Categorii: Tot - resolution

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Microscopy

Microscopy aims to make details visible to the human eye or camera by producing magnified images and separating image details. Key components include magnification, which refers to the size of the image, and resolution, which is the ability to distinguish two adjacent points, with the highest resolution in a compound light microscope being 0.

Microscopy

Microscopy

electron microscope

Electron cryotomography
provides extremely high resolution images of -cytoskeletal elemetns -magnetosomes -inclusion bodies -flagellar motors -viral structures
images are recorded from many different directions to create 3D structure
rapid freezing technique provides way to preserve native state of structures examined in vacuum
Transmission electron microscope (TEM)
principal uses: to examine viruses or then internal ultrastructure in thin sections of cell
resolving power- 2.5 nm
magnnification- 10 000X to 100 000X
image produce- two dimensional
structures smaller than 0.2µm
Scanning electron microscope (SEM)
principle used: to study the surface features of cells and viruses
resolving power- 20 nm
magnification - 100X to 10 000X
produces a realistic 3D image of specimen's surface features
strcutures smaller than 0.2µm
resolving power 100 times than light microscope
wavelength= 0.01A
employs a beam of electron in place of light wave to produce the magnified image

preparation of specimens for light microscopy

smears
staining

special staining

flagella staining

Mordant and Carbolfuchsin applied to increase thickness of flagella

endospore staining

used for identifiying bacteria that can produce tough, dormant spores

negative staining

visualize capsules surrounding bacteria

preparing colourless bacteria against coloured background

differential staining

acid-fast staining

useful for genus Mycobacterium

very intensive decolourizer

gram staining

gram negative

gram positive

simple staining

basic dyes frequently used

acidic dyes frequently used

revels basic cell shaped and arrangements

single staining agent is used

microorganism is killed and firmly attached to microscope slide

chemical fixing

heat fixing

preserved internal and external structures and fixed them in position

Preparing smears

fixation

air dry completely

thin suspension of cells placed on glass, no cover slip needed

wet mount
demonstrating motility or structure od microorganisms

Introduction

Microscope is an instrument to observe microorganisms
Electron microscope
Light microscopes
Cells are microscopic

Unit of measurement

micrometers, nanometers and angstroms
1 meter = 10^9 nanometer
1 meter = 10^6 micrometer
metric system

Light microscope

compound microscope
image formed by action of ≥2 lenses

Total magnification = multiply the objective lens magnification by the ocular lens magnification

ocular lenses magnification -10X

objective lenses magnification -10X -40X -100X -oil-immersion lens

ocular lenses- magnified the specimens

objective lenses- magnifies the specimens

condenser- to direct the light through the specimen

illuminator - source of light

uses visible light as source of illumination ( 400nm to 700nm)

confocal microscope
numerous applications including study of biofilms
confocal scanning laser microscopy ( CLSM) creates sharp, composite 3D image of specimens by using laser beam, aperture to eliminate stray light, and computer interface
fluorescence microscope
has applications in medical microbiology and microbial ecology studies
shows a bright image of the object resulting from the fluorescent light emitted by the specimen

fluorescence

microorganism appear as bright object against dark background

fluorochrome- labeled probes, such as antibodies, or fluorochrome dyes tag specific cell constituents for identification of unknown pathogens

cell contains natural fluorescent substances (eg. chorophyll ) or has been treated with fluorescent dye( eg. auramineO)

spme chemical substances absorbs the energy of ultraviolet waves and emit it as visible waves of greater length- fluorescent

essential tool in microbiology

specimens usually stained with flurochromes
exposes specimen to ultraviolet, violet or blue light

Ultraviolet

image are made visible by recording on a photographic emulsion, or by display on a television screen after pickup by an ultraviolet- sensitive television camera tube

Ultraviolet radiations are invisible

has a shorter wavelength( 180-400nm)

permits greater resolution than conventional light microscope

phase-contrast microscope
stain is not necessary, view internal structure s of living organisms
excellent way to observe living cells
some light rays from hollow cone of light passing through unstained cell slowed/ out of phase ( dark against bright background )
converts difference in refractive index/ cell density into detected variations in light intensity
dark-filed microscope
Used to observe living, unstained preparations

identify bacteria such as Treponema pallidum

internal structures in eukaryotic microorganisms

Produces a bright image of the object against a dark background
image is formed by light reflected or refracted by specimen
bright- field microscope
total magnification = product of the magnifications of the ocular lenses and the objectives lenses
use in lab, requires stain
produce a dark image against a brighter background

Magnification and resolution

Resolution/ Resolving power- ability to distinguish two adjacent point
highest resolution in compound light microscope - 0.2µm
Magnification- size of image or point

Goals

render the details visible to the human eye or camera
Separate details in the image
Produce a magnified image of the specimen