Add to ORKGStudies of bacteriophage Mu transposition paved the way for understanding retroviral integration and V(D)J recombination as well as many other DNA transposition reactions. Here we report the structure of Mu transposase (MuA) in complex with bacteriophage DNA ends and target DNA, determined from data that extend anisotropically to 5.2/5.2/3.7Å resolution, in conjunction with previously-determined structures of individual domains. The highly intertwined structure illustrates why chemical activity depends on formation of the synaptic complex, and reveals that individual domains play different roles when bound to different sites. It also suggests explanations for the increased stability of the final product complex and for its preferential reco...
MuA transposase protein is a member of the retroviral integrase superfamily (RISF). It catalyzes DNA...
textPhage Mu transposes by two distinct pathways depending on the specific stage of its life cycle. ...
AbstractThe strand cleavage and strand transfer reactions of Mu DNA transposition require structural...
textTransposition of bacteriophage Mu takes place within nucleoprotein complexes called transpososo...
Thesis (Ph.D.)--Massachusetts Institute of Technology, Dept. of Chemistry, 2002.Vita.Includes biblio...
AbstractTransposition of phage Mu takes place within higher order protein-DNA complexes called trans...
AbstractThe chemical steps of bacteriophage Mu DNA transposition take place within a higher order nu...
AbstractMu transposition occurs exclusively using a pair of recombination sites found at the ends of...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Biology, 2002.Includes bibliographi...
Transposable phage Mu has played a major role in elucidating the mechanism of movement of mobile DN...
AbstractCentral to the Mu transpositional recombination are the two chemical steps; donor DNA cleava...
AbstractThe phage Mu transpososome is assembled by interactions of transposase subunits with the lef...
The Phage Mu transposase (MuA) is a 663 amino acid momomeric multidomain protein. A tetramer of MuA ...
AbstractBacteriophage Mu uses DNA transposition for propagation and is a model for transposition stu...
Bacteriophage Mu is one of the model systems to study DNA transposition. The availability of an in v...
MuA transposase protein is a member of the retroviral integrase superfamily (RISF). It catalyzes DNA...
textPhage Mu transposes by two distinct pathways depending on the specific stage of its life cycle. ...
AbstractThe strand cleavage and strand transfer reactions of Mu DNA transposition require structural...
textTransposition of bacteriophage Mu takes place within nucleoprotein complexes called transpososo...
Thesis (Ph.D.)--Massachusetts Institute of Technology, Dept. of Chemistry, 2002.Vita.Includes biblio...
AbstractTransposition of phage Mu takes place within higher order protein-DNA complexes called trans...
AbstractThe chemical steps of bacteriophage Mu DNA transposition take place within a higher order nu...
AbstractMu transposition occurs exclusively using a pair of recombination sites found at the ends of...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Biology, 2002.Includes bibliographi...
Transposable phage Mu has played a major role in elucidating the mechanism of movement of mobile DN...
AbstractCentral to the Mu transpositional recombination are the two chemical steps; donor DNA cleava...
AbstractThe phage Mu transpososome is assembled by interactions of transposase subunits with the lef...
The Phage Mu transposase (MuA) is a 663 amino acid momomeric multidomain protein. A tetramer of MuA ...
AbstractBacteriophage Mu uses DNA transposition for propagation and is a model for transposition stu...
Bacteriophage Mu is one of the model systems to study DNA transposition. The availability of an in v...
MuA transposase protein is a member of the retroviral integrase superfamily (RISF). It catalyzes DNA...
textPhage Mu transposes by two distinct pathways depending on the specific stage of its life cycle. ...
AbstractThe strand cleavage and strand transfer reactions of Mu DNA transposition require structural...