Molekulare Mikrobiologie-Labore
Kontakt:
Web:
Infrastrukturzugehörigkeit:
Die molekulare mikrobielle Ökologie ist für das Verständnis der Rolle von Mikroorganismen in Ökosystemen von entscheidender Bedeutung, da sie Einblicke in die mikrobielle Vielfalt, Interaktion und Funktion auf molekularer Ebene ermöglicht. Unsere Labore nutzen moderne Methoden zur Isolierung von DNA und RNA aus der Umwelt, aber auch DNA-Sequenzierung, Metagenomik und die das Quantifizieren mikrobieller Zellen, um die genetischen und metabolischen Fähigkeiten von Mikroorganismen in verschiedenen Ökosystemen der Erde aufzudecken. Dieses Wissen trägt dazu bei, globale Herausforderungen wie Klimawandel, Bodengesundheit und -entwicklung, die nachhaltige Nutzung des Untergrunds und die Erforschung der Grenzen des Lebens zu begegnen.
Die Labore für Molekulare Mikrobiologie konzentrieren sich auf folgende Themen:
-
Isolierung von Nukleinsäuren aus Umweltproben
-
Umwelt-Genomik und Transkriptomik
-
Quantifizierung mikrobieller Zellzahlen und Genkopien
-
Markierung von Umwelt-DNA mittels stabiler Isotope
-
S1-Labor für Arbeit mit gentechnisch veränderten Mikroorganismen
-
Separation von eDNA (external DNA) und iDNA (internal DNA)
Fachspezifische Schlagworte
- Geomicrobiology
- Microbial Studies
- Microbiology
- UV-VIS Spectrophotometry
- Fluorescence Microscopy
- DNA Library Preparation
- Fluorometry
- DNA Isolation
- DNA Extraction
- DNA Sequencing
- Fluorescent In Situ Hybridization
- Next Generation Sequencing
- Polymerase Chain Reaction
- Quantitative Polymerase Chain Reaction
- Gel Documentation
- Electrophoresis
- Gel Electrophoresis
Kategorien
Instrumentierung
Laboratory instrumentation
Instrumente
-
DNA/RNA Extraction Kit
-
Homogenizer
-
PCR Cycler
-
qPCR Cycler
-
PCR Workstation
-
UV-VIS Spectrophotometer
-
Gel Documentation System
-
Electrophoresis Device
-
Gel Electrophoresis Device
-
Fluorescence Microscope
Fluorescence illumination and observation is the most rapidly expanding microscopy technique employed today, both in the medical and biological sciences, a fact which has spurred the development of more sophisticated microscopes and numerous fluorescence accessories. Epi-fluorescence, or incident light fluorescence, has now become the method of choice in many applications and comprises a large part of this tutorial. We have divided the fluorescence section of the primer into several categories to make it easier to organize and download. Please follow the links below to navigate to points of interest. Introductory Concepts - Fluorescence is a member of the ubiquitous luminescence family of processes in which susceptible molecules emit light from electronically excited states created by either a physical (for example, absorption of light), mechanical (friction), or chemical mechanism. Generation of luminescence through excitation of a molecule by ultraviolet or visible light photons is a phenomenon termed photoluminescence, which is formally divided into two categories, fluorescence and phosphorescence, depending upon the electronic configuration of the excited state and the emission pathway. Fluorescence is the property of some atoms and molecules to absorb light at a particular wavelength and to subsequently emit light of longer wavelength after a brief interval, termed the fluorescence lifetime. The process of phosphorescence occurs in a manner similar to fluorescence, but with a much longer excited state lifetime. Anatomy of the Fluorescence Microscope - In contrast to other modes of optical microscopy that are based on macroscopic specimen features, such as phase gradients, light absorption, and birefringence, fluorescence microscopy is capable of imaging the distribution of a single molecular species based solely on the properties of fluorescence emission. Thus, using fluorescence microscopy, the precise location of intracellular components labeled with specific fluorophores can be monitored, as well as their associated diffusion coefficients, transport characteristics, and interactions with other biomolecules. In addition, the dramatic response in fluorescence to localized environmental variables enables the investigation of pH, viscosity, refractive index, ionic concentrations, membrane potential, and solvent polarity in living cells and tissues. Additional information available at: "http://micro.magnet.fsu.edu/primer/techniques/fluorescence/ fluorhome.htm (Source: Global Change Master Directory (GCMD). 2023. GCMD Keywords, Version 16.3. Greenbelt, MD: Earth Science Data and Information System, Earth Science Projects pision, Goddard Space Flight Center (GSFC) National Aeronautics and Space Administration (NASA). URL (GCMD Keyword Forum Page): https://forum.earthdata.nasa.gov/app.php/tag/GCMD+Keywords)
-
Fluorometer
A fluorometer is an instrument that measures the amount of fluorescent radiation produced by a sample exposed to monochromatic radiation. Additional information available at "http://gcmd.gsfc.nasa.gov/cgi-bin/createsensorsupweb" [Summary provided by NOAA] (Source: Global Change Master Directory (GCMD). 2023. GCMD Keywords, Version 16.3. Greenbelt, MD: Earth Science Data and Information System, Earth Science Projects pision, Goddard Space Flight Center (GSFC) National Aeronautics and Space Administration (NASA). URL (GCMD Keyword Forum Page): https://forum.earthdata.nasa.gov/app.php/tag/GCMD+Keywords)