single cell visualization of the dna repair mechanism in vivo · • current research on dna repair...
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Single Cell Visualization of the DNA repair mechanism in vivo
Jen Makridakis,Jane kondev, Jim Haber
Azadeh SamadaniDepartment of Physics
Brandeis University
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• DNA double-strand break constitutes the most dangerous type of DNA damage
• Inefficient DNA repair may lead to genomic defects, hypersensitivity to cellular stress and resistance to apoptosis, which is characteristic of cancer cells
• Current research on DNA repair has enabled numerous breakthroughs in our understanding of the DNA repair mechanisms at the population level
• Population level measurements have two fundamental shortcomings:
• The repair process is not visualized• They only measure the mean of a distribution and usually hide the cell-to-cell
• To proceed further, we must acknowledge that cells even in genetically identical population, exhibit epigenetic individuality, which may have important implications on the fitness of a population.
Objectives
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Objectives and long term goals:
1. To understand the molecular mechanisms of the DNA repair
2. To improve our understanding of cell-to-cell variability in DNA repair and its impact on the fitness of a population
Focus on ‘well characterized' biochemical networks:
The model system: Budding Yeast
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A model system: Saccharomyces cerevisae (Budding Yeast)
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M M
D1 D1
M M
D1
D(1,1) D2
Budding Yeast: An experimental model system for DNA repair
Possibility of mating
Mating-type switch
How does mating-type switching relate to the DNA repair?
Yeast cells induce a double-strand break in their own genome and then repair it, as a result they change their mating type
UV
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Mating-type switching in yeast
Haber, Annu. Rev. Gen. 98
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Yeast repairs its genome mostly by finding homologous regions in DNA
Location of a DSB
HMRaHMLα MATa
w x Ya z1 z2w x Yα z1 z2 x Ya z1
MAT: Mating type determination locus carries a or α type genes
HML : Silent donor on the left arm of the chromosome carries homologous region to MAT plus α type gene
HMR : Silent donor on the right arm of the chromosome carries homologous region to MAT plus a type gene
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During repair, the information from donor sequence is copied into MAT
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Donor Preference
Mata cells mostly use the left arm of the chromosome Matα cells mostly use the right arm of the chromosome
Haber, Annu. Rev. Gen. 98
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Recombination enhancer (RE) activates the left arm of the chromosome in MATa cells
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Bressan et al. JCB 04
MAT
HMRa
HML
Nucleus
Potentialtether
RE
α
α
The left arm of the chromosome maybe tethered in MATα cells
RE may be removing the tether in MATa cells
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MAT
MAT
MAT
MAT
MAT
HML/HMR
HML/HMR
HML/HMR
Classic view of homologous recombination
• The donor and recipient DNA have to be close to each other
• They have to form a successful synapse
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• Recent single cell measurements suggests that the rate of collisions between the recipient and donor sequences increases during the repair
• A significant association time between the donor and recipient DNA has not been observed
• The data is based on 6 single cells
• The distribution of distances during the repair is unknown
Houston et. al, PLoS Genet. 2006
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J. Kondev
A thermodynamic model of recombination
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UV radiation
Controlled induction of a double stranded break in the genome of a genetically-engineered yeast
UV
Number and locations of DSB are not controllable
Number and locations of DSB are precisely controllable
Controlling the induction of HO by placing it under
galactose promoter
Genetic engineering allows us to induce a well-defined DSB in the genome of yeast, by simply putting Galactose into the media
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Agarose Pad = nutrients/inducer
Slide
S. cerevisiae
CoverWell™ Perfusion Chambers
Corning 1 ½Cover Glass
• Cells with broken DNA are very sensitive to the fluorescent light
• We need to keep the cells in optimal growth condition under microscope
Single cell visualization of repair
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Long-term single cell observation
Total time = 14 hours
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1.1.1.1
1.1.1.1.1
1.1.1
1.1.11.1.1.21.1.1.1
1.1
1.1
1.1.2
1.1.31.1.21.1.2.1
1
1.1 1
1
1
1.1.1 1.1 11.2
1.2
1.2
1.3
1.3 1.4
1.2.1
1.2.1 1.2.2 1.3.11.2.1.1
1
10 min
1 1.1
1.2250 min
1 1.1
1.2240 min
1 1.1
1.2230 min
1 1.1
1.2220 min
210 min t2
1 1.1
200 min
1 1.1
130 min 1.1
1
120 min 1.1
1
1
100 mint1
110 min 1.1
11
90 min
1.1.1
1 1.1
1.21.3
1.4
1.5
1.1.2
1.1.1.1
1.1.3
1.2.1
1.2.2
1.3.1
490 min
Arrows indicate the formation of a new bud
Doubling Time = t2 – t1 t2
t1
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The progeny chamber
• The depth of the channels ~ size of the cells
• Cells stay in focus for many generations
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How do we measure the repair time?
Rad52 Rad51
YFP
• Rad52 is one the first proteins recruited to the site of a DSB
• The formation of Rad52 foci was observed to begin at induction and end with the DSB repair event
• Therefore the timing of the disappearance of the Rad52 foci can be used as a measure of the completion of the repair event
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Rad52 co-localizes with the site of double-strand break
Miyazaki, EMBO 2004
Rad51 Rad52 HO cut-site
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Visualization of the DNA repair process
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Single cell visualization of the DNA repair in vivo
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• Single cell measurements will teach us about the mechanism of the repair
• Our preliminary data demonstrates that even in a population of genetically identical cells, the duration of repair event varies greatly from cell-to-cell.
• So far only biological processes that regulate cell functions, such as noise at the level of gene transcription and translation have been recognized as major contributions to population heterogeneity.
• However besides a biological reason for production of heterogeneity other physical factors may be in play, for example the variation in timing of the repair event is partially due to the randomness of the search event itself, which is purely a physical mechanism.