Early events in DNA packaging in a defined in vitro system of bacteriophage T3 |
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Authors: | H Shibata H Fujisawa T Minagawa |
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Affiliation: | 1. Institute of Biomedicine, Faculty of Medicine, University of Turku, Turku, Finland;2. Department of Computer Science, College of Engineering, Effat University, Jeddah, Saudi Arabia |
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Abstract: | We have developed a defined in vitro system for packaging phage T3 DNA which is composed of purified proheads and the noncapsid proteins gp18 and gp19, products of genes 18 and 19. The reaction requires Mg2+, ATP, and polyethylene glycol and is inhibited by a nonhydrolyzable ATP analog, adenosine-5'-O-(3'-thiotriphosphate) (ATP-gamma-S) (K. Hamada, H. Fujisawa, and T. Minagawa, 1986, Virology 151, 119-123). About 30% of added mature T3 DNA was packaged into heads in the defined system. A complex with a sedimentation coefficient of about 50 S (50 S complex) accumulated in the reaction mixture containing ATP-gamma-S. The 50 S complex was DNase sensitive and was converted to filled heads by a second reaction in the presence of ATP without addition of DNA, proheads, gp18, and gp19. These results indicate that during early stages of DNA packaging, formation of precursor complexes proceeds by an allosteric mechanism with ATP acting as effector. The movement of DNA into the head is driven by the energy released by hydrolysis of ATP. gp18 formed a complex with DNA without addition of ATP-gamma-S and gp19. gp18-DNA complex was DNase sensitive and did not bind gp19; it was converted to filled heads by way of a second reaction after addition of ATP, gp19, and proheads. gp19 formed a functional complex with prohead in the presence of ATP-gamma-S or ATP. The complex did not bind gp18 but was converted to filled heads by incubation with ATP, gp18, and DNA. In the absence of ATP-gamma-S, gp19 formed complexes with prohead that were abortive in DNA packaging. Formation of the 50 S complex occurred in a reaction mixture containing gp18-DNA and gp19-prohead complexes in the presence of ATP-gamma-S. From these results, we propose details of the molecular mechanism of DNA packaging in the defined in vitro system. |
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