Verfügbarkeit: Tutorials in mathematical biosciences

Tutorials in mathematical biosciences: 2 Mathematical modeling of calcium dynamics and signal transduction

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Format:	Buch
Sprache:	English
Veröffentlicht:	Berlin [u.a.] Springer 2005
Schriftenreihe:	Lecture notes in mathematics 1867 : Mathematical biosciences subseries
Schlagworte:	matematični modeli - kalcijeva dinamika - molekularne osnove srčnega utripa - krčenje mišic - generiranje sile - prenos signalov - sinaptični modeli mathematical models - calcium dynamics - molecular basis for cardiac excitation - contraction coupling - contracting muscles - generation of force - signal transduction - synaptic models Biophysik Cytologie Physiologie Konferenzschrift
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	XII, 202 S. Ill., graph. Darst.
ISBN:	3540254390

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Datensatz im Suchindex

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adam_text	Contents Basic Concepts of Ca2+ Signaling in Cells and Tissues M. J. Sanderson .................................................. 1 1 Introduction ............................................... 1 2 Са2 1 Stores and Pumps ..................................... 1 3 Ca2+ Release Channels ...................................... 3 4 Signaling by Ca2+ Transients ................................ 4 5 Cell Signaling by Ca2+ Oscillations ........................... 5 5.1 FM Regulation of Cell Activity .......................... 6 6 Spatial Aspects of Ca2+ Signaling ............................ 8 6.1 Elemental Ca2+ Signals ................................. 8 6.2 Microdomains of Ca2 1 Signaling ......................... 8 6.3 Intracellular Ca2 1 Waves ............................... 9 6.4 Intercellular Ca2 1 Waves ................................ 10 6.5 Extracellular Ca2+ Waves ............................... 12 7 Summary .................................................. 12 References ...................................................... 12 Modeling ІРз -Dependent Calcium Dynamics in Non-Excitable Cells J. Sneyd ........................................................ 15 1 Introduction ............................................... 15 2 Calcium Oscillations and Waves .............................. 18 3 Well-Mixed Cell Models: Calcium Oscillations .................. 22 3.1 Influx ................................................ 23 3.2 Mitochondria .......................................... 24 3.3 Calcium Buffers ....................................... 24 3.4 Calcium Pumps and Exchangers ......................... 24 3.4.1 Calcium ATPases ................................. 24 3.4.2 Calcium Exchangers .............................. 28 3.5 IP3 Receptors ......................................... 28 3.5.1 An 8-State IP3 Receptor Model .................... 29 VIII Contents 3.5.2 A Model with Saturating Binding Rates ............. 30 3.6 Putting the Pieces Together: a Model of Calcium Oscillations 35 3.7 IP3 Dynamics ......................................... 37 4 Calcium Waves ............................................. 40 4.1 Simulation of Spiral Waves in Xenopus ................... 42 4.2 Traveling Wave Equations and Bifurcation Analysis ........ 42 5 Calcium Buffering .......................................... 46 5.1 Fast Buffers or Excess Buffers ........................... 46 6 Calcium Puffs and Stochastic Modeling ........................ 49 6.1 Stochastic IPR Models ................................. 49 6.2 Stochastic Models of Calcium Waves ..................... 52 7 Intercellular Calcium Waves ................................. 53 References ...................................................... 54 Integrated Calcium Management in Cardiac Myocytes T.R. Shannon ................................................... 63 1 Introduction ............................................... 63 2 Geometry of the Cardiac Myocyte ............................ 63 3 Overview of Excitation-Contraction Coupling .................. 66 4 Action Potentials ........................................... 67 4.1 The Resting Potential .................................. 68 4.2 Construction of the AP Waveform ....................... 71 5 Ca Channels ............................................... 73 6 The SR Ca Release Channel ................................. 76 7 Ca-Induced Ca Release ...................................... 79 8 Na-Ca Exchange ........................................... 81 9 SL Ca Pump ............................................... 85 10 SR Ca Pump .............................................. 85 11 The Balance of Fluxes ...................................... 88 12 Myocyte Contraction ........................................ 89 References ...................................................... 92 Mechanisms and Models of Cardiac Excitation-Contraction Coupling R.L. Winslow, R. Hinch, J.L. Greenstein ........................... 97 1 Introduction ............................................... 97 2 The Molecular and Structural Basis of Cardiac EC Coupling ..................................... 98 2.1 Structural Basis of EC Coupling ......................... 98 2.2 The Molecular Basis of Cardiac EC Coupling .............. 2.2.1 Properties of LCCs ............................... 2.2.2 Properties of RyRs ............................... 10° 2.2.3 Calcium-Induced Calcium-Release .................. 10 2.2.4 Ca2+ Re-Uptake and Extrusion .................... 103 3 Computational Models of Cardiac EC Coupling ................ 10 Contents IX 3.1 Common Pool Models of CICR ..........................104 3.1.1 Strengths of Common Pool Models .................105 3.1.2 Weaknesses of Common Pool Models ................105 3.2 A Stochastic Local-Control Model of CICR ................107 3.3 Coupled LCC-RyR Gating Models of CICR ...............112 3.3.1 A Minimal Coupled LCC-RyR Gating Model .......112 3.3.2 Generalized Coupled LCC-RyR Gating Models .......118 4 Modeling Applications ......................................121 4.1 AP Duration Regulation in Heart Failure .................121 4.2 A General Mechanism for Regulation of AP Duration .......123 5 Discussion .................................................125 5.1 Regulation of Cardiac EC Coupling by Signaling Pathways . . 125 5.2 Dyadic Ca2+ Dynamics .................................126 5.3 Localized Signaling within Molecular Complexes ...........126 References ......................................................127 Mathematical Analysis of the Generation of Force and Motion in Contracting Muscle E. Pate .........................................................133 1 Introduction ...............................................133 2 A.F. Huxley s Cross-Bridge Model ............................135 3 Isometric Contraction .......................................138 4 Isotonic Contraction ........................................141 5 Transient Simulations .......................................146 6 Analysis of Systems of Small Numbers of Cross-Bridges ............................................148 References ......................................................152 Signal Transduction in Vertebrate Olfactory Receptor Cells J. Reisert .......................................................155 1 The Odour-Induced Response in Olfactory Receptor Cells ..................................155 2 Olfactory Signal Transduction ................................158 2.1 The Olfactory G Protein-Coupled Cascade ................158 2.2 The Olfactory Cyclic Nucleotide-Gated Channel: A Source of Ca2+ ......................................159 2.3 The Olfactory Ca2+-activated СГ Channel: A Large Secondary Current .............................160 2.4 Adaptation and Modulation of the Odour Response ........162 3 Mathematical Approaches in Olfaction ........................164 References ......................................................165 X Contents Mathematical Models of Synaptic Transmission and Short-Term Plasticity R. Bertram .....................................................173 1 Introduction ...............................................173 2 Neurotransmitter Release is Evoked by Ca2+ Influx .............174 3 Primed Vesicles are Located Close to Ca2+ Channels ............175 4 Reaction-Diffusion Equations ................................175 5 The Simon and Llinás Model .................................176 6 Steady-State Approximations for Ca2+ Microdomains .....................................177 7 Modeling the Postsynaptic Response ..........................180 8 A Simple Model ............................................182 9 Short-Term Plasticity .......................................184 10 Mathematical Models for Facilitation .........................185 11 Residual Free Ca2+ Models ..................................186 12 A Residual Bound Ca2+ Model for Facilitation .................190 13 A Model for Facilitation Based on Buffer Saturation ............192 14 Synaptic Depression ........................................193 15 G Protein Inhibition of Presynaptic Ca2+ Channels .............195 16 Conclusion .................................................197 References ......................................................198
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series	Lecture notes in mathematics
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spelling	Tutorials in mathematical biosciences 2 Mathematical modeling of calcium dynamics and signal transduction James Sneyd (ed.). With contributions by: R. Bertram ... Berlin [u.a.] Springer 2005 XII, 202 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Lecture notes in mathematics 1867 : Mathematical biosciences subseries Lecture notes in mathematics ... matematični modeli - kalcijeva dinamika - molekularne osnove srčnega utripa - krčenje mišic - generiranje sile - prenos signalov - sinaptični modeli mathematical models - calcium dynamics - molecular basis for cardiac excitation - contraction coupling - contracting muscles - generation of force - signal transduction - synaptic models Biophysik swd Cytologie swd Physiologie swd (DE-588)1071861417 Konferenzschrift gnd-content Borisyuk, Alla Sonstige oth Sneyd, James Sonstige oth Bertram, R. Sonstige oth (DE-604)BV019769353 2 Lecture notes in mathematics 1867 : Mathematical biosciences subseries (DE-604)BV000676446 1867 Digitalisierung TU Muenchen application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=013202609&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Tutorials in mathematical biosciences Lecture notes in mathematics matematični modeli - kalcijeva dinamika - molekularne osnove srčnega utripa - krčenje mišic - generiranje sile - prenos signalov - sinaptični modeli mathematical models - calcium dynamics - molecular basis for cardiac excitation - contraction coupling - contracting muscles - generation of force - signal transduction - synaptic models Biophysik swd Cytologie swd Physiologie swd
subject_GND	(DE-588)1071861417
title	Tutorials in mathematical biosciences
title_auth	Tutorials in mathematical biosciences
title_exact_search	Tutorials in mathematical biosciences
title_full	Tutorials in mathematical biosciences 2 Mathematical modeling of calcium dynamics and signal transduction James Sneyd (ed.). With contributions by: R. Bertram ...
title_fullStr	Tutorials in mathematical biosciences 2 Mathematical modeling of calcium dynamics and signal transduction James Sneyd (ed.). With contributions by: R. Bertram ...
title_full_unstemmed	Tutorials in mathematical biosciences 2 Mathematical modeling of calcium dynamics and signal transduction James Sneyd (ed.). With contributions by: R. Bertram ...
title_short	Tutorials in mathematical biosciences
title_sort	tutorials in mathematical biosciences mathematical modeling of calcium dynamics and signal transduction
topic	matematični modeli - kalcijeva dinamika - molekularne osnove srčnega utripa - krčenje mišic - generiranje sile - prenos signalov - sinaptični modeli mathematical models - calcium dynamics - molecular basis for cardiac excitation - contraction coupling - contracting muscles - generation of force - signal transduction - synaptic models Biophysik swd Cytologie swd Physiologie swd
topic_facet	matematični modeli - kalcijeva dinamika - molekularne osnove srčnega utripa - krčenje mišic - generiranje sile - prenos signalov - sinaptični modeli mathematical models - calcium dynamics - molecular basis for cardiac excitation - contraction coupling - contracting muscles - generation of force - signal transduction - synaptic models Biophysik Cytologie Physiologie Konferenzschrift
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=013202609&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
volume_link	(DE-604)BV019769353 (DE-604)BV000676446
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