Verfügbarkeit: Animal and plant stem cells

Animal and plant stem cells: concepts, propagation and engineering

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Bibliographische Detailangaben
1. Verfasser:	Pavlović, Mirjana (VerfasserIn)
Format:	Elektronisch E-Book
Sprache:	English
Veröffentlicht:	Cham Springer 2017
Schlagworte:	Engineering Bioinformatics Plant biochemistry Biomedical engineering Biomedical Engineering Computational Biology/Bioinformatics Plant Biochemistry Ingenieurwissenschaften
Online-Zugang:	BTU01 FAB01 FAW01 FHA01 FHI01 FHN01 FHR01 FKE01 FLA01 FRO01 FWS01 FWS02 TUM01 UBY01 Volltext Inhaltsverzeichnis
Beschreibung:	1 Online-Ressource (xvii, 234 Seiten) Illustrationen
ISBN:	9783319477633
DOI:	10.1007/978-3-319-47763-3

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Datensatz im Suchindex

DE-BY-FWS_katkey	639428
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adam_text	Contents 1 Introduction 1 References 3 Part I Bioengineering and Animal Stem Cells 2 Current Status and Perspectives in Stem Cell Research: The Concept of Normal Stem (NSC) and Cancer Stem Cell (CSC) 7 2 1 Introduction 7 2 2 Sternness, Migration, Circulation, and Seeding 8 2 3 Mobilization 8 2 4 Similarities and Differences Between Embryonic and Adult Stem Cells 9 2 5 Similarities and Differences Between Normal and Cancer Stem Cell 9 2 6 Resume Based upon Similarities and Differences Between NSCs and CSCs 10 2 7 What and Which Molecular Markers of CSCs We Know Today? 11 2 8 Isolation of CSCs Using Magnetic Beads 11 2 9 Theories of Origin of CSCs 11 2 10 Current Tests for Determination of the Presence of CSCs 12 2 11 Sorting and Isolation of CTC Using the Method of Magnetic Levitation 12 2 12 The Emergence/Origin and Development of CSC: Mechanisms 13 2 13 Aberrant Methylation 13 2 14 What Do We Need to Do with the Sum of Information? 14 2 15 How Was the Concept of CSC Therapy Designed? 14 References 14 IX X Contents 3 Essential Characteristics of Stem Cells: Self-renewal, and Plasticity 17 3 1 The Nature of Stem Cells 17 3 2 Self-renewal and Its Significance for Stem Cells 18 3 3 Plasticity/Pluripotency of Animal Stem Cells and Its Mechanisms 19 3 4 Other Features of Significance 19 References 20 4 Stem Cell Sources and Types of Animal Stem Cells 23 4 1 Introduction 23 4 2 Embryonic SCs (ES or ESC) 23 4 3 Fetal Stem Cells (FSC) 24 4 4 Bone Marrow and Other Adult Stem Cells Sources 24 References 26 5 Sternness and Stem Cell Markers 27 5 1 Introduction 27 5 2 Human Embryonic Stem Cell Markers and Pluripotency 28 5 3 Fetal Stem Cell Markers 29 5 4 Cord Blood Stem Cell Markers 30 5 5 Placental Stem Cell Markers 30 5 6 Adult Stem Cell Markers 30 References 31 6 Stem Cell Signaling Molecules and Pathways 33 6 1 Introduction 33 6 2 ESC-Wnt Signaling 35 621 Significant Discoveries in Wnt 35 6 3 Notch Signaling 37 6 4 The Human Hedgehog Signaling 37 6 5 TGF-Beta Signaling 37 6 6 Signaling Mechanisms in Adult Human Cells (HSC and MSC) 37 6 7 Pathways in Adult HSC 39 6 8 Pathways in Adult Mesenchymal Stem Cells 39 6 9 Pathways in CSC 40 6 10 The JAK (Janus Kinase)/STAT3 (Signal Transducer and Activator of Transcription) Signal Mechanism 41 References 42 Contents xi 7 Expansion of Stem Cells: Propagation of Animal Stem Cells Ex Vivo (In Culture) 45 7 1 What Is Expansion and What Do We Expect from Expansion? 45 7 2 Basic Concept—Ex Vivo Expansion of Hematopoietic Cells Today 46 721 Molecules 46 722 Distinct Stimuli 47 723 Media for Expansion 47 724 Hypoxia 47 References 48 8 Stem Cell Pool: What Are the Best Patterns for Cellular Therapy? 51 8 1 Introduction 52 8 2 Organogenesis from Adult Stem Cells and Problems with Different Tissues 54 8 3 Therapeutic Implications for TCSCs as a New Concept 55 8 4 The Concept of VSEL 56 8 5 The Concept of Mesenchymal Stem Cell (MSC) with Dental Pulp Cells (DPSCs) as an Example 60 8 6 Mobilization as a New Noninvasive Therapeutic Concept 62 8 7 New Concepts in Adult Stem Cell Research with Development of New Strategies: Personal Experience in the Light of Significance of Growing Information 63 871 Background and Significance 63 8 8 Directions and Relevant Studies: We and Others 64 8 9 Optimization of Primitive Stem Cell Patterns for Regeneration and Repair 65 References 66 9 Induced Pluripotent Stem Cells (iPSCs) and Nuclear Reprogramming 71 9 1 Breakthrough: Induced Pluripotent Stem Cells (iPSC) 72 911 Reprogramming as a Therapeutic Event 72 9 2 Induced Pluripotent Stem Cells (iPSCs) and Nanotechnology: State of the Art 74 9 3 Nanoparticles for Genetic Reprogramming of Somatic Cells to iPSCs 75 931 Poly(Beta-Amino Ester) Nanoparticle-Based Non-viral Protocol 76 932 Calcium Phosphate Nanoparticle Based Non-viral Protocol 77 Contents 933 Polyketal Nanoparticle-Mediated Non-viral, Non-genetic Approach for Delivery of Mature MicroRNAs 77 934 Non-viral Magnetic Nanoparticle Based Transfection 78 935 The Impact of iPSC upon the Research and Practical Application 79 References 80 10 Cancer Stem Cell Concept 93 References 96 11 Metabolic Reprogramming in Cancer and Metabolic Theory of CSC 99 11 1 Metabolism of CSC: New Explanations and the Old Fundament 99 11 2 Terminology of Energy Metabolism 100 11 3 Coupling of the Respiration with OXPHOX 102 11 4 Mechanisms of ATP Synthesis 102 11 5 Metabolic Abnormalities in Cancer Cells and Mitochondria 102 11 6 The Hallmarks of Cancer Cell Energy Metabolism: The Warburg Effect and the Crabtree Effect 105 11 7 Resume: Energy Metabolism in Cancer Cell Compromised? 107 11 8 The Overview on CSC Metabolic Activity 107 11 9 New Cancer Therapy Concept 109 References 109 12 Concept of Targeted Cancer Stem Cell Therapy and New Versions 113 12 1 The Idea of Targeted Therapy: Before, Now, and in the Future 113 12 2 Can We Use NSCs in the Therapy of Cancer? 114 12 3 Mitochondria as the Target 114 12 4 Other Targeting Possibilities 114 12 5 New Modalities of Targeted Therapy and Idea of Remote Control 115 12 6 Principles of Targeted Therapy Based on Nanoparticles 115 12 7 What is the Best Way to Kill CSC: New Methods? 115 12 8 Different Combinations of Targeted Therapy 115 12 9 The Use of Electromagnetic Fields for Growth Inhibition of CSC 116 12 10 Cancer and Electromagnetism 116 12 11 Different Principles: Drug Delivery Based upon Nanoparticles of Ferrous Oxide 117 Contents xiii 12 12 3D-Printed Tumor Model 117 12 13 Computerized 3D Model for Analysis of Aggregation of Tumorigenic Cells Is Revealing Specialized Behavior and Unique Cell Types Which Accelerate the Aggregation Process 118 12 14 Possible Mechanisms of Tumor Cellular Heterogeneity: Mediated Coalescence? 118 12 15 Summary 118 12 16 Conclusions 119 12 17 A Look Ahead; What Does the Future Say? 120 References 121 13 HLA Typization Choice of Donors: Match or Match Me Not 125 13 1 Distinction Between HLA and MSH Genes Molecules and Functions 125 13 1 1 HLA (H-Histocompatibility Locus Antigen) 125 13 1 2 MHC (Major Histocompatibility Complex) 125 13 1 3 HLA Genes 126 13 1 4 MHC Genes 126 13 1 5 Polygeny and Polymorhysm of MHC 126 13 1 6 The Mechanism of Gene Rearrangement Is Contributing to and Allowing for Antigen Diversity 128 13 1 7 Transplantation Needs Matching to Support Engraftment 128 References 129 14 Engraftment: Homing and Use of Genetic Markers 131 14 1 What is Engraftment/Homing? 131 14 2 Genetic Markers 131 References 132 15 Nanotechnology in Stem Cell Research 133 15 1 Nanotechnology/Nanoparticles 133 References 134 16 Stem Cell Therapy: Optimization, Regeneration, Reprogramming, Expansion, Tissue Engineering 137 16 1 Optimization of the Pattern for Stem Cell Treatment 137 16 2 Regeneration in Animals and Humans 137 16 3 Nuclear Reprogramming as One of the Methodological Modalities to Get iPSC 138 16 4 Significance of Expansion 138 16 5 Stem Cell as a Part of TE Triangle 138 References 139 XIV Contents 17 What Are Positive Results of Stem Cell Therapies? 141 17 1 An Overview of Some Disease States in Which Stem Cells Could Help 141 17 2 Heart Attack 142 17 2 1 Optimization of the Stem Cell Source for Intracoronary Grafting 142 17 3 Physically Induced Injury of Neural Tissues 143 17 4 Degenerative Injuries 144 17 5 Persistent Disease States 146 17 6 Concerns with Stem Cells 147 17 7 The Recovery of the Five Senses with Stem Cells: Are the Concepts Realistic? 148 17 8 Conclusions 151 References 152 18 Topic Novelties in Animal Stem Cell Research 163 18 1 Biomagnetism, Electromagnetism, and Biophotonics 163 References 164 19 Resume 165 19 1 The Directions in Animal Stem Cell Research Development Require Further Work 165 19 2 Quo Vadis? 167 References 167 Part II Plant Stem Cells and Bioengineering 20 Stem Cells in Plants Meristems 171 References 174 21 Shoot and Root Apical Meristems 175 21 1 Shoot Apical Meristems 175 21 1 1 Functional Zones and Layers of Shoot Apical Meristem 176 21 2 Root Meristems 177 References 178 22 Lateral Meristems 179 References 180 23 External Control of the Plant Stem Cells 181 References 182 24 Signaling and Genetic Regulation of the Plant Stem Cells 183 24 1 Signaling and Regulation in Shoot Apical Meristem 183 24 1 1 Regulation by WUS Transcription Factor 184 24 1 2 Regulation by KNOX Genes 186 Contents xv 24 1 3 Signaling Molecules: Auxin 186 24 1 4 Signaling Molecules: Cytokinines 190 24 2 Signaling and Regulation in the Root Apical Meristem 191 24 2 1 Control of the Root Stem Cells via Auxin and PLT Genes 192 24 2 2 Control of the Root Stem Cells by Transcription Factors 193 24 3 Regulation in Vascular Meristems 194 24 4 Regulation in Grass Meristems 196 24 4 1 Phyllotaxy and Plastochron Regulation 197 24 4 2 The Floral Transition 198 24 4 3 Inflorescence Meristem Identity 198 24 5 Similarities of Plant Stem Cells at the Molecular Level 199 References 200 25 Meristems and Primary and Secondary Growth in a Plant 207 References 208 26 Propagation of Plant Stem Cells in Culture 209 References 210 27 Cultured Plant Stem Cells as a Source of Plant Natural Products 211 27 1 Plant Stem Cell Extracts as a Source for Regenerative Therapy of Human Cells 213 References 215 28 Mitochondria, a Vital Organelle in Stem Cell Maintenance 217 28 1 Mitochondria: Energy Metabolism in Animal Normal and Cancer Stem Cells 217 28 2 Mitochondria in Plant Stem Cells 219 28 2 1 Specific Architecture of Mitochondria in Shoot Apical and Leaf Primordial Meristems 219 28 2 2 Role of Dysfunctional Mitochondria in Meristem Regulation 221 28 3 Molecular Difference in Mitochondria Between Plants and Animals 221 References 223 29 Molecular Similarities Between Plant and Animal Stem Cells 225 29 1 Sternness Factors 226 29 2 Stem Cells in Plants and the Method of Clonal Analysis 228 29 3 Homologs of Breast Cancer Genes in Plants 230 29 4 Chromatin States in Animal and Plant Stem Cells 231 29 5 Just Coincidence? 232
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publisher	Springer
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spellingShingle	Pavlović, Mirjana Animal and plant stem cells concepts, propagation and engineering Engineering Bioinformatics Plant biochemistry Biomedical engineering Biomedical Engineering Computational Biology/Bioinformatics Plant Biochemistry Ingenieurwissenschaften
title	Animal and plant stem cells concepts, propagation and engineering
title_auth	Animal and plant stem cells concepts, propagation and engineering
title_exact_search	Animal and plant stem cells concepts, propagation and engineering
title_full	Animal and plant stem cells concepts, propagation and engineering Mirjana Pavlović, Ksenija Radotić
title_fullStr	Animal and plant stem cells concepts, propagation and engineering Mirjana Pavlović, Ksenija Radotić
title_full_unstemmed	Animal and plant stem cells concepts, propagation and engineering Mirjana Pavlović, Ksenija Radotić
title_short	Animal and plant stem cells
title_sort	animal and plant stem cells concepts propagation and engineering
title_sub	concepts, propagation and engineering
topic	Engineering Bioinformatics Plant biochemistry Biomedical engineering Biomedical Engineering Computational Biology/Bioinformatics Plant Biochemistry Ingenieurwissenschaften
topic_facet	Engineering Bioinformatics Plant biochemistry Biomedical engineering Biomedical Engineering Computational Biology/Bioinformatics Plant Biochemistry Ingenieurwissenschaften
url	https://doi.org/10.1007/978-3-319-47763-3 http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=029612989&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT pavlovicmirjana animalandplantstemcellsconceptspropagationandengineering AT radoticksenija animalandplantstemcellsconceptspropagationandengineering

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