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Author: Zubin Huang
Publisher:
ISBN:
Category :
Languages : en
Pages :
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Book Description
Unlike scanning electron microscopy and transmission electron microscopy, atomic force microscopy (AFM) can examine biological samples in situ without sample fixation. Besides, sample manipulation such as nano-indentation can yield mechanical properties of biological samples. Additional signal channels such as electric signals can be obtained with a functionalized electrochemical probe. AFM can also overcome the optical wavelength limitation of optical microscope to resolve single molecules. In my research, AFM was used to study biological samples ranging from cell colonies, single cells down to single molecules. The recent technique of transducing key transcription factors into unipotent cells (fibroblasts) to generate pluripotent stem cells (induced pluripotent stem cells [iPSCs]) has significantly changed the stem cell field. These cells have great promise for many clinical applications, including that of regenerative medicine. To investigate differences between different cell lines, I looked at cell stiffness as a possible indicator of cell differentiation-potential differences. I used AFM to determine the mechanical properties of cell colonies including fibroblasts, multipotent human adipose-derived stromal cells (hASCs) and pluripotent cells, including gold standard human embryonic stem cells (hESCs), hASC-iPSCs and fibroblasts-iPSCs. From least to most stiff, the order of cell stiffness was as follows: hASC-iPSC, hESC, fibroblast-iPSC, fibroblasts, and hASC. The change in mechanical properties of the cells in response to reprogramming offers insight into how the cell interacts with its environment and might provide clues to efficiently reprogram cell populations and maintain their pluripotent state. To more efficiently use the solar energy harvested by photosynthetic organisms, we evaluated the feasibility of generating bioelectricity by directly extracting electrons from the photosynthetic electron transport chain before they are used to fix CO2 into sugars and polysaccharides. An open micro-fluidic channel system was fabricated to immobilize individual cells (5 to 10 microns in diameter) in an arrayed fashion for AFM manipulated probe access. From a living algal cell, Chlamydomonas reinhardtii, photosynthetic electrons 1.2 pA at 6000 mA/m^2 were directly extracted without a mediator electron carrier by inserting a nano-electrode into the algal chloroplast and applying an overvoltage. This result may represent an initial step in generating "high efficiency" bioelectricity by directly harvesting high energy photosynthetic electrons. Photosystem II (PSII) is a pigment-protein complex that oxidizes water and reduces plastoquinone during photosynthesis. Non-photochemical quenching (NPQ) is a protection mechanism to dissipate excess light energy as heat in high light conditions to prevent the formation of singlet-oxygen, an extremely damaging reactive species. State transition is the major NPQ process in Chlamydomonas. Mobile light harvesting complex (LHCII) antenna will associate with PSII or move away from PSII in state 1 or state 2, respectively. We examined thylakoid membranes purified from cells in different states with AFM to study the supramolecular reorganization of PSII supercomplexes during state transition. This work will help us understand the mechanism of state transition and shed light on how the photosynthetic apparatus acclimates to environmental changes at the supramolecular level.
Author: Zubin Huang
Publisher:
ISBN:
Category :
Languages : en
Pages :
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Book Description
Unlike scanning electron microscopy and transmission electron microscopy, atomic force microscopy (AFM) can examine biological samples in situ without sample fixation. Besides, sample manipulation such as nano-indentation can yield mechanical properties of biological samples. Additional signal channels such as electric signals can be obtained with a functionalized electrochemical probe. AFM can also overcome the optical wavelength limitation of optical microscope to resolve single molecules. In my research, AFM was used to study biological samples ranging from cell colonies, single cells down to single molecules. The recent technique of transducing key transcription factors into unipotent cells (fibroblasts) to generate pluripotent stem cells (induced pluripotent stem cells [iPSCs]) has significantly changed the stem cell field. These cells have great promise for many clinical applications, including that of regenerative medicine. To investigate differences between different cell lines, I looked at cell stiffness as a possible indicator of cell differentiation-potential differences. I used AFM to determine the mechanical properties of cell colonies including fibroblasts, multipotent human adipose-derived stromal cells (hASCs) and pluripotent cells, including gold standard human embryonic stem cells (hESCs), hASC-iPSCs and fibroblasts-iPSCs. From least to most stiff, the order of cell stiffness was as follows: hASC-iPSC, hESC, fibroblast-iPSC, fibroblasts, and hASC. The change in mechanical properties of the cells in response to reprogramming offers insight into how the cell interacts with its environment and might provide clues to efficiently reprogram cell populations and maintain their pluripotent state. To more efficiently use the solar energy harvested by photosynthetic organisms, we evaluated the feasibility of generating bioelectricity by directly extracting electrons from the photosynthetic electron transport chain before they are used to fix CO2 into sugars and polysaccharides. An open micro-fluidic channel system was fabricated to immobilize individual cells (5 to 10 microns in diameter) in an arrayed fashion for AFM manipulated probe access. From a living algal cell, Chlamydomonas reinhardtii, photosynthetic electrons 1.2 pA at 6000 mA/m^2 were directly extracted without a mediator electron carrier by inserting a nano-electrode into the algal chloroplast and applying an overvoltage. This result may represent an initial step in generating "high efficiency" bioelectricity by directly harvesting high energy photosynthetic electrons. Photosystem II (PSII) is a pigment-protein complex that oxidizes water and reduces plastoquinone during photosynthesis. Non-photochemical quenching (NPQ) is a protection mechanism to dissipate excess light energy as heat in high light conditions to prevent the formation of singlet-oxygen, an extremely damaging reactive species. State transition is the major NPQ process in Chlamydomonas. Mobile light harvesting complex (LHCII) antenna will associate with PSII or move away from PSII in state 1 or state 2, respectively. We examined thylakoid membranes purified from cells in different states with AFM to study the supramolecular reorganization of PSII supercomplexes during state transition. This work will help us understand the mechanism of state transition and shed light on how the photosynthetic apparatus acclimates to environmental changes at the supramolecular level.
Author: Christopher Frewin
Publisher: BoD – Books on Demand
ISBN: 9535101145
Category : Medical
Languages : en
Pages : 374
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Book Description
The atomic force microscope (AFM) has become one of the leading nanoscale measurement techniques for materials science since its creation in the 1980's, but has been gaining popularity in a seemingly unrelated field of science: biology. The AFM naturally lends itself to investigating the topological surfaces of biological objects, from whole cells to protein particulates, and can also be used to determine physical properties such as Young's modulus, stiffness, molecular bond strength, surface friction, and many more. One of the most important reasons for the rise of biological AFM is that you can measure materials within a physiologically relevant environment (i.e. liquids). This book is a collection of works beginning with an introduction to the AFM along with techniques and methods of sample preparation. Then the book displays current research covering subjects ranging from nano-particulates, proteins, DNA, viruses, cellular structures, and the characterization of living cells.
Author: Victor J Morris
Publisher: World Scientific
ISBN: 190897821X
Category : Science
Languages : en
Pages : 423
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Book Description
Atomic force microscopy (AFM) is part of a range of emerging microscopic methods for biologists which offer the magnification range of both the light and electron microscope, but allow imaging under the 'natural' conditions usually associated with the light microscope. To biologists, AFM offers the prospect of high resolution images of biological material, images of molecules and their interactions even under physiological conditions, and the study of molecular processes in living systems. This book provides a realistic appreciation of the advantages and limitations of the technique and the present and future potential for improving the understanding of biological systems.The second edition of this bestseller has been updated to describe the latest developments in this exciting field, including a brand new chapter on force spectroscopy. The dramatic developments of AFM over the past ten years from a simple imaging tool to the multi-faceted, nano-manipulating technique that it is today are conveyed in a lively and informative narrative, which provides essential reading for students and experienced researchers alike./a
Author: Cai Shen
Publisher: CRC Press
ISBN: 1000577872
Category : Science
Languages : en
Pages : 457
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Book Description
Atomic force microscopy (AFM) can be used to analyze and measure the physical properties of all kinds of materials at nanoscale in the atmosphere, liquid phase, and ultra-high vacuum environment. It has become an important tool for nanoscience research. In this book, the basic principles of functional AFM techniques and their applications in energy materials—such as lithium-ion batteries, solar cells, and other energy-related materials—are addressed. FEATURES First book to focus on application of AFM for energy research Details the use of advanced AFM and addresses many types of functional AFM tools Enables readers to operate an AFM instrument successfully and to understand the data obtained Covers new achievements in AFM instruments, including electrochemical strain microscopy, and how AFM is being combined with other new methods such as infrared (IR) spectroscopy With its substantial content and logical structure, Atomic Force Microscopy for Energy Research is a valuable reference for researchers in materials science, chemistry, and physics who are working with AFM or planning to use it in their own fields of research, especially energy research.
Author: Toshio Ando
Publisher: Springer Nature
ISBN: 3662647850
Category : Science
Languages : en
Pages : 327
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Book Description
This first book on high-speed atomic force microscopy (HS-AFM) is intended for students and biologists who want to use HS-AFM in their research. It provides straightforward explanations of the principle and techniques of AFM and HS-AFM. Numerous examples of HS-AFM studies on proteins demonstrate how to apply this new form of microscopy to specific biological problems. Several precautions for successful imaging and the preparation of cantilever tips and substrate surfaces will greatly benefit first-time users of HS-AFM. In turn, the instrumentation techniques detailed in Chapter 4 can be skipped, but will be useful for engineers and scientists who want to develop the next generation of high-speed scanning probe microscopes for biology. The book is intended to facilitate the first-time use of this new technique, and to inspire students and researchers to tackle their own specific biological problems by directly observing dynamic events occurring in the nanoscopic world. Microscopy in biology has recently entered a new era with the advent of high-speed atomic force microscopy (HS-AFM). Unlike optical microscopy, electron microscopy, and conventional slow AFM, it allows us to directly observe biological molecules in physiological environments. Molecular “movies” created using HS-AFM can directly reveal how molecules behave and operate, without the need for subsequent complex analyses and roundabout interpretations. It also allows us to directly monitor morphological change in live cells, and dynamic molecular events occurring on the surfaces of living bacteria and intracellular organelles. As HS-AFM instruments were recently commercialized, in the near future HS-AFM is expected to become a common tool in biology, and will enhance and accelerate our understanding of biological phenomena.
Author: Pier Carlo Braga
Publisher: Springer Science & Business Media
ISBN: 1592596479
Category : Science
Languages : en
Pages : 388
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Book Description
The natural, biological, medical, and related sciences would not be what they are today without the microscope. After the introduction of the optical microscope, a second breakthrough in morphostructural surface analysis occurred in the 1940s with the development of the scanning electron microscope (SEM), which, instead of light (i. e. , photons) and glass lenses, uses electrons and electromagnetic lenses (magnetic coils). Optical and scanning (or transmission) electron microscopes are called “far-field microscopes” because of the long distance between the sample and the point at which the image is obtained in comparison with the wavelengths of the photons or electrons involved. In this case, the image is a diffraction pattern and its resolution is wavelength limited. In 1986, a completely new type of microscopy was proposed, which, without the use of lenses, photons, or electrons, directly explores the sample surface by means of mechanical scanning, thus opening up unexpected possibilities for the morphostructural and mechanical analysis of biological specimens. These new scanning probe microscopes are based on the concept of near-field microscopy, which overcomes the problem of the limited diffraction-related resolution inherent in conventional microscopes. Located in the immediate vicinity of the sample itself (usually within a few nanometers), the probe records the intensity, rather than the interference signal, thus significantly improving resolution. Since the most we- known microscopes of this type operate using atomic forces, they are frequently referred to as atomic force microscopes (AFMs).
Author: Yves Dufrene
Publisher: CRC Press
ISBN: 981426797X
Category : Science
Languages : en
Pages : 460
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Book Description
Proceeding from basic fundamentals to applications, this volume provides a comprehensive overview of the use of AFM and related scanning probe microscopies for cell surface analysis. It covers all cell types, from viruses and protoplasts to bacteria and animal cells. It also discusses a range of advanced AFM modalities, including high-resolution imaging, nanoindentation measurements, recognition imaging, and single-molecule and single-cell force spectroscopy. The book covers methodologies for preparing and analyzing cells and membranes of all kinds and highlights recent examples to illustrate the power of AFM techniques in life sciences and nanomedicine.
Author: Greg Haugstad
Publisher: John Wiley & Sons
ISBN: 1118360680
Category : Science
Languages : en
Pages : 496
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Book Description
This book enlightens readers on the basic surface properties and distance-dependent intersurface forces one must understand to obtain even simple data from an atomic force microscope (AFM). The material becomes progressively more complex throughout the book, explaining details of calibration, physical origin of artifacts, and signal/noise limitations. Coverage spans imaging, materials property characterization, in-liquid interfacial analysis, tribology, and electromagnetic interactions. “Supplementary material for this book can be found by entering ISBN 9780470638828 on booksupport.wiley.com”
Author: Arturo M. Baró
Publisher: John Wiley & Sons
ISBN: 3527649824
Category : Science
Languages : en
Pages : 385
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Book Description
About 40 % of current atomic force microscopy (AFM) research is performed in liquids, making liquid-based AFM a rapidly growing and important tool for the study of biological materials. This book focuses on the underlying principles and experimental aspects of AFM under liquid, with an easy-to-follow organization intended for new AFM scientists. The book also serves as an up-to-date review of new AFM techniques developed especially for biological samples. Aimed at physicists, materials scientists, biologists, analytical chemists, and medicinal chemists. An ideal reference book for libraries. From the contents: Part I: General Atomic Force Microscopy * AFM: Basic Concepts * Carbon Nanotube Tips in Atomic Force Microscopy with * Applications to Imaging in Liquid * Force Spectroscopy * Atomic Force Microscopy in Liquid * Fundamentals of AFM Cantilever Dynamics in Liquid * Environments * Single-Molecule Force Spectroscopy * High-Speed AFM for Observing Dynamic Processes in Liquid * Integration of AFM with Optical Microscopy Techniques Part II: Biological Applications * DNA and Protein-DNA Complexes * Single-Molecule Force Microscopy of Cellular Sensors * AFM-Based Single-Cell Force Spectroscopy * Nano-Surgical Manipulation of Living Cells with the AFM
Author: M.T. Bray
Publisher: Springer Science & Business Media
ISBN: 1475793227
Category : Technology & Engineering
Languages : en
Pages : 431
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Book Description
The first U. S. Army Natick Research, Development and Engineering Center Atomic Force/Scanning Tunneling Microscopy (AFM/STM) Symposium was held on lune 8-10, 1993 in Natick, Massachusetts. This book represents the compilation of the papers presented at the meeting. The purpose ofthis symposium was to provide a forum where scientists from a number of diverse fields could interact with one another and exchange ideas. The various topics inc1uded application of AFM/STM in material sciences, polymers, physics, biology and biotechnology, along with recent developments inc1uding new probe microscopies and frontiers in this exciting area. The meeting's format was designed to encourage communication between members of the general scientific community and those individuals who are at the cutting edge of AFM, STM and other probe microscopies. It immediately became clear that this conference enabled interdisciplinary interactions among researchers from academia, industry and government, and set the tone for future collaborations. Expert scientists from diverse scientific areas including physics, chemistry, biology, materials science and electronics were invited to participate in the symposium. The agenda of the meeting was divided into three major sessions. In the first session, Biological Nanostructure, topics ranged from AFM ofDNA to STM imagmg ofthe biomoleeule tubulin and bacterialluciferase to the AFM of starch polymer double helices to AFM imaging of food surfaces.
