<p>Estimations of burst size and virus infectivity rate for <i>t<sub>T</sub></i><sub>,2</sub> = 30 hours.</p
†<p>Rates are given per hour if not otherwise indicated.</p>‡<p>In more complex versions of the mode...
<p>Threshold modelling results for the relationship between assay duration and estimated CQ EC<sub>5...
<p>Burst Size (i.e. viral progeny produced per host cell lost calculated over a 24-hour period) for ...
<p>Infectivity titers for virus stocks determined by ELISA (at 22 hours, ±TPCK-trypsin) or microscop...
<p>(A) <i>k</i><sub>inf</sub> decreases as <i>t<sub>T</sub></i><sub>,2</sub> changes from 18 to 48 h...
<p>Burst Sizes for strains (A) CCMP 374, (B) CCMP 1516, (C) DWN 61/87/10, and (D) CCMP 392. Burst si...
<div><p>(A) Plots an example of the replication rate <i>r</i>(<i>t</i>) and the killing rate <i>k</i...
Lethal time (LT) estimates and probit output for bed bug populations exposed to 45°C.</p
<p>The number of infected cells <i>n<sub>I</sub></i> versus time <i>t</i>, for Model 1 with multiple...
<p>Data are means and standard errors for the number of plaque-forming units (PFU = number of infect...
Many biological assays are employed in virology to quantify parameters of interest. Two such classes...
<p>A: Using the ratio of the number of copies of reactivation founder viruses to estimate rate of in...
<p>(A) Comparison between the initial infectivity estimates (eI<sub>24</sub>) derived from the cell ...
<p>(<b>A</b>) JU1580 was exposed to 30 µL virus in solution for 0.5, 1, 2, 4 and 8h. The relative vi...
<p>(A & B) Sample size with three different reproduction numbers as a function of the margin of erro...
†<p>Rates are given per hour if not otherwise indicated.</p>‡<p>In more complex versions of the mode...
<p>Threshold modelling results for the relationship between assay duration and estimated CQ EC<sub>5...
<p>Burst Size (i.e. viral progeny produced per host cell lost calculated over a 24-hour period) for ...
<p>Infectivity titers for virus stocks determined by ELISA (at 22 hours, ±TPCK-trypsin) or microscop...
<p>(A) <i>k</i><sub>inf</sub> decreases as <i>t<sub>T</sub></i><sub>,2</sub> changes from 18 to 48 h...
<p>Burst Sizes for strains (A) CCMP 374, (B) CCMP 1516, (C) DWN 61/87/10, and (D) CCMP 392. Burst si...
<div><p>(A) Plots an example of the replication rate <i>r</i>(<i>t</i>) and the killing rate <i>k</i...
Lethal time (LT) estimates and probit output for bed bug populations exposed to 45°C.</p
<p>The number of infected cells <i>n<sub>I</sub></i> versus time <i>t</i>, for Model 1 with multiple...
<p>Data are means and standard errors for the number of plaque-forming units (PFU = number of infect...
Many biological assays are employed in virology to quantify parameters of interest. Two such classes...
<p>A: Using the ratio of the number of copies of reactivation founder viruses to estimate rate of in...
<p>(A) Comparison between the initial infectivity estimates (eI<sub>24</sub>) derived from the cell ...
<p>(<b>A</b>) JU1580 was exposed to 30 µL virus in solution for 0.5, 1, 2, 4 and 8h. The relative vi...
<p>(A & B) Sample size with three different reproduction numbers as a function of the margin of erro...
†<p>Rates are given per hour if not otherwise indicated.</p>‡<p>In more complex versions of the mode...
<p>Threshold modelling results for the relationship between assay duration and estimated CQ EC<sub>5...
<p>Burst Size (i.e. viral progeny produced per host cell lost calculated over a 24-hour period) for ...
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