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E-raamat: Natural Biomarkers for Cellular Metabolism: Biology, Techniques, and Applications

Edited by (University of North Carolina, Chapel Hill, USA), Edited by (University of Minnesota, Duluth, USA)
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From the Lab to Clinical SettingsAdvances in Quantitative, Noninvasive Optical Diagnostics

Noninvasive fluorescence imaging techniques, novel fluorescent labels, and natural biomarkers are revolutionizing our knowledge of cellular processes, signaling and metabolic pathways, the underlying mechanisms for health problems, and the identification of new therapeutic targets for drug discoveries. Natural Biomarkers for Cellular Metabolism: Biology, Techniques, and Applications delves into the current state of knowledge on intrinsic fluorescent biomarkers and highlights recent developments in using these biomarkers for the metabolic mapping and clinical diagnosis of healthy and diseased cells and tissues.

Autofluorescent Biomarkers for Biomedical Diagnostics

The books first section introduces the fundamentals of cellular energy metabolism as well as natural biomarkers within the context of their biological functions. The second section outlines the theoretical and technical background of quantitative, noninvasive, autofluorescence microscopy and spectroscopy methods, including experimental design, calibration, pitfalls, and remedies of data acquisition and analysis. The last two sections highlight advances in biomedical and biochemical applications, such as monitoring stem cell differentiation in engineered tissues and diagnosing cancer and ophthalmic diseases quantitatively and noninvasively.

Tailored to Interdisciplinary Researchers

Covering cell biology, imaging techniques, and clinical diagnostics, this book provides readers with a complete guide to studying cellular/tissue metabolism under healthy, diseased, and environment-induced stress conditions using natural biomarkers. The book is designed for graduate and advanced undergraduate students, biophysics instructors, medical researchers, and those in pharmaceutical R&D.
Series Preface ix
Foreword: Britton Chance---Appreciation xi
Preface xvii
Editors xix
Contributors xxi
Abbreviations xxiii
SECTION I Biochemical, Biological, and Biophysical Background
1 Mitochondria and Energy Metabolism: Networks, Mechanisms, and Control
3(38)
Ilmo E. Hassinen
2 Intracellular Autofluorescent Species: Structure, Spectroscopy, and Photophysics
41(26)
Nobuhiro Ohta
Takakazu Nakabayashi
SECTION II Autofluorescence Imaging Techniques: Fundamentals and Applications
3 One-Photon Autofluorescence Microscopy
67(10)
Narasimhan Rajaram
Nirmala Ramanujam
4 Autofluorescence Lifetime Imaging
77(30)
Michael G. Nichols
Krishna Ward
Lyandysha V. Zholudeva
Heather Jensen Smith
Richard Hallworth
5 Polarization Imaging of Cellular Autofluorescence
107(30)
Harshad D. Vishwasrao
Qianru Yu
Kuravi Hewawasam
Ahmed A. Heikal
6 Real-Time In Vivo Monitoring of Cellular Energy Metabolism
137(20)
Avraham Mayevsky
Efrat Barbiro-Michaely
7 Tryptophan as an Alternative Biomarker for Cellular Energy Metabolism
157(22)
Vinod Jyothikumar
Yuansheng Sun
Ammasi Periasamy
8 Alternative Approaches to Optical Sensing of the Redox State
179(22)
Yi Yang
SECTION III Natural Biomarkers for Biochemical and Biological Studies
9 Spatiotemporal Detection of NADH-Linked Enzyme Activities in Single Cell Metabolism
201(14)
V. Krishnan Ramanujan
10 NAD(P)H and FAD as Biomarkers for Programmed Cell Death
215(10)
Hsing-Wen Wang
11 Monitoring Stem Cell Differentiation in Engineered Tissues
225(20)
Kyle P. Quinn
Irene Georgakoudi
SECTION IV Autofluorescence as a Diagnostic Tool in Medicine and Health
12 Autofluorescence-Assisted Examination of Cardiovascular System Physiology and Pathology
245(28)
Alzbeta Marcek Chorvatova
13 Autofluorescence Perspective of Cancer Diagnostics
273(26)
Lin Z. Li
Nannan Sun
14 Dynamic Imaging of Intracellular Coenzyme Autofluorescence in Intact Pancreatic Islets
299(18)
Alan K. Lam
Jonathan V. Rocheleau
15 Autofluorescence Diagnostics of Ophthalmic Diseases
317(30)
Dietrich Schweitzer
16 Pathogen Effects on Energy Metabolism in Host Cells
347(26)
Marta Szaszak
Jan Rupp
Index 373
Vladimir V. Ghukasyan is a research assistant professor in the Department of Cell Biology and Physiology and a director of the Confocal and Multiphoton Imaging Facility of the Neuroscience Center at the University of North Carolina at Chapel Hill. He earned a PhD in biology from the Institute of Biotechnology, Yerevan, Armenia, and completed postdoctoral training at the Institute of Biophotonics, Taipei, Taiwan.

Ahmed A. Heikal is a professor in the Department of Chemistry and Biochemistry, Swenson College of Science and Engineering at the University of Minnesota Duluth. His research interests in molecular and cellular biophysics were inspired by his work with Watt W. Webb as a postdoctoral associate at Cornell University. Dr. Heikal earned a PhD in applied physics from the California Institute of Technology under the supervision of Nobel Laureate Ahmed H. Zewail.
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