Add to ORKGIt has long been known that most Type II restriction endonucleases share a conserved core fold and similar active-sites. The same core folding motif is also present in the MutH protein, a component of the bacterial DNA mismatch repair machinery. In contrast to most Type II restriction endonucleases, which assemble into functional dimers and catalyze double-strand breaks, MutH is a monomer and nicks hemimethylated DNA. Recent biochemical and crystallographic studies demonstrate that the restriction enzymes BcnI and MvaI share many additional features with MutH-like proteins, but not with most other restriction endonucleases. The structurally similar monomers all recognize approximately symmetric target sequences asymmetrically. Differential ...
MutH initiates mismatch repair by nicking the transiently unmethylated daughter strand 5' to a GATC ...
Type II restriction endonucleases catalyze phosphodiester bond hydrolysis in bacteria to protect the...
Type I restriction-modification (RM) systems are comprised of two multi-subunit enzymes, the methylt...
It has long been known that most Type II restriction endonucleases share a conserved core fold and s...
Restriction endonuclease MvaI recognizes the sequence CC/WGG (W stands for A or T, '/' designates th...
Restriction endonuclease BcnI cleaves duplex DNA containing the sequence CC/SGG (S stands for C or G...
Restriction endonuclease BcnI cleaves duplex DNA containing the sequence CC/SGG (S stands for C or G...
Type II restriction endonuclease BsaWI recognizes a degenerated sequence 5′-W/CCGGW-3′ (W stands for...
DNA mismatch repair ensures faithful transmission of genetic material from parents to progeny, which...
Orthodox Type IIP restriction endonucleases, which are commonly used in molecular biological work, r...
SummaryThe type II restriction endonuclease BstYI recognizes the degenerate sequence 5′-RGATCY-3′ (w...
Type II restriction endonucleases are components of restriction modification systems that protect ba...
EcoRII is a type IIE restriction endonuclease characterized by a highly cooperative reaction mechani...
AbstractMost restriction endonucleases bridge two target sites before cleaving DNA: examples include...
HinP1I, a type II restriction endonuclease, recognizes and cleaves a palindromic tetranucleotide seq...
MutH initiates mismatch repair by nicking the transiently unmethylated daughter strand 5' to a GATC ...
Type II restriction endonucleases catalyze phosphodiester bond hydrolysis in bacteria to protect the...
Type I restriction-modification (RM) systems are comprised of two multi-subunit enzymes, the methylt...
It has long been known that most Type II restriction endonucleases share a conserved core fold and s...
Restriction endonuclease MvaI recognizes the sequence CC/WGG (W stands for A or T, '/' designates th...
Restriction endonuclease BcnI cleaves duplex DNA containing the sequence CC/SGG (S stands for C or G...
Restriction endonuclease BcnI cleaves duplex DNA containing the sequence CC/SGG (S stands for C or G...
Type II restriction endonuclease BsaWI recognizes a degenerated sequence 5′-W/CCGGW-3′ (W stands for...
DNA mismatch repair ensures faithful transmission of genetic material from parents to progeny, which...
Orthodox Type IIP restriction endonucleases, which are commonly used in molecular biological work, r...
SummaryThe type II restriction endonuclease BstYI recognizes the degenerate sequence 5′-RGATCY-3′ (w...
Type II restriction endonucleases are components of restriction modification systems that protect ba...
EcoRII is a type IIE restriction endonuclease characterized by a highly cooperative reaction mechani...
AbstractMost restriction endonucleases bridge two target sites before cleaving DNA: examples include...
HinP1I, a type II restriction endonuclease, recognizes and cleaves a palindromic tetranucleotide seq...
MutH initiates mismatch repair by nicking the transiently unmethylated daughter strand 5' to a GATC ...
Type II restriction endonucleases catalyze phosphodiester bond hydrolysis in bacteria to protect the...
Type I restriction-modification (RM) systems are comprised of two multi-subunit enzymes, the methylt...