• The principle of confocal imaging was patented in 1957 by Marvin Minsky and aims to overcome some limitations of traditional wide-field fluorescence microscopes. (wikipedia.org)
  • PCC 6803 cells using hyperspectral confocal fluorescence microscopy and multivariate image analysis. (osti.gov)
  • We propose an alternate minimization algorithm for estimating the point-spread function (PSF) of a confocal laser scanning microscope and the specimen fluorescence distribution. (inria.fr)
  • 1 - Blind deconvolution for diffraction-limited fluorescence microscopy . (inria.fr)
  • Optical Sections of biological samples obtained from a fluorescence Confocal Laser Scanning Microscopes (CLSM) are often degraded by out-of-focus blur and photon counting noise. (inria.fr)
  • The new instrument will permit two-photon excitation of fluorescence, enhancing greatly the confocal and spatial performance. (ukri.org)
  • The microscopy lab is home to a Nikon fluorescence microscope with TIRF and photoactivation capabilities and an Olympus laser scanning confocal microscope. (ualberta.ca)
  • An evaluation of confocal versus conventional imaging of biological structures by fluorescence light microscopy. (rupress.org)
  • This has recently led to a return of light microscopy to the frontlines of biological research, with confocal and multiphoton fluorescence applications leading the way. (fsu.edu)
  • Listed below are links to resources on the web for multiphoton fluorescence microscopy including microscope and laser manufacturers, university laboratories, industrial imaging laboratories, technical white papers and tutorials. (fsu.edu)
  • Debye Institute at Utrecht University - Sponsored by the Molecular Biophysics research group at Utrecht, this website features information about the faculty, who are active in the fields of fluorescence microscopy, spectroscopy and computer simulations and their applications to biological systems. (fsu.edu)
  • Also included are several links to other websites that are focused on multiphoton fluorescence microscopy. (fsu.edu)
  • This department is headed by Dr. Stefan W. Hell, a noted expert in fluorescence microscopy. (fsu.edu)
  • Included on the website are a series of tutorials on various phases of fluorescence microscopy, a listing of publications, and a frequently asked questions section on optical microscopy. (fsu.edu)
  • Also of note are recent developments in total internal reflection fluorescence microscopy, into which Olympus America provides some insight. (photonics.com)
  • In another feature, Leica engineers explore recent developments in fluorescence and forensic microscopy. (photonics.com)
  • The goal of this course is to provide graduate students with a fundamental knowledge in various aspects of light microscopy, including modern fluorescence imaging techniques, digital image processing and analysis with emphasis on how to optimally image and analyze biological samples. (purdue.edu)
  • There has been a tremendous explosion in the popularity of confocal microscopy in recent years, due in part to the relative ease with which extremely high-quality images can be obtained from specimens prepared for conventional fluorescence microscopy, and the growing number of applications in cell biology that rely on imaging both fixed and living cells and tissues. (olympusconfocal.com)
  • Presented in Figure 1 are a series of images that compare selected viewfields in traditional widefield and laser scanning confocal fluorescence microscopy. (olympusconfocal.com)
  • Likewise, widefield fluorescence imaging of whole rabbit muscle fibers stained with fluorescein produce blurred images (Figure 1(b)) lacking in detail, while the same specimen field (Figure 1(e)) reveals a highly striated topography in confocal microscopy. (olympusconfocal.com)
  • The proposal will apply an interdisciplinary approach in an international environment to maximize its chances of success: the biological role of reading domains will be evaluated with molecular biology (histone and chromatin pulldowns, ChIP-seq, confocal microscopy), biochemistry (Peptide arrays, mass spectrometry, methyltransferase activity assays) and biophysics techniques (fluorescence anisotropy, circular dichroism spectroscopy) as well as crystallography (solving the structure of reading domains). (europa.eu)
  • Then, physicochemical characterisation methods such as XPS and fluorescence confocal microscopy were carried out on films together with in vitro cell-based assays. (upc.edu)
  • 3D and 4D (3D + time) Fluorescence Microscopy implies the acquisition of optical sections that need processing to render informative 3D reconstructions. (cabd.es)
  • 5. Fluorescence Microscopy Zeiss Axio Imager. (cabd.es)
  • This course will provide an introduction to fluorescence microscopy and live cell imaging and will be composed of lectures and associated hands-on sessions. (unibas.ch)
  • The lecture series covers basics of light and fluorescence microscopy and gives an overview on image processing. (unibas.ch)
  • A short introduction and hands-on training of optical and electron microscopy as well as fluorescence and confocal laser scanning microscopy is included. (lu.se)
  • Confocal fluorescence microscopy images of phospholipid bilayers supported by gallium phosphide nanowires. (lu.se)
  • The course includes an introduction to microscopy, with emphasis on fluorescence microscopy, and theoretical principles of confocal microscopy and image deconvolution. (lu.se)
  • carry out studies where biological structures or functions are visualised using methods based on fluorescence microscopy. (lu.se)
  • understand the limitations and possibilities when using different methods based on light and fluorescence microscopy. (lu.se)
  • A theoretical introduction to microscopy with an emphasis on fluorescence microscopy. (lu.se)
  • Confocal microscopes work on the principle of point excitation in the specimen (diffraction limited spot) and point detection of the resulting fluorescent signal. (wikipedia.org)
  • Four types of confocal microscopes are commercially available: Confocal laser scanning microscopes use multiple mirrors (typically 2 or 3 scanning linearly along the x- and the y- axes) to scan the laser across the sample and "descan" the image across a fixed pinhole and detector. (wikipedia.org)
  • Spinning-disk (Nipkow disk) confocal microscopes use a series of moving pinholes on a disc to scan spots of light. (wikipedia.org)
  • You will learn techniques such as immunohistochemistry, cell culture, and gene sequencing, and have access to state-of-the-art equipment such as electron and confocal microscopes, and next-generation sequencing technology. (otago.ac.nz)
  • Also offered by Leica are a wide spectrum of confocal microscope systems and a complete line-up of microscopes for industry, education, and biological research. (fsu.edu)
  • When it became available for biological microscopes, researchers let manufacturers know what they needed so as to use this new science consistently, and manufacturers responded with special optics, lighting, highly accurate focus capability, sensitive cameras and software. (photonics.com)
  • The facility contains two Zeiss LSM510 Meta confocal microscopes which can be booked and operated independently of each other. (sheffield.ac.uk)
  • In addition, epifluorescent microscopes generally use the line-spectrum produced by a high pressure mercury bulb for sample excitation, whereas a confocal microscope uses monochromatic lasers to excite the sample. (sheffield.ac.uk)
  • There is also an introduction to electron microscopy and some "imaging methods" that are not based on optical microscopes. (lu.se)
  • Suitable for confocal fluorescent imaging and super resolution microscopy (SRM) techniques, such as dSTORM (live and fixed cells). (tocris.com)
  • Experience in cellular microbiology, cell biology, confocal and super-resolution microscopy, genetics, and transcriptional and post-transcriptional regulation of gene expression would be advantageous. (uci.edu)
  • 2 - Richardson-Lucy Algorithm with Total Variation Regularization for 3D Confocal Microscope Deconvolution . (inria.fr)
  • Then, to test the limits of this system, they combined this triple-view method with line-scanning confocal microscopy and deconvolution to visualize the nuclei of an entire fixed Caenorhabditis elegans nematode labeled with NucSpot® Live 488 . (biotium.com)
  • Theoretical principles of confocal microscopy and deconvolution microscopy. (lu.se)
  • Multiphoton confocal microscopy uses a focused beam of photons to provide high-resolution images of tissue in vivo at depths up to 600 μm. (warf.org)
  • Among the numerous techniques available at the facility are scanning confocal microscopy, single-lens theta microscopy, and photon-force microscopy, a derivative of multiphoton microscopy. (fsu.edu)
  • Cornell University Chronicle - Multiphoton Microscopy - This article describes the development of multiphoton microscopy by Cornell professor Watt W. Webb and his colleagues. (fsu.edu)
  • Laser Scanning Microscopy - Dr. Bruce Jenks, a researcher at the University of Nijmegen in the Netherlands, has constructed a single-page tutorial on confocal and multiphoton laser microscopy. (fsu.edu)
  • The Leica TCS MP (multiphoton) microscopy system exemplifies the commitment of Leica Microsystems to innovation. (fsu.edu)
  • Multifocal Multiphoton Microscopy - Sponsored by the Applied Laserphysics department at the University of Bielefeld in Germany, this website has a mini-tutorial on the basic aspects of multiphoton microscopy. (fsu.edu)
  • Confocal and multiphoton imaging techniques are still the methods of choice for performing sophisticated studies on biological samples. (leica-microsystems.com)
  • Established in 2000, the CNS has been awarded a total of $10,000,000 in CFI and MRI funds to expand and upgrade all aspects of the centre including the addition of a spinning disk confocal, in vivo multiphoton imaging and physiological and behavioral analysis systems. (utoronto.ca)
  • Even though resolution is somewhat enhanced with confocal microscopy over conventional widefield techniques, it is still considerably less than that of the transmission electron microscope. (olympusconfocal.com)
  • This approach generalizes across different modalities, including serially-sectioned scanning electron microscopy (sSEM) of genetically labeled and contrast enhanced processes, spectral confocal reflectance (SCoRe) microscopy, and high-energy synchrotron X-ray microtomography ( μ CT) of large tissue volumes. (springer.com)
  • Brain imaging techniques from microscopy such as serially-sectioned scanning electron microscopy (sSEM), high-energy synchrotron X-ray microtomography ( μ CT), and spectral confocal reflectance (SCoRe) microscopy provide high-quality images with nanoscale or single-neuron resolution. (springer.com)
  • Thickness gradients of insect setae are well known in various adhesive setae due to numerous scanning electron microscopy studies [1] . (beilstein-journals.org)
  • Thomas Deerinck is a research scientist at the National Center for Microscopy and Imaging Research and the Center for Research on Biological Systems at the University of California, San Diego and specializes in the development of methods for confocal, 2-photon and electron microscopic imaging of biological specimens. (nikonsmallworld.com)
  • This may be performed using either light or electron microscopy, as discussed below. (cdc.gov)
  • If samples are grossly contaminated by nonasbestiform fibers, then transmission electron microscopy (NIOSH Method 7402) should be used for positive identification. (cdc.gov)
  • Using contemporary techniques-confocal, transmission and scanning electron microscopy, Vis-NIR and Raman spectroscopy, we evaluated the hypothesis. (cdc.gov)
  • In our laboratories, you can use both standard microscope techniques, like scanning electron microscopy (SEM), transmission electron microscopy (TEM) and confocal laser scanning microscopy (CLSM), as well as infra-red based analysis techniques and micro-computed tomography (micro-CT). (lu.se)
  • length were measured by transmission electron microscopy. (cdc.gov)
  • Our mission is to give our users support with and access to a broad range of microscopy techniques for nanoscale biological visualization, from electron microscopy to different advanced light microscopy techniques. (lu.se)
  • The Microscopy platform consists of two units, Advanced Light Microscopy and Electron Microscopy. (lu.se)
  • For more detailed information please visit our Advanced light microscopy or Electron microscopy page . (lu.se)
  • Confocal microscopy provides the capacity for direct, noninvasive, serial optical sectioning of intact, thick, living specimens with a minimum of sample preparation as well as a marginal improvement in lateral resolution compared to wide-field microscopy. (wikipedia.org)
  • These situations are common in the case of complex data from biological specimens. (nature.com)
  • Confocal laser scanning microscopy is a powerful and popular technique for 3D imaging of biological specimens. (inria.fr)
  • Confocal microscopy offers several advantages over conventional widefield optical microscopy, including the ability to control depth of field, elimination or reduction of background information away from the focal plane (that leads to image degradation), and the capability to collect serial optical sections from thick specimens. (olympusconfocal.com)
  • The basic key to the confocal approach is the use of spatial filtering techniques to eliminate out-of-focus light or glare in specimens whose thickness exceeds the immediate plane of focus. (olympusconfocal.com)
  • Tony Wilson, Brad Amos, and John White nurtured the concept and later (during the late 1980s) demonstrated the utility of confocal imaging in the examination of fluorescent biological specimens. (olympusconfocal.com)
  • New technique enables nanoscale-resolution microscopy of large biological specimens. (mit.edu)
  • The Imaging Core Facility offers microscopy systems that enable advanced imaging of fluorescent and non-fluorescent live cells and fixed-stained biological specimens. (lu.se)
  • Confocal microscopy is used to view biological tissue through intervening tissues or structures. (warf.org)
  • Optical microscopy is virtually the only means by which living cells and tissues can be studied with high spatial resolution. (fsu.edu)
  • Their method provides an outline for future studies to implement a multiview confocal microscopy platform to improve imaging of biological tissues. (biotium.com)
  • Laser scanning confocal microscopy is a significant advance in the field of optical microscopy, primarily because it permits sample visualization deeper within living and fixed cells, tissues and other samples. (sheffield.ac.uk)
  • Two-photon microscopy is the method of choice for imaging living cells and tissues (intravital microscopy). (lu.se)
  • Biological samples are often treated with fluorescent dyes to make selected objects visible. (wikipedia.org)
  • However, the actual dye concentration can be low to minimize the disturbance of biological systems: some instruments can track single fluorescent molecules. (wikipedia.org)
  • This setup is suitable where fluorescent illumination is required during the scan, such as for biological samples, or for scan area location. (warwick.ac.uk)
  • Technologies supported by SoM-BIF currently include light microscopy, fluorescent microscopy and confocal microscopy. (edu.au)
  • These techniques visualize typical structures or dynamic processes in biological samples and depend on existing autofluorescent matter in the specimen or the availability of suitable fluorescent dyes. (leica-microsystems.com)
  • The Zeiss 780 confocal laser-scanning inverted microscope allows for high-resolution imaging of fixed unstained and stained fluorescent samples and time-lapse imaging of live-cells. (lu.se)
  • Confocal microscopy, most frequently confocal laser scanning microscopy (CLSM) or laser scanning confocal microscopy (LSCM), is an optical imaging technique for increasing optical resolution and contrast of a micrograph by means of using a spatial pinhole to block out-of-focus light in image formation. (wikipedia.org)
  • The following articles describe how different types of microscopy are advancing, and what products are being developed to meet those demands. (photonics.com)
  • Sample preparation for different types of microscopy is discussed. (lu.se)
  • An important characteristic of traditional wide-field microscopy is that each optical section provides both in focus signal, and out of focus emission that needs to be digitally treated to improve the final quality of the image. (cabd.es)
  • The cells were observed using a Leica laser scanning confocal microscope as previously described [ 30 , 31 , 36 ]. (figshare.com)
  • Dedicated confocal laser scanning microscopy laboratory comprising Leica and Zeiss systems with separate preparation area. (warwick.ac.uk)
  • When imaged with a laser scanning confocal microscope (Figure 1(d)), the medulla thick section reveals a significant degree of structural detail. (olympusconfocal.com)
  • Continuing in this arena, Egger went on to develop the first mechanically scanned confocal laser microscope, and published the first recognizable images of cells in 1973. (olympusconfocal.com)
  • During the late 1970s and the 1980s, advances in computer and laser technology, coupled to new algorithms for digital manipulation of images, led to a growing interest in confocal microscopy. (olympusconfocal.com)
  • Fortuitously, shortly after Minsky's patent had expired, practical laser scanning confocal microscope designs were translated into working instruments by several investigators. (olympusconfocal.com)
  • The dataset is acquired through two of the main microscopic imaging techniques: transmitted light microscopy and confocal laser scanning microscopy. (ucsb.edu)
  • Confocal Microscopy is based on sample scanning utilising a point shaped, monochromatic laser beam, also known as a laser line. (cabd.es)
  • For this purpose we used an ensemble of complementary structural techniques, including Neutron Reflectometry, Grazing Incidence Small-Angle Neutron Scattering, on a nanometer lengthscale and Confocal Laser Scanning Microscopy on a micrometer length scale. (lu.se)
  • In addition, Confocal Laser Scanning Microscopy analyses highlighted that NPs interact with cubic and lamellar phases according to two distinct mechanisms, related to the different structures of the lipid assemblies. (lu.se)
  • Vesicle fusion was also studied with giant uni-lamellar vesicles using rapid confocal laser scanning microscopy. (lu.se)
  • They include advances in atomic force microscopy, structured illumination microscopy and other 3-D approaches, as well as imaging in single cells in animals and in plants. (cshlpress.com)
  • Additionally, the authors adapted super-resolution imaging techniques from structured illumination microscopy (SIM) to resolve the diffraction limitations of confocal microscopy. (biotium.com)
  • Despite being a widely used tool for biomedical optical imaging, confocal microscopy has limitations to its performance due to the diffraction limit of light, sample photobleaching, and limited tissue penetration. (biotium.com)
  • Introduces solid mechanics and interactions of biological structures and medical materials. (washington.edu)
  • Coherent Anti-Stokes Raman Scattering) microscopy is a dye-free method which images structures by displaying the characteristic intrinsic vibrational contrast of their molecules. (leica-microsystems.com)
  • Visualization and understanding of cellular structures and their composition is of great importance in biological research, and also for applications of bio-based materials. (lu.se)
  • Our results are the first to tubes (SWCNT) suggest the potential to interact report disruption of the mitotic spindle by with critical biological structures. (cdc.gov)
  • There has been a dramatic development of microscopical methods for visualization of biological structures and physiological events. (lu.se)
  • plan a study where biological structures or functions are visualised using microscopy. (lu.se)
  • The School of Medicine Biological Imaging Facility (SoM-BIF) provides optical imaging equipment for Deakin researchers and students, as well as researchers in the greater Geelong region. (edu.au)
  • If you have any questions about our Biological Imaging Facility please contact Dr Sanna Barrand, SoM-BIF Manager. (edu.au)
  • Biological Services is a Biohazard Containment Level 2 departmental facility and resource designed to help researchers take advantage of molecular biology, biochemistry, genetics, microbiology and cell biology approaches in order to realize their research goals. (ualberta.ca)
  • Department of NanoBiophotonics - Housed in the Max-Planck-Institute for Biophysical Chemistry in G ttingen, Germany, the optical microscopy facility website offers a list of current publications and a digital image gallery. (fsu.edu)
  • Also included are links to other microscopy websites, a listing of publications, and a directory of faculty and staff at the facility. (fsu.edu)
  • The confocal imaging facility is located in the Kroto building, North Campus, and is part of the Department of Materials Science and Engineering. (sheffield.ac.uk)
  • The facility also supports users of the Zeiss Lightsheet z.1, and Cellvizio Dual Band Invivo confocal. (sheffield.ac.uk)
  • The Centre for the Neurobiology of Stress is a state-of-the-art facility that brings together researchers from Biological Sciences and Psychology at UTSC as well as local, national and international collaborators. (utoronto.ca)
  • The building features a microscopy suite, tissue culture facility, a darkroom, radioisotopes labs, a plant growth facility, coldrooms, an NMR facility and conference and seminar rooms. (utoronto.ca)
  • Light travels through the sample under a conventional microscope as far into the specimen as it can penetrate, while a confocal microscope only focuses a smaller beam of light at one narrow depth level at a time. (wikipedia.org)
  • Although confocal microscopy images are much sharper than standard epifluorescence ones, they are still degraded by residual out-of-focus light and by Poisson noise due to photon-limited detection. (inria.fr)
  • Advanced Light Microscopy Group - Attached to the European Molecular Biology Laboratory (EMBL), the Advanced Light Microscopy Group is headed by Ernst Stelzer. (fsu.edu)
  • Prior Scientific, for example, brings automated shutters and focus mechanisms to the lab, allowing ongoing light microscopy studies to be performed as simply and accurately as possible. (photonics.com)
  • You physically make the sample bigger, rather than trying to magnify the rays of light that are emitted by the sample," says Ed Boyden, an associate professor of biological engineering and brain and cognitive sciences at MIT. (mit.edu)
  • Researchers at the Andalusian Center for Developmental Biology (CABD) use light microscopy as a tool to study development of cells, organs and embryos in different model organisms. (cabd.es)
  • 1 µm in diameter, then polarized light microscopy (NIOSH Method 7403) may be useful in identifying polymorphs (NIOSH 1987). (cdc.gov)
  • The instrument employs the spectral detector GaAsp that allows for high sensitivity detection of 32-channels and three additional detectors (PMTs), two for confocal detection and one for transmitted light detection. (lu.se)
  • Wide angular coverage enables confocal depth sectioning, broad spectral coverage enables temporal (or coherence) depth gating, and their combination ensures maximum depth sectioning for volumetric imaging. (nature.com)
  • or on slicing, often combined with hematoxylin and eosin (H and E) staining and followed by imaging of selected single thin sections with bright-field microscopy. (frontiersin.org)
  • 1 - Blind deconvoltion for thin layered confocal imaging . (inria.fr)
  • Leica Microsystems - Leica research and development, in cooperation with leading imaging scientists from around the world, has created a new concept in two-photon microscopy. (fsu.edu)
  • Additional topics include how to handle and adjust common hardware components, how to recognize and correct common image artifacts, and how to prepare biological samples for best imaging. (purdue.edu)
  • Imaging procedures are becoming increasingly important in all fields of biological research. (unibas.ch)
  • At our microscopy platform in Lund, you meet personnel with expertise and long experience working with biological material and microscopy, imaging, and analysis. (lu.se)
  • It allows imaging with very high temporal and spatial resolution in thick biological material. (lu.se)
  • In contrast, a confocal microscope uses point illumination (see Point Spread Function) and a pinhole in an optically conjugate plane in front of the detector to eliminate out-of-focus signal - the name "confocal" stems from this configuration. (wikipedia.org)
  • Quantifying the extent to which points are clustered in single-molecule localization microscopy data is vital to understanding the spatial relationships between molecules in the underlying sample. (nature.com)
  • Used for high temporal and spatial resolution complementary characterisation of microscale electrochemical systems, biological and membrane processes. (warwick.ac.uk)
  • In fact, confocal technology is proving to be one of the most important advances ever achieved in optical microscopy. (olympusconfocal.com)
  • In contrast, a thin optical section of the same grain (Figure 1(f)) acquired with confocal techniques displays a dramatic difference between the particle core and the surrounding envelope. (olympusconfocal.com)
  • The basic concept of confocal microscopy was originally developed by Marvin Minsky in the mid-1950s (patented in 1957) when he was a postdoctoral student at Harvard University. (olympusconfocal.com)
  • However, successful biological results on biofilms spotlighted the presence of peptide and its homogeneous repartition in the hydrogel. (upc.edu)
  • First, the authors developed a multiview confocal microscopy platform with three objectives integrated using compact multi-electromechanical systems (MEMS)-based scanners. (biotium.com)
  • We offer the courses Common Microscopy Methods in Biological Research (external website) and Microscopy - Bioimaging (external website) for PhD and Master students. (lu.se)
  • To segment and analyze this variety of microscopy techniques, different methods have been employed from purely manual segmentation to sophisticated deep convolutional neural networks. (springer.com)
  • The aim of this course is to provide students with the basic concepts underlying modern microscopy techniques. (unibas.ch)
  • Introduces the requisite organic, physical, and biochemistry for incoming bioengineers to understand biological systems at the molecular level. (washington.edu)
  • Rounding out this series of features is a look at adaptive optics, which was once primarily a tool for astronomers but is now making its way into microscopy, where researchers use it to counter aberrations in their systems. (photonics.com)
  • Studies the principles of combined mass transport in homogeneous and heterogeneous reaction systems as applied to biological processes. (washington.edu)
  • Introduces chemical and biochemical reaction kinetics, methods of evaluating kinetic parameters for reaction rate data, and prediction of the performance of biological and biochemical processes. (washington.edu)
  • Capture fast biological processes and high-quality volumetric data with minimal striping artifacts. (bruker.com)
  • Surfactant/lipid vesicles are closed bilayer aggregates that are interesting to understand because of their importance in several biological processes. (lu.se)
  • Following Minsky's work, M. David Egger and Mojmir Petran fabricated a multiple-beam confocal microscope in the late 1960s that utilized a spinning (Nipkow) disk for examining unstained brain sections and ganglion cells. (olympusconfocal.com)
  • FLoRIN reconstructions are of sufficient quality for preliminary biological study, for example examining the distribution and morphology of cells or extracting single axons from functional data. (springer.com)
  • However, filaments results being unreliable, further characterisation technics such as radiolabelling, radioactivity or biological assays with human cells have to be carried out to corroborate the results of this project. (upc.edu)
  • Biological images are critical components for a detailed understanding of the structure and functioning of cells and proteins. (ucsb.edu)
  • master basic methodology using microscopy analysis of living cells. (lu.se)
  • Trained on a variety of simulated clustered data, the neural network can classify millions of points from a typical single-molecule localization microscopy data set, with the potential to include additional classifiers to describe different subtypes of clusters. (nature.com)
  • Once raw single-molecule localization microscopy (SMLM) data have been obtained and the positions of emitters localized, there is the further challenge of how to effectively analyze the resulting data. (nature.com)
  • Studying these interactions at the single-molecule level contributes significantly to our understanding of biological phenomena. (biophysics.org)
  • Special emphasis is given on how to handle plant material for microscopy. (lu.se)
  • developed a multi-pronged approach to address the limitations of confocal microscopy and demonstrated the new capabilities on over 20 distinct fixed and live samples. (biotium.com)
  • This MultiPark platform consists of two microscopy stations that serve different needs. (lu.se)
  • Minsky wanted to image neural networks in unstained preparations of brain tissue and was driven by the desire to image biological events at they occur in living systems. (olympusconfocal.com)
  • A main challenge of Tissue engineering is to create sustainable scaffolds that provide optimal biological properties to mimic the extracellular matrix(ECM). (upc.edu)
  • Another important aspect is the preparation and optimisation of samples for microscopy, both fixed samples and tissue sections, as well as living samples. (lu.se)
  • Biological Services staff can also be asked to prepare biological samples or to undertake research projects. (ualberta.ca)
  • Both systems are specifically equipped to image biological samples. (lu.se)
  • PPA was manually delineated on en face OCT optic nerve head scans, while observing the corresponding cross-sectional images, as the hyper-reflective area contiguous with the optic disc. (bvsalud.org)
  • produce digital images of microscopy preparations. (lu.se)
  • a dedicated IT technician supporting all hardware and software within Biological and Environmental Sciences. (stir.ac.uk)
  • Managing the Biological and Environmental Sciences website and associated research websites and offering advice, training and assistance in all web related areas. (stir.ac.uk)
  • Microscopy Research Technique , 69: pages 260-266, April 2006 . (inria.fr)
  • Experience in biological or soft matter physics research. (academickeys.com)
  • Scientists at the University of Strathclyde's Institute of Photonics in Glasgow, UK, have done extensive research into adaptive optics in microscopy, and those results are reported here, along with a glimpse of what might be available commercially in the near future. (photonics.com)
  • Case-studies highlight how microscopy methods can be applied in research. (lu.se)
  • Here, you get the chance to practically apply what you have learned about sample preparation, microscopy methods, image acquisition, documentation and analysis of image data - including written and oral presentation of the completed project. (lu.se)