Scanning electron
micrograph showing the thread - like fungus ramifying through wood cells.
(E) Transmission electron
micrograph showing axochordal cells, ventral oblique muscles, neuronal midline (nm), and the neuropil (np).
Color - enhanced scanning electron
micrograph showing normal inner ear hair cells from the cochlea of birds.
(B) Transmission electron
micrograph showing an interstitial fibroblast - like cell packed with mitochondria (arrow) with dense cristae and small lipid droplets in the rope tissue.
(D) Transmission electron
micrograph showing UCP - immunogold (10 nm, indicated by arrows) in a mitochondrion of an interstitial fibroblast - like cell of the rope tissue.
A micrograph shows isolated neurons from the brain of a human fetus.
The scanning transmission electron
micrograph shows that the atomic structure was alternately arranged in the three - layer and the zig - zag two - layer thick chain - like slabs, showing quasi-1D metallic conductivity in the former.
This fluorescence light
micrograph shows two important support cells (glial cells) of the human brain.
This colored scanning electron
micrograph shows several specialized elements within a liver cell (hepatocyte).
His electron
micrograph shows the head of an Australian helmet flea (Stephanocircus harrisoni) magnified around 100 times, and it earned him a prize in this year's micrograph competition mounted by Leica Cambridge.
This electron
micrograph shows an oral squamous cancer cell (white) being attacked by two cytotoxic T cells (red).
ACTIVE VIRUS A transmission electron
micrograph shows the coronavirus responsible for Middle East respiratory syndrome in action.
This colorized scanning electron
micrograph shows Mycobacterium tuberculosis, gram - positive bacteria that cause tuberculosis.
Michael's image shows COS - 7 cells ectopically expressing the Fcγ - receptor performing phagocytosis on beads opsonised with Immunoglobulin G. His false - colour scanning electron
micrograph shows filopodia and pseudopodia projecting around the beads, which will subsequently be fully engulfed.
An electron
micrograph shows a Verroa destructor mite (right) on an adult honeybee host.
This colorized scanning electron
micrograph shows Giardia lamblia reproducing asexually.
Not exact matches
Their massive electron
micrographs of the joint
showed tiny, perfectly formed screws and nuts, with a thread far more delicate than those made by humans.
This scanning electron
micrograph image
shows the male and female reproductive organs in false color.
BRAIN DRAIN Certain influenza viruses, like the H3N2 strain
shown in this transmission electron
micrograph, can cause memory trouble and brain damage in mice months after infection, a new study
shows.
The illustration, based on electron
micrographs and created by the Centers for Disease Control and Prevention,
shows one of these antibiotic - resistant bacteria.
The left image
shows a scanning electron
micrograph (SEM) of a basic scaffold made of many tiny mesoporous silica rods (MSRs) before they are coated with a thin supported lipid bilayer (SLB) with the incorporated T cell - stimulating cues.
Chimp adenovirus vaccines may have an edge over those that use the human version,
shown here in an electron
micrograph (hexagon shapes).
CUTTING CALORIES Bakers yeast, Saccharomyces cerevisiae (
shown in false color in an electron
micrograph), may not get the life - prolonging benefits of caloric restriction, a new study suggests.
GOOD SHOT A test vaccine given to camels and monkeys gins up immunity against the MERS virus (
shown here in a colorized
micrograph).
EXTREME SURVIVALIST Genetic analysis of tardigrades like this Ramazzottius varieornatus
shown in a scanning electron
micrograph are revealing what makes the tough little creatures tick.
The pictures
show digital scanning electron
micrographs of part of a butterfly wing.
This high - resolution transmission electron
micrograph of particles made by the research team
shows the particles» highly uniform size and shape.
The electron microscope images, or
micrographs,
showed complex crystalline structures that formed in large part thanks to the shape of the gold nanoparticles.
The prizewinning electron
micrograph, taken by Frank Page of the University of Loughborough,
shows the tip of the fly's proboscis.
In the electron
micrograph, the malaria parasites appear in blue and uninfected red blood cells are
shown in red.
In contrast to the hazy images
shown in some museums and television documentaries, the right lighting and focusing can produce
micrographs of startling clarity using original microscopes or modern replicas (see slideshow).
Typical
micrographs from (c) an obese (BMI 50.8 kg / m2) female and (d) a lean (25.7 kg / m2) female subject are
shown.
(C) Transmission electron
micrograph of the same mitochondria (arrow)
shown in B at higher magnification.
Judging from the scale bar in the scanning electron
micrograph of this surface
shown in Fig. 1b, the inner diameter of the circle is about 10 µm (10,000 nm).
Electron
micrograph of cross-section through a CAT grating
showing the atomically smooth nano mirrors (left), and a tested 32 mm - wide CAT grating coated with platinum using atomic layer deposition (right).
(i) Direct smears from bat snouts, Periodic Acid Schiff - stained tissue sections from infected tissues, and scanning electron
micrographs of bat tissues all
showed fungal structures similar to those of G. destructans (ii) G. destructans DNA was directly amplified from infected bat tissues (iii) Isolations of G. destructans in cultures from infected bat tissues
showed 100 % DNA match with the fungus present in positive tissue samples (iv) RAPD patterns for all G. destructans cultures isolated from two sites were indistinguishable (v) The fungal isolates
showed psychrophilic growth (vi) We identified in vitro proteolytic activities suggestive of known fungal pathogenic traits in G. destructans.
(i) Direct smears from bat snouts, Periodic Acid Schiff - stained tissue sections from infected tissues, and scanning electron
micrographs of bat tissues all
showed fungal structures similar to those of G. destructans.
This scanning electron
micrograph image
shows the mucus - oozing folds on a tubelip wrasse's lips.
Caption: Electron
micrograph of the nanowires
shows connecting archaea and sulphate reducing bacteria.
(a)
Shows representative
micrographs of those H&E - stained lamina VII neurons that were selected for the count based on size specificity (diameter ranging from 10 to 20 μm).
Further investigation revealed that the researchers failed to report that the MSG was frequently vomited before it could be absorbed, that the monkeys were under anesthesia with a powerful glutamate receptor antagonist (phencyclidine), and that the areas of the brain
shown in
micrographs were areas of the hypothalamus known to be unaffected by glutamate.
Fig. 6
shows an image of a full printed circuit; the Inset displays a
micrograph of a transistor.