scholarly article | Q13442814 |
P2093 | author name string | Kay CM | |
McCubbin WD | |||
Chaconas G | |||
P2860 | cites work | Transposition of Mu DNA: joining of Mu to target DNA can be uncoupled from cleavage at the ends of Mu. | Q54758987 |
Mechanism of transposition of bacteriophage Mu: structure of a transposition intermediate. | Q54795888 | ||
Analysis of the ends of bacteriophage Mu using site-directed mutagenesis | Q58018717 | ||
Transpososomes: Stable protein-DNA complexes involved in the in vitro transposition of bacteriophage Mu DNA | Q61827050 | ||
Snake toxin secondary structure predictions. Structure activity relationships | Q67044374 | ||
The origin of the tyrosyl circular dichroism of tropomyosin | Q67754894 | ||
Target immunity of Mu transposition reflects a differential distribution of Mu B protein | Q70051723 | ||
Electron microscopic analysis of in vitro transposition intermediates of bacteriophage Mu DNA | Q70170398 | ||
Protein-DNA recognition | Q22065421 | ||
Prediction of protein conformation | Q28240456 | ||
New hydrophilicity scale derived from high-performance liquid chromatography peptide retention data: correlation of predicted surface residues with antigenicity and X-ray-derived accessible sites | Q30708262 | ||
Surface and inside volumes in globular proteins | Q34302010 | ||
B protein of bacteriophage mu is an ATPase that preferentially stimulates intermolecular DNA strand transfer | Q34592290 | ||
Structural domains in phage Mu transposase: identification of the site-specific DNA-binding domain | Q34607774 | ||
The nucleotide sequence of theBgene of bacteriophage Mu | Q35474461 | ||
A defined system for the DNA strand-transfer reaction at the initiation of bacteriophage Mu transposition: protein and DNA substrate requirements | Q37554554 | ||
Primary structure of phage mu transposase: homology to mu repressor | Q37555385 | ||
DNA sequences at the ends of the genome of bacteriophage Mu essential for transposition. | Q37683282 | ||
Mechanism of Mu DNA transposition | Q39327172 | ||
A truncated form of the bacteriophage Mu B protein promotes conservative integration, but not replicative transposition, of Mu DNA. | Q41381197 | ||
Circular-dichroism studies on two murine serum amyloid A proteins | Q42163690 | ||
In vitro transposition of bacteriophage Mu: A biochemical approach to a novel replication reaction | Q43875515 | ||
Cloning of the A gene of bacteriophage Mu and purification of its product, the Mu transposase | Q44683792 | ||
Structure-function relationships in the transposition protein B of bacteriophage Mu. | Q46668363 | ||
Amplification and purification of the bacteriophage Mu encoded B transposition protein | Q48380750 | ||
Site-specific recognition of the bacteriophage mu ends by the mu a protein | Q48385604 | ||
Estimation of globular protein secondary structure from circular dichroism. | Q51259487 | ||
P433 | issue | 1 | |
P407 | language of work or name | English | Q1860 |
P921 | main subject | bacteriophage | Q165028 |
P1104 | number of pages | 5 | |
P304 | page(s) | 19-23 | |
P577 | publication date | 1989-10-01 | |
P1433 | published in | Biochemical Journal | Q864221 |
P1476 | title | Secondary structural features of the bacteriophage Mu-encoded A and B transposition proteins | |
P478 | volume | 263 |
Q27627798 | The solution structure of the C-terminal domain of the Mu B transposition protein | cites work | P2860 |
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