Add to ORKGPalindromic sequences present in DNA may form secondary structures that block DNA replication and transcription causing adverse effects on genome stability. It has been suggested that hairpin structures containing mispaired bases could stimulate the repair systems in human cells. In this study, processing of variable length of palindromic loops in the presence or absence of single-base mismatches was investigated in human cell extracts. Our results showed that hairpin structures were efficiently processed through a nick-directed mechanism. In a similar sequence context , mismatch-containing hairpins have higher repair efficiencies . We also found that shorter hairpins are generally better repaired. A strand break located either 3' or 5' to ...
Trinucleotide repeat (TNR) tract expansions in specific genes are known to cause numerous neurologic...
markdownabstractLife can be separated from dead organic matter by looking at two characteristics: gr...
Replicative DNA polymerases are high-fidelity enzymes that misincorporate nucleotides into nascent D...
In human cells, large DNA loop heterologies are repaired through a nick- directed pathway independen...
The stability of DNA is a critical factor for several diseases, the most prevalent of which is cance...
SummaryDNA palindromes often colocalize in cancer cells with chromosomal regions that are predispose...
Small looped mispairs are corrected by DNA mismatch repair. In addition, a distinct process called l...
Mismatch repair corrects errors made during DNA replication and inactive mismatch repair is associat...
Small looped mispairs are corrected by DNA mismatch repair. In addition, a distinct process called l...
A DNA palindrome is a sequence of DNA followed by an exact inverted copy of itself. Palindromes are...
Small looped mispairs are efficiently corrected by mismatch repair. The situation with larger loops ...
Nicks are the most common form of DNA damage. The mechanisms of their repair are fundamental to geno...
Several human neurodegenerative diseases result from expansion of CTG/CAG or CGG/CCG triplet repeats...
The nick-directed DNA repair of a set of M13mp18 derived heteroduplexes containing 8-, 12-, 16-, 22-...
Nicks are the most frequent form of DNA damage and a potential source of mutagenesis in human cells....
Trinucleotide repeat (TNR) tract expansions in specific genes are known to cause numerous neurologic...
markdownabstractLife can be separated from dead organic matter by looking at two characteristics: gr...
Replicative DNA polymerases are high-fidelity enzymes that misincorporate nucleotides into nascent D...
In human cells, large DNA loop heterologies are repaired through a nick- directed pathway independen...
The stability of DNA is a critical factor for several diseases, the most prevalent of which is cance...
SummaryDNA palindromes often colocalize in cancer cells with chromosomal regions that are predispose...
Small looped mispairs are corrected by DNA mismatch repair. In addition, a distinct process called l...
Mismatch repair corrects errors made during DNA replication and inactive mismatch repair is associat...
Small looped mispairs are corrected by DNA mismatch repair. In addition, a distinct process called l...
A DNA palindrome is a sequence of DNA followed by an exact inverted copy of itself. Palindromes are...
Small looped mispairs are efficiently corrected by mismatch repair. The situation with larger loops ...
Nicks are the most common form of DNA damage. The mechanisms of their repair are fundamental to geno...
Several human neurodegenerative diseases result from expansion of CTG/CAG or CGG/CCG triplet repeats...
The nick-directed DNA repair of a set of M13mp18 derived heteroduplexes containing 8-, 12-, 16-, 22-...
Nicks are the most frequent form of DNA damage and a potential source of mutagenesis in human cells....
Trinucleotide repeat (TNR) tract expansions in specific genes are known to cause numerous neurologic...
markdownabstractLife can be separated from dead organic matter by looking at two characteristics: gr...
Replicative DNA polymerases are high-fidelity enzymes that misincorporate nucleotides into nascent D...