Add to ORKGposter abstractSeveral human neurodegenerative disorders are caused by the expansion of trinucleotide repeats within or near the region of genes. To study the sta-bility of trinucleotide repeats in eukaryotic cells, we insert different number of GAA and CTG repeats in both orientations separately into the genome of Saccharomyces cerevisiae. In addition to S-phase replications, DNA can also be repaired by break-induced replication (BIR), an important process of DNA repair system that has been implicated in various chromosomal instabilities. In this study, we want to analyze the stability of trinucleotide repeats asso-ciated with BIR
SummaryExpansions of simple DNA repeats cause numerous hereditary diseases in humans. We analyzed th...
Friedreich’s ataxia (GAA)n repeats of various lengths were cloned into a Saccharymyces cerevisiae pl...
<div><p>DNA sequences capable of adopting non-canonical secondary structures have been associated wi...
DNA repetitive sequences capable of adopting non-B DNA structures are a potent source of instability...
The mechanisms of trinucleotide repeat expansions, underlying more than a dozen hereditary neurologi...
A quantitative genetic assay was developed to monitor alterations in tract lengths of trinucleotide ...
Trinucleotide repeat (TNR) instability is of interest because of its central role in human diseases ...
International audienceTrinucleotide repeat expansions are responsible for at least two dozen neurolo...
Trinucleotide repeat expansions are responsible for more than two dozens severe neurological disorde...
AbstractSimple repetitive tracts of DNA are unstable in all organisms thus far examined. In the yeas...
Trinucleotide repeat expansions are responsible for more than two dozens severe neurological disorde...
International audienceTrinucleotide repeat expansions involving CTG/CAG triplets are responsible for...
At several loci in the human genome, expansions of CAG-CTG trinucleotide repeats cause neurological ...
AbstractSimple repetitive tracts of DNA are unstable in all organisms thus far examined. In the yeas...
Several human neurodegenerative diseases result from expansion of CTG/CAG or CGG/CCG triplet repeats...
SummaryExpansions of simple DNA repeats cause numerous hereditary diseases in humans. We analyzed th...
Friedreich’s ataxia (GAA)n repeats of various lengths were cloned into a Saccharymyces cerevisiae pl...
<div><p>DNA sequences capable of adopting non-canonical secondary structures have been associated wi...
DNA repetitive sequences capable of adopting non-B DNA structures are a potent source of instability...
The mechanisms of trinucleotide repeat expansions, underlying more than a dozen hereditary neurologi...
A quantitative genetic assay was developed to monitor alterations in tract lengths of trinucleotide ...
Trinucleotide repeat (TNR) instability is of interest because of its central role in human diseases ...
International audienceTrinucleotide repeat expansions are responsible for at least two dozen neurolo...
Trinucleotide repeat expansions are responsible for more than two dozens severe neurological disorde...
AbstractSimple repetitive tracts of DNA are unstable in all organisms thus far examined. In the yeas...
Trinucleotide repeat expansions are responsible for more than two dozens severe neurological disorde...
International audienceTrinucleotide repeat expansions involving CTG/CAG triplets are responsible for...
At several loci in the human genome, expansions of CAG-CTG trinucleotide repeats cause neurological ...
AbstractSimple repetitive tracts of DNA are unstable in all organisms thus far examined. In the yeas...
Several human neurodegenerative diseases result from expansion of CTG/CAG or CGG/CCG triplet repeats...
SummaryExpansions of simple DNA repeats cause numerous hereditary diseases in humans. We analyzed th...
Friedreich’s ataxia (GAA)n repeats of various lengths were cloned into a Saccharymyces cerevisiae pl...
<div><p>DNA sequences capable of adopting non-canonical secondary structures have been associated wi...