84F0183964B3Q38215562-9583CB40-6223-416D-BE93-CB23D99D7EB1Q38248878-58DD308A-678B-40B7-AF6C-5CB2D492EC44Q38726065-F3F78927-2B9C-4E82-82F1-3DFF3987774EQ39014977-9C5794C2-3031-4C9D-9CEC-A5DFC3AEBB67Q39128854-6F9AFFDF-D9D8-4E2B-8951-8A58DE25042FQ39206639-FE734342-90B0-4FD9-91B2-661EA55EFD4EQ39431457-6794031D-17DA-46A0-9EE0-8EF79DD15FC3Q40399742-4740228D-1905-425E-A3FE-7B92A4205FADQ41957138-40E8B008-2A7A-455E-A011-976562D104B8Q42850704-B310D790-6567-4D06-84C6-85EB11BA73CFQ43071235-C30647F0-C3F6-482F-86A1-9FCEF13487EFQ45802502-8C11019B-A1E7-4581-8D99-67DE1A79CB2DQ50939112-8D8E89B6-68EE-4341-A9D1-AA14879F7290Q55514223-22D9568B-A8B6-49FE-9D05-D558A9E6401EQ58761373-87FD12E2-27E7-4042-82DF-0A4DB8729975
P2860
Noise in cellular signaling pathways: causes and effects
description
2012 nî lūn-bûn
@nan
2012年の論文
@ja
2012年論文
@yue
2012年論文
@zh-hant
2012年論文
@zh-hk
2012年論文
@zh-mo
2012年論文
@zh-tw
2012年论文
@wuu
2012年论文
@zh
2012年论文
@zh-cn
name
Noise in cellular signaling pathways: causes and effects
@ast
Noise in cellular signaling pathways: causes and effects
@en
Noise in cellular signaling pathways: causes and effects
@en-gb
type
label
Noise in cellular signaling pathways: causes and effects
@ast
Noise in cellular signaling pathways: causes and effects
@en
Noise in cellular signaling pathways: causes and effects
@en-gb
prefLabel
Noise in cellular signaling pathways: causes and effects
@ast
Noise in cellular signaling pathways: causes and effects
@en
Noise in cellular signaling pathways: causes and effects
@en-gb
P2860
P1476
Noise in cellular signaling pathways: causes and effects
@en
P2860
P304
P356
10.1016/J.TIBS.2012.01.001
P577
2012-02-15T00:00:00Z