Fluorescence In Situ HybridizationFluorescence In Situ ... · Fluorescence in situ hybridization of...
Transcript of Fluorescence In Situ HybridizationFluorescence In Situ ... · Fluorescence in situ hybridization of...
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Fluorescence In Situ HybridizationFFluorescence IIn SSitu HHybridization
Olivia NigroOctober 19, 2005
Olivia NigroOctober 19, 2005
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Overview
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Probe SelectionProbe Selection*The probe must be selected with extreme care.
Oligonucleotide : typically 15-30 bp
Pro: easy access to target
Con: carry fewer labels--less fluorescence
Polynucleotide: -100 bp
Pro: high fluorescence
Con: non-specific binding
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Labeling: Direct Labeling: Direct
A. Amino linker 5’
B. Terminal transferase at 3’
*(can use both A&B)
Benefits:
Commercially available
Can be stored for several months
Fast, cheap and easy
No additional steps
BUT: Low Sensitivity Moter A and Gobel UB. 2000. Fluorescence in situ hybridization(FISH) for direct visualization of microorganisms. J Microbiol Meth.41(2):85-112
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Labeling: Indirect Labeling: Indirect
C. Linked Reporter molecule (DIG), which is detected by a fluorescent antibody (8X brighter than direct)
D. Horseradish peroxidase- made 10-20X brighter, but: less cells were positive because of large molecules. Lysozyme-but not for mixed pops. (TSA or CARD)
E. Polynucleotide w/ DIG
Anti-dig antibody
Alkaline
phophotase
Moter A and Gobel UB. 2000. Fluorescence in situ hybridization(FISH) for direct visualization of microorganisms. J Microbiol Meth.41(2):85-112
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DetectionDetection
-Simultaneous observation of 2 colors can be done by using multibandpass filters (MC-FISH)
-Select fluorochromes with sharp emmission peaks to avoid overlap and background
-Dapi can be used for counterstaining
Most Stable
Moter A and Gobel UB. 2000. Fluorescence in situ hybridization(FISH) for direct visualization of microorganisms. Microbiol Meth.41(2):85-112
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Target: Why Use rRNA ?Target: Why Use rRNA ?Genetic stabilityStructure (conserved and variable regions)High copy numberProbes can be designed to from kingdom to species taxon levelLarge data base of sequences available
Genetic stabilityStructure (conserved and variable regions)High copy numberProbes can be designed to from kingdom to species taxon levelLarge data base of sequences available
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Fixation: Usually alcohol or formaldehyde. Optimize for probe penetration, retention of RNA and structural integrity.
Sample: may be treated for G+. Treat glass slide (gelatin)
Hybridization: Stringency determined by probe sequence. Adjust by Temp or Formamide.
Washing: remove unbound probes
Visualization: many microscopes
General Method
Moter A and Gobel UB. 2000. Fluorescence in situ hybridization(FISH) for direct visualization of microorganisms. JMicrobiol Meth.41(2):85-112.
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Pitfalls: False PositivesPitfalls: False Positives
Autofluorescence- molds, yeast, certain bacteria-check before FISH
Lack of probe specificity-use + control, and closely related species for -control
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Pitfalls: False NegativesPitfalls: False Negatives
Secondary or Tertiary Structure
Check for hairpin loops and self-annealing
Insufficient probe penetrationLow rRNA concentrationPhotobleaching
*** Use a Eubacterial Probe
Secondary or Tertiary Structure
Check for hairpin loops and self-annealing
Insufficient probe penetrationLow rRNA concentrationPhotobleaching
*** Use a Eubacterial Probe
fig.cox.miami.edu
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FISH modificationsFISH modifications
PNA (peptide nucleic acids) -Uses a backbone made of polyalamide for probes, resulting in more stable hybrids.
Micro-CARD-FISH-A more sensitive FISH technique that incorporates
Microradioautography- a complex method that measures the uptake of labeled nutrients such as glucose, amino acids or acetate.
PNA (peptide nucleic acids) -Uses a backbone made of polyalamide for probes, resulting in more stable hybrids.
Micro-CARD-FISH-A more sensitive FISH technique that incorporates
Microradioautography- a complex method that measures the uptake of labeled nutrients such as glucose, amino acids or acetate.
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FISH and Flow CytometryFISH and Flow Cytometry
Flow cytometers are designed to pass individual cells through focused laser beams.The optical properties of each cell are measured and recorded as they pass through the laser.The flow cytometer allows rapid counts and identification of different cell types in culture and field samples, based upon fluorescence of applied molecular probes.Some can sort cells
Flow cytometers are designed to pass individual cells through focused laser beams.The optical properties of each cell are measured and recorded as they pass through the laser.The flow cytometer allows rapid counts and identification of different cell types in culture and field samples, based upon fluorescence of applied molecular probes.Some can sort cells
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FISH ApplicationsFISH Applications
FISH is VERY widely usedMedicineEndosymbiontsMixed CommunitiesMetabolic propertiesWaste waterViral and Bacterial infectionsAnd many more…..
FISH is VERY widely usedMedicineEndosymbiontsMixed CommunitiesMetabolic propertiesWaste waterViral and Bacterial infectionsAnd many more…..
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www.mpi-marburg.mpg.de/ frenzel/f_frenzel.jpg
Protozoan with bacterial endosymbionts.
Blue: Dapi
Red: probe for a-proteobacteria,
Pink: co-localization
Green: autofluorescence
ImagesImages
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ImagesImages
Fluorescence in situ hybridization of subgingival plaque from a periodontitis patient.(a) Simultaneous hybridization with eubacterial probe EUB338FITC (green) for visualization of different bacterial morphologies at single-cell resolution and TRE ICy3 (yellow) for the detection of phylogenetic group I treponemes, most of which are as-yet uncultured.(b) The same plaque material, hybridized with TRE IFITC (green) and TRE IICy3(yellow), the latter detecting oral treponemes of phylogenetic group II
Fluorescence in situ hybridization of subgingival plaque from a periodontitis patient.(a) Simultaneous hybridization with eubacterial probe EUB338FITC (green) for visualization of different bacterial morphologies at single-cell resolution and TRE ICy3 (yellow) for the detection of phylogenetic group I treponemes, most of which are as-yet uncultured.(b) The same plaque material, hybridized with TRE IFITC (green) and TRE IICy3(yellow), the latter detecting oral treponemes of phylogenetic group II
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Discussion: Simon et alDiscussion: Simon et al
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Discussion: Simon et alDiscussion: Simon et al
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Discussion: Simon et alDiscussion: Simon et al
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Discussion: Simon et alDiscussion: Simon et al
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Discussion: Simon et al.Discussion: Simon et al.
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Discussion: Pernthaler et al.Discussion: Pernthaler et al.
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Discussion: Pernthaler et al.Discussion: Pernthaler et al.
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Discussion: Pernthaler et al.Discussion: Pernthaler et al.
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Discussion: Teira et alDiscussion: Teira et al
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Discussion: Teira et alDiscussion: Teira et al