Add to ORKGExpansion of simple triplet repeats (TNR) underlies more than 30 severe degenerative diseases. There is a good understanding of the major pathways generating an expansion, and the associated polymerases that operate during gap filling synthesis at these "difficult to copy" sequences. However, the mechanism by which a TNR is repaired depends on the type of lesion, the structural features imposed by the lesion, the assembled replication/repair complex, and the polymerase that encounters it. The relationships among these parameters are exceptionally complex and how they direct pathway choice is poorly understood. In this review, we consider the properties of polymerases, and how encounters with GC-rich or abnormal structures might influence po...
The human fragile-X syndrome, a major cause of inherited mental retardation, is associated with expa...
Trinucleotide repeats (TNRs) are sequences prone to formation of non-B DNA structures and mutations;...
Precise duplication of the human genome is challenging due to both its size and sequence complexity....
Expansion of simple triplet repeats (TNR) underlies more than 30 severe degenerative diseases. There...
Trinucleotide repeat (TNR) tract expansions in specific genes are known to cause numerous neurologic...
DNA must constantly be repaired to maintain genome stability. Although it is clear that DNA repair r...
DNA must constantly be repaired to maintain genome stability. Although it is clear that DNA repair r...
Significant advances have been made recently in the study of polymerases. First came the realization...
Enhanced levels of DNA triplet expansion are observed when base excision repair (BER) of oxidative D...
Trinucleotide repeat (TNR) expansions are the cause of over 40 human neurodegenerative diseases, and...
SummaryExpansions of simple DNA repeats cause numerous hereditary diseases in humans. We analyzed th...
DNA is a chemically reactive molecule that is subject to many different covalent modifications from ...
SummaryTrinucleotide repeat (TNR) expansions are the underlying cause of more than 40 neurodegenerat...
Genomic instability, in the form of gene mutations, insertions/deletions, and gene amplifications, i...
Expansions of simple DNA repeats cause numerous hereditary diseases in humans. We analyzed the role ...
The human fragile-X syndrome, a major cause of inherited mental retardation, is associated with expa...
Trinucleotide repeats (TNRs) are sequences prone to formation of non-B DNA structures and mutations;...
Precise duplication of the human genome is challenging due to both its size and sequence complexity....
Expansion of simple triplet repeats (TNR) underlies more than 30 severe degenerative diseases. There...
Trinucleotide repeat (TNR) tract expansions in specific genes are known to cause numerous neurologic...
DNA must constantly be repaired to maintain genome stability. Although it is clear that DNA repair r...
DNA must constantly be repaired to maintain genome stability. Although it is clear that DNA repair r...
Significant advances have been made recently in the study of polymerases. First came the realization...
Enhanced levels of DNA triplet expansion are observed when base excision repair (BER) of oxidative D...
Trinucleotide repeat (TNR) expansions are the cause of over 40 human neurodegenerative diseases, and...
SummaryExpansions of simple DNA repeats cause numerous hereditary diseases in humans. We analyzed th...
DNA is a chemically reactive molecule that is subject to many different covalent modifications from ...
SummaryTrinucleotide repeat (TNR) expansions are the underlying cause of more than 40 neurodegenerat...
Genomic instability, in the form of gene mutations, insertions/deletions, and gene amplifications, i...
Expansions of simple DNA repeats cause numerous hereditary diseases in humans. We analyzed the role ...
The human fragile-X syndrome, a major cause of inherited mental retardation, is associated with expa...
Trinucleotide repeats (TNRs) are sequences prone to formation of non-B DNA structures and mutations;...
Precise duplication of the human genome is challenging due to both its size and sequence complexity....