期刊
JOURNAL OF VIROLOGY
卷 76, 期 3, 页码 1051-1061出版社
AMER SOC MICROBIOLOGY
DOI: 10.1128/JVI.76.3.1051-1061.2002
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资金
- NIAID NIH HHS [R01 AI046440, R29 AI39533, R01 AI46440] Funding Source: Medline
- NIGMS NIH HHS [T32 GM008349, T32 GM08349] Funding Source: Medline
Kinetic analyses of infectivity loss during thermal inactivation of reovirus particles revealed substantial differences between virions and infectious subvirion particles (ISVPs), as well as between the ISVPs of reoviruses type 1 Lang (T1L) and type 3 Dearing (T3D). The difference in thermal inactivation of T1L and T3D) ISVPs,was attributed to the major surface protein mu1 by genetic analyses with reassortant viruses and recoated cores. Irreversible conformational changes in ISVP-bound mu1 were shown to accompany thermal inactivation. The thermal inactivation of ISVPs approximated first-order kinetics over a range of temperatures, permitting the use of Arrhenius plots to estimate activation enthalpies and entropies that account for the different behaviors of T1L and T3D. An effect similar to enthalpy-entropy compensation was additionally noted for the ISVPs of these two isolates. Kinetic analyses with other ISVP-like particles, including ISVPs of a previously reported thermostable mutant, provided further insights into the role of mu1 as a determinant of thermostability. Intact virions, which contain sigma3 bound to mu1 as their major surface proteins, exhibited greater thermostability than ISVPs and underwent thermal inactivation with kinetics that deviated from first order, suggesting a role for sigma3 in both these properties. The distinct inactivation behaviors of ISVPs are consistent with their role as an essential intermediate in reovirus entry.
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