2007
DOI: 10.1073/pnas.0701323104
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Ionic effects on viral DNA packaging and portal motor function in bacteriophage φ29

Abstract: In many viruses, DNA is confined at such high density that its bending rigidity and electrostatic self-repulsion present a strong energy barrier in viral assembly. Therefore, a powerful molecular motor is needed to package the DNA into the viral capsid. Here, we investigate the role of electrostatic repulsion on single DNA packaging dynamics in bacteriophage 29 via optical tweezers measurements. We show that ionic screening strongly affects the packing forces, confirming the importance of electrostatic repulsi… Show more

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Cited by 141 publications
(182 citation statements)
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“…5A. The rate is constant during the first 20% of genome packaging, consistent with negligible internal force resisting DNA packaging in this low capsid filling regime, in accord with our findings with ϕ29 in the absence of Na + and theoretical predictions 6,19,21,22,23 . The average rate of 580 bp/s (SD 120 bp/s) is approximately equal to that at 5 pN determined in our velocity vs. load measurements (Fig.…”
Section: Internal Force Buildup During Packagingsupporting
confidence: 80%
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“…5A. The rate is constant during the first 20% of genome packaging, consistent with negligible internal force resisting DNA packaging in this low capsid filling regime, in accord with our findings with ϕ29 in the absence of Na + and theoretical predictions 6,19,21,22,23 . The average rate of 580 bp/s (SD 120 bp/s) is approximately equal to that at 5 pN determined in our velocity vs. load measurements (Fig.…”
Section: Internal Force Buildup During Packagingsupporting
confidence: 80%
“…Since the motor velocity decreases with increasing load (Fig. 3), this decrease in velocity with capsid filling is indicative of a building internal force resisting DNA confinement in the procapsid, as found previously with bacteriophage ϕ29 6,7 . The internal force may be deduced by relating the velocity measured in the velocity vs. filling dataset (Fig.…”
Section: Internal Force Buildup During Packagingmentioning
confidence: 62%
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