Sie sind bereits eingeloggt. Klicken Sie auf 2. tolino select Abo, um fortzufahren.
Bitte loggen Sie sich zunächst in Ihr Kundenkonto ein oder registrieren Sie sich bei bücher.de, um das eBook-Abo tolino select nutzen zu können.
The aim of this volume is to describe the latest advances in microscopic methods, including integrated techniques, as applied to mycology. Each chapter will provide a brief overview of a particular microscopic method with associated advantages and limitations, the research questions that can be appropriately addressed using these microscopic methods, how it has been successfully applied to address mycological research questions, including supporting and complimentary techniques, and which future questions can be addressed.
The aim of this volume is to describe the latest advances in microscopic methods, including integrated techniques, as applied to mycology. Each chapter will provide a brief overview of a particular microscopic method with associated advantages and limitations, the research questions that can be appropriately addressed using these microscopic methods, how it has been successfully applied to address mycological research questions, including supporting and complimentary techniques, and which future questions can be addressed.
Prof. Dr. Tanya Dahms serves as professor of Biochemistry and Microscopy at the University of Regina. She is head of the Dahms group, which currently studies microbial responses to external stimuli, including mechanisms associated with carbohydrate remodeling.
Inhaltsangabe
Applications of Confocal Laser Scanning Microscopy in Filamentous Fungi.- Fluorescence-based Methods for the Study of Protein Localization, Interaction, and Dynamics in Filamentous Fungi.- Super Resolution Microscopy: SIM, STED and Localization Microscopy.- Fourier Transform Infrared (FTIR) Microscopy and Imaging of Fungi.- Whole Cells Imaged by Hard X-ray Transmission Microscopy.- In situ Nanocharacterization of Yeast Cells Using ESEM and FIB.- Imaging Living Yeasts Cells and Quantifying Their Biophysical Properties by Atomic Force Microscopy.- Future Directions in Mycological Microscopy.
Chapter 1. Applications of Confocal Laser Scanning Microscopy in Filamentous Fungi
Rosa R. Mouriño-Pérez, MD, PhD and Robert W. Roberson, MD
Chapter 2. Fluorescence-based Methods for the Study of Protein Localization, Interaction, and Dynamics in Filamentous Fungi
Oier Etxebeste, PhD and Norio Takeshita, PhD
Chapter 3. Super Resolution Microscopy: SIM, STED and Localization Microscopy
James Dodgson, PhD, Anatole Chessel, PhD, Susan Cox, PhD, and Rafael Carazo Salas, PhD
Chapter 4. Fourier Transform Infrared (FTIR) Microscopy and Imaging of Fungi
Annette Naumann, Dipl. Biol.
Chapter 5. Whole Cells Imaged by Hard X-ray Transmission Microscopy
Applications of Confocal Laser Scanning Microscopy in Filamentous Fungi.- Fluorescence-based Methods for the Study of Protein Localization, Interaction, and Dynamics in Filamentous Fungi.- Super Resolution Microscopy: SIM, STED and Localization Microscopy.- Fourier Transform Infrared (FTIR) Microscopy and Imaging of Fungi.- Whole Cells Imaged by Hard X-ray Transmission Microscopy.- In situ Nanocharacterization of Yeast Cells Using ESEM and FIB.- Imaging Living Yeasts Cells and Quantifying Their Biophysical Properties by Atomic Force Microscopy.- Future Directions in Mycological Microscopy.
Chapter 1. Applications of Confocal Laser Scanning Microscopy in Filamentous Fungi
Rosa R. Mouriño-Pérez, MD, PhD and Robert W. Roberson, MD
Chapter 2. Fluorescence-based Methods for the Study of Protein Localization, Interaction, and Dynamics in Filamentous Fungi
Oier Etxebeste, PhD and Norio Takeshita, PhD
Chapter 3. Super Resolution Microscopy: SIM, STED and Localization Microscopy
James Dodgson, PhD, Anatole Chessel, PhD, Susan Cox, PhD, and Rafael Carazo Salas, PhD
Chapter 4. Fourier Transform Infrared (FTIR) Microscopy and Imaging of Fungi
Annette Naumann, Dipl. Biol.
Chapter 5. Whole Cells Imaged by Hard X-ray Transmission Microscopy