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磁场与生命科学的跨学科研究(英文版)

磁场与生命科学的跨学科研究(英文版)

作者:张欣,王俊峰 著

出版社:科学出版社

出版时间:1900-01-01

ISBN:9787030599100

定价:¥249.00

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内容简介
  《磁场与生命科学的跨学科研究(英文版)》共分16章,介绍了磁场和生命科学在中国的跨学科研究。《磁场与生命科学的跨学科研究(英文版)》作者来自中国科学院,中国科技大学,厦门大学,浙江大学,东南大学,西北工业大学,南京大学等多个科研机构。《磁场与生命科学的跨学科研究(英文版)》涵盖了关于磁场与生命科学交叉学科研究的各种主题,包括磁性纳米粒子及其潜在的医疗应用,静态和低频磁场的生物效应及其潜在的临床应用,技术和应用的核磁共振(NMR)和磁共振成像(MRI)在生命科学研究。重点介绍了中国学者近年来的研究进展,同时也包括了国外学者的一些研究进展。
作者简介
暂缺《磁场与生命科学的跨学科研究(英文版)》作者简介
目录
Contents
Foreword
Preface
Section I Magnetic Fields and Their Biological Effects
Chapter I Medical Theranostics Based on Iron Oxide Nanoparticles under Magnetic Fields 3
1.1 Introduction 3
1.2 Propcrties of IONPs under magnetic ficlds 4
1.3 Pharmacokinetic and biocompability 5
1.4 Contrast agcnts of MRI 7
1.5 Hyperthermal agents 8
1.6 Drug delivcry systcms 12
1.7 Multimodality theranostics systems of magnetic microbubbles, microcapsules and liposomes 13
1.8 0ther thcrapeutic potcntials 17
1.9 Summary and future prospective 20
Rcfercnccs 21
Chapter 2Progress of Static Magnetic Fields and Cancer Research in China 31
2.1 Initial clinical studics showcd that SMFs could inhibit cancor growth in some patients 34
2.2 Ccllular studics show that SMF inhibits multiplc canccr ccll growth but has minimum effects on non-cancer cells 36
2.3 Mcchanisms of canccr inhibition by SMFs studicd at molccular, ccllular and animal levels 37
2.4 SMF in combination with chemodrugs 48
2.5 Paramctcrs that dircctly affoct the outcomcs of SMF cxposurc 50
References 54
Chapter 3Study of SMF's Effects on Cells: Microorganisms: Animals and Plants in NPU 61
3.1The offccts of SMFs on cclls 62
3.2 The effects of SMFs on microorganism 72
3.3 The cffbcts of SMF on small animals 74
3.4 The effects of SMFs on plants 78
Rcfcronccs 80
Chapter 4In Vitro Cellular Response to ELF-MF and RF-EMF 83
4.1 Gap junctional intercellular communication 85
4.2 Epidcrmal growth factor rccoptor (EGFR) clustoring 88
4.3 Stress kinases signaling in response to ELF-MF 91
4.4 Efrcct of ELF-MF and RF-EMF on gonc cxprcssion 92
4.5 Effect of ELF-MF and RF-EMF on protein expression 95
4.6 DNA damage response to EMF exposure 97
Rcfcrcncos 100
Chapter 5Utilization of Magnetic Field for Protein Crystallization 108
5.1 Introduction 109
5.2 Effocts of magnotic fiold on protcin crystallization 117
5.3 Quality of protoin crystals obtainod in the magnctic ficld 125
5.4 Toward applications in practical protein crystallization 133
5.5 Concluding rcmarks and futurc pcrspcctives 135
References 136
Chapter 6High Static Magnetic Fields (SMFs) on Reproduction and Development of an Intact Living Organism: Caenorhabditiselegans 144
6.1Caenorhabditis elegans (C. eleqans) and its rosponsc to magnctic field 146
6.2 Sourco of high SMF and oxposurc proccdurcs 148
6.3 SMFs on the lifespan and development process of C. elega'ns 149
6.4 SMF on brood sizc and gcrmline apoptosis in C. elega'ns 151
6.5SMF on mitochondrial damage and oxidatiw stress in C.elegans 156
References 159
Chapter 7Low FYequency Magnetic Field Regulates Immunity and Inhibits Cancer 164
7.1 Low frcquency magnotic ficld (LF-MF) oxposure systcm 164
7.2 Screening for suitable tumor parameters of LF-MF 166
7.3 Tumor inhibition cffbct of LF-MF 167
7.4 LF-MF modulated the function of immune system 181
7.5 LF-MF inhibited adipogenesis of human mesenchymal stem cells 192
7.6 Research progress of MF in China 197
7.7 Summary 202
References 202
Chapter 8Moderate Intensity Rotating Low Frequency Magnetic Fields and Their Effects on Human Bodies 210
8.1 MIR-LF-MF with different parameters 211
8.2 MIR-LF-MF effects on healthy volunteers 214
8.3 MIR-LF-MF and high-altitude polycythemia (HAPC) 215
8.4 MIR-LF-MF effects on patients with chronic diseases 216
8.5 MIR-LF-MF effects on cancer patients 217
8.6 General effects of MIR-LF-MR on human bodies and working hypothesis 220
8.7 Conclusions and perspectives 222
References 222
Chapter 9 Advances in Static Magnetic Field Safety Studies 224
9.1 Laboratory studies with cells 225
9.2 Laboratory studies with animals 227
9.3 SMF studies with humans 229
9.4 Epidemiological studies 231
References 232
Section 2Nuclear Magnetic Resonance (NMR) and Magnetic Resonance Imaging (MRI)
Chapter 10 Structural Basis of Biomolecular Interactions Studied by NMR Spectroscopy 243
10.1 Expcrimcntal considcrations of NMR-basod structural studics 244
10.2 Proteins related to regulation of gene expression 245
10.3 Proteins in cell junction 255
10.4 NMR mcthodology dcvclopmcnt for macromolccular structurc and dynamics 257
10.5 NMR application in fragmcnt-bascd lcad discovcry 259
10.6 Summary and outlook 261
Rcfcronccs 261
Chapter 11Protein NMR Spectroscopy in Cell-like Environment 268
11.1 The effect of macromolecular crowding on protein structure and function 269
11.2 The effect of confinement on protein structure and function 274
11.3 Protoin cnrichment in living cells 278
11.4 Isotopic labeling for protein NMR in cells 279
11.5 Protein structure and conformation in living cells 280
11.6 Protein dynamics and intoractions in living cells 287
11.7 Perspective 296
Rcfcronccs 296
Chapter 12High-resolution Nuclear Magnetic Resonance Techniques under Inh
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