Cell biology techniques
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Jul 06, 2014
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About This Presentation
Learn about Cell biology techniques
Slide Content
CELL BIOLOGY TECHNIQUES
Visualize cells - Microscopy
Organelles – Fractionation of
subcellular components
Culturing cells
Visualize cells - Microscopy
Organelles – Fractionation of
subcellular components
Culturing cells
Light Microscopy
Light Microscopy
•Resolution of 0.2µm
•Magnification – objective and projection lens
•Resolution
–D = 0.61λ/N sin α
Resolution is improved by using shorter
wavelengths or increasing either N or α.
•Resolution of 0.2µm
•Magnification – objective and projection lens
•Resolution
–D = 0.61λ/N sin α
Resolution is improved by using shorter
wavelengths or increasing either N or α.
BRIGHT FIELD PATH MICROSCOPY
Visualize unstained living cells
•Phase Contrast microscopy
–Thin layers of cells but not thick tissues
•Differential Interference contrast
–Suited for extremely small details and thick
objects
–Thin optical section through the object
•Phase Contrast microscopy
–Thin layers of cells but not thick tissues
•Differential Interference contrast
–Suited for extremely small details and thick
objects
–Thin optical section through the object
Microscopy of Live cells
Fluorescence Microscopy
•Major Function: Localization of specific cellular
molecules – example proteins
•Major Advantages:
–Sensitivity:“glow” against dark background
–Specificity: immunofluorescence
–Cells may be fixed or living
•Fluorescent dyes or proteins (Flurochromes)
–flurochromes may be indirectly or directly associated
with the cellular molecule
–Multiple flurochromes may be used simultaneously
•Major Function: Localization of specific cellular
molecules – example proteins
•Major Advantages:
–Sensitivity:“glow” against dark background
–Specificity: immunofluorescence
–Cells may be fixed or living
•Fluorescent dyes or proteins (Flurochromes)
–flurochromes may be indirectly or directly associated
with the cellular molecule
–Multiple flurochromes may be used simultaneously
Absorb light at one
wavelength and
emit light at a
specific and longer
wavelength
wavelength and
emit light at a
specific and longer
wavelength
HYDRA EXPRESSING GFP
Fluorescent
protein in live
cells
Fluorescent
protein in live
cells
FIX
EMBED
SECTION
STAIN
EMBED
SECTION
STAIN
Immunofluorescence Microscopy and
Specific Proteins
•Fluorescently tagged primary anti body
•Fluorescently tagged secondary antibody
•Fluorescently labelled antibody to tagged
proteins such as myc or FLAG
Specific Proteins
•Fluorescently tagged primary anti body
•Fluorescently tagged secondary antibody
•Fluorescently labelled antibody to tagged
proteins such as myc or FLAG
RAT INTESTINAL CELL WALL – GLUT 2
CONFOCAL AND DECONVOLUTION
MICROSCOPY
•This overcomes the limitations of
Fluorescence microscopy
–Blurrred images
–Thick specimens
MICROSCOPY
•This overcomes the limitations of
Fluorescence microscopy
–Blurrred images
–Thick specimens
REMOVES OUT OF FOCUS IMAGES
EXAMPLE OF IMAGE RECONSTRUCTED
AFTER DECONVOLUTION MICROSCOPY
AFTER DECONVOLUTION MICROSCOPY
ELECTRON
MICROSCOPY
MICROSCOPY
•Transmission EM
–theoretically 0.005 nm; practically 0.1 nm –1 nm
(2000x better than LM)
–High – velocity electron beam passes through the
sample
–50-100 nm thick sections
–2-D sectional image – surface details are revelaed
–Subcellular organelles
•Scanning EM
–Resolution about 10 nm
–Secondary electrons released from the metal coated
unsectioned specimen
–3-D surface image
–theoretically 0.005 nm; practically 0.1 nm –1 nm
(2000x better than LM)
–High – velocity electron beam passes through the
sample
–50-100 nm thick sections
–2-D sectional image – surface details are revelaed
–Subcellular organelles
•Scanning EM
–Resolution about 10 nm
–Secondary electrons released from the metal coated
unsectioned specimen
–3-D surface image
GOLD PARTICLES COATED WITH PROTEIN A ARE
USED TO DETECT ANTIBODY BOUND TO PROTEIN
USED TO DETECT ANTIBODY BOUND TO PROTEIN
TEM IMAGE
CRYOELECTRON MICROSCOPY
•HYDRATED, UNFIXED AND UNSTAINED
SAMPLES
•SAMPLES ARE OBSERVED IN ITS NATIVE
HYDRATED STATE
•METHOD - AN AQUEOUS SUSPENSION OF
SAMPLE IS APLLIED ON A GRID AND HELP B Y
A SPECIAL MOUNT
•5 nm RESOLUTION
•HYDRATED, UNFIXED AND UNSTAINED
SAMPLES
•SAMPLES ARE OBSERVED IN ITS NATIVE
HYDRATED STATE
•METHOD - AN AQUEOUS SUSPENSION OF
SAMPLE IS APLLIED ON A GRID AND HELP B Y
A SPECIAL MOUNT
•5 nm RESOLUTION
SURFACE DETAILS BY METAL
SHADOWING
SHADOWING
SEM OF EPITHELIUM LINING THE
INTESTINAL LUIMEN
INTESTINAL LUIMEN
PURIFICATION OF CELL ORGANELLES
•CELL DISRUPTION
•SEPARATION OF DIFFERENT ORGANELLES
USING CENTRIFUGATION
•PREPARATION OF PURIFIED ORGANELLES
USING SPECIFIC ANTIBODIES
•CELL DISRUPTION
•SEPARATION OF DIFFERENT ORGANELLES
USING CENTRIFUGATION
•PREPARATION OF PURIFIED ORGANELLES
USING SPECIFIC ANTIBODIES
BREAKING OPEN PLASMA
MEMBRANES IN CELLS
•CELLS ARE SUSPENDED IN ISOTONIC SUCROSE
•SONICATION
•HOMOGENIZATION
•CELLS IN HYPOTONIC SOLUTION – RUPTURE
OF CELL MEMBRANES
MEMBRANES IN CELLS
•CELLS ARE SUSPENDED IN ISOTONIC SUCROSE
•SONICATION
•HOMOGENIZATION
•CELLS IN HYPOTONIC SOLUTION – RUPTURE
OF CELL MEMBRANES
SEPERATING ORGANELLES
•DIFFERENTIAL CENTRIFUGATION
•DENSITY GRADIENT CENTRIFUGATION
•DIFFERENTIAL CENTRIFUGATION
•DENSITY GRADIENT CENTRIFUGATION
DENSITY GRADIENT CENTRIFUGATION
ANTIBODIES ARE USED TO MAKE
HIGHLY PURIFIED ORGANELLES
HIGHLY PURIFIED ORGANELLES
CELL SORTER – FLOW CYTOMETRY
CELL CULTURE REQUIREMENTS
•SOLID MEDIA
–Specially coated plastic dishes or flasks (CAMs’)
–Agar as the medium
GROWTH MEDIA
Rich in nutrients- amino acids, vitamins, salts fatty
acids, glucose, serum provides the different
growth factors,
•SOLID MEDIA
–Specially coated plastic dishes or flasks (CAMs’)
–Agar as the medium
GROWTH MEDIA
Rich in nutrients- amino acids, vitamins, salts fatty
acids, glucose, serum provides the different
growth factors,
TYPES OF CULTURED CELLS
•PRIMARY CELL CULTURES – DIFFERENTIATE IN
CELL CULTURE
•CELL STRAIN – ALSO HAVE A FINITE LIFE SPAN
(FROM A PRIMARY CULTURE)
•CELL LINE - INDEFINITE LIFE SPAN
•PRIMARY CELL CULTURES – DIFFERENTIATE IN
CELL CULTURE
•CELL STRAIN – ALSO HAVE A FINITE LIFE SPAN
(FROM A PRIMARY CULTURE)
•CELL LINE - INDEFINITE LIFE SPAN
PRIMARY CULTURES
STAGES IN CELL CULTURE
DIFFERNTIATION OF A CELL LINE –
C2C12 IN CULTURE
C2C12 IN CULTURE
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