| scholarly article | Q13442814 |
| P2093 | author name string | W. S. Reznikoff | |
| T. W. Wiegand | |||
| P2860 | cites work | A rapid and sensitive method for the quantitation of microgram quantities of protein utilizing the principle of protein-dye binding | Q25938984 |
| Rapid and efficient site-specific mutagenesis without phenotypic selection | Q27860628 | ||
| Mutational analysis of insertion sequence 50 (IS50) and transposon 5 (Tn5) ends | Q33563641 | ||
| Copy number control of Tn5 transposition | Q33950121 | ||
| Integration host factor plays a role in IS50 and Tn5 transposition | Q36159148 | ||
| Induction of the SOS response in Escherichia coli inhibits Tn5 and IS50 transposition | Q36164307 | ||
| Temporal control of transposition in Tn5 | Q36189416 | ||
| p2 and inhibition of Tn5 transposition | Q36207194 | ||
| Membrane association of the Tnp and Inh proteins of IS50R | Q36254243 | ||
| dnaA, an essential host gene, and Tn5 transposition | Q36268631 | ||
| Host/vector interactions which affect the viability of recombinant phage lambda clones | Q36419893 | ||
| Trans-acting transposase mutant from Tn5. | Q37546816 | ||
| The evolutionary implications of mobile genetic elements | Q40080334 | ||
| Effect of dam methylation on Tn5 transposition | Q41252343 | ||
| lon-sulA regulatory function affects the efficiency of transposition of Tn5 from lambda b221 cI857 Pam Oam to the chromosome | Q41370098 | ||
| DNA gyrase is a host factor required for transposition of Tn5. | Q54514403 | ||
| Translation initiation of IS50R read-through transcripts | Q57250863 | ||
| Control of Tn5 transposition in Escherichia coli is mediated by protein from the right repeat | Q67233020 | ||
| Transcriptional and translational initiation sites of IS50. Control of transposase and inhibitor expression | Q68994312 | ||
| Use of a Tn5 derivative that creates lacZ translational fusions to obtain a transposition mutant | Q69830474 | ||
| Role of the IS50 R proteins in the promotion and control of Tn5 transposition | Q72394154 | ||
| The requirement for both DNA polymerase and 5' to 3' exonuclease activities of DNA polymerase I during Tn5 transposition | Q72903676 | ||
| A new class of mutants in DNA polymerase I that affects gene transposition | Q72952201 | ||
| P433 | issue | 4 | |
| P407 | language of work or name | English | Q1860 |
| P921 | main subject | microbiology | Q7193 |
| P304 | page(s) | 1229-1239 | |
| P577 | publication date | 1992-02-01 | |
| P1433 | published in | Journal of Bacteriology | Q478419 |
| P1476 | title | Characterization of two hypertransposing Tn5 mutants | |
| P478 | volume | 174 |
| Q33967883 | Bacteriophage T4 mutants hypersensitive to an antitumor agent that induces topoisomerase-DNA cleavage complexes. |
| Q36123427 | Characterization of the Tn5 transposase and inhibitor proteins: a model for the inhibition of transposition |
| Q38836237 | DNA Transposition at Work |
| Q35881128 | DNA length, bending, and twisting constraints on IS50 transposition |
| Q34294577 | Development of hyperactive sleeping beauty transposon vectors by mutational analysis |
| Q36974187 | Effective mutagenesis of Vibrio fischeri by using hyperactive mini-Tn5 derivatives |
| Q38323441 | Efficient large-scale sequencing of the Escherichia coli genome: implementation of a transposon- and PCR-based strategy for the analysis of ordered lambda phage clones |
| Q27639739 | Evidence for "unseen" transposase--DNA contacts |
| Q42149417 | Factors affecting transposition of the Himar1 mariner transposon in vitro |
| Q74473323 | Functional characterization of the Tn5 transposase by limited proteolysis |
| Q35650481 | Hyperactive transposase mutants of the Himar1 mariner transposon. |
| Q34718124 | Identification and characterization of a gain-of-function RAG-1 mutant |
| Q41908317 | Identification of basepairs within Tn5 termini that are critical sfor H-NS binding to the transpososome and regulation of Tn5 transposition |
| Q35605357 | Identification of new genes contributing to the extreme radioresistance of Deinococcus radiodurans using a Tn5-based transposon mutant library |
| Q36243502 | Large-Scale Transposition Mutagenesis of Streptomyces coelicolor Identifies Hundreds of Genes Influencing Antibiotic Biosynthesis |
| Q35236518 | Mechanistic aspects of DNA transposition |
| Q41129410 | Mutation of Tn5 transposase beta-loop residues affects all steps of Tn5 transposition: the role of conformational changes in Tn5 transposition |
| Q24561411 | Mutational analysis of the N-terminal DNA-binding domain of sleeping beauty transposase: critical residues for DNA binding and hyperactivity in mammalian cells |
| Q35974879 | Overexpression of the Tn5 transposase in Escherichia coli results in filamentation, aberrant nucleoid segregation, and cell death: analysis of E. coli and transposase suppressor mutations |
| Q54398285 | Physical properties of DNA components affecting the transposition efficiency of the mariner Mos1 element. |
| Q39717474 | Purification and biochemical analyses of a monomeric form of Tn5 transposase |
| Q34294570 | Sleeping beauty transposition: biology and applications for molecular therapy |
| Q54594542 | Systematic mapping of autonomously replicating sequences on chromosome V of Saccharomyces cerevisiae using a novel strategy. |
| Q73821741 | The C-terminal alpha helix of Tn5 transposase is required for synaptic complex formation |
| Q43191457 | The global bacterial regulator H-NS promotes transpososome formation and transposition in the Tn5 system |
| Q39840658 | The organization of the outside end of transposon Tn5 |
| Q27617962 | The three-dimensional structure of a Tn5 transposase-related protein determined to 2.9-A resolution |
| Q33964505 | Tn5 as a model for understanding DNA transposition |
| Q34304344 | Tn5 transposase with an altered specificity for transposon ends |
| Q72093167 | Tn5‐mediated bleomycin resistance in Escherichia coli requires the expression of host genes |
| Q97676622 | Transposase assisted tagmentation of RNA/DNA hybrid duplexes |
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