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BOX 2.6 METHODS End-point dilution assays

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End-point dilution assays are usually carried out in multiwell plastic plates (see the figure above). In the example shown in the adjacent table above, 10 monolayer cell cultures were infected with each virus dilution. After the incubation period, plates that displayed cytopathic effect were scored +. At high dilutions, none of the cell cultures are infected because no infectious particles are delivered to the cells; at low dilutions, every culture is infected. The end point is the dilution of virus that affects 50% of the test units. This number can be calculated from the data and expressed as 50% infectious dose (ID50) per milliliter. Fifty percent of the cell cultures displayed cytopathic effect at the 10–5 dilution, and therefore, the virus stock contains 105 TCID50 (tissue culture infectious dose) units.

Virus dilution Cytopathic effect
10–2 + + + + + + + + + +
10–3 + + + + + + + + + +
10–4 + + + + + + + + +
10–5 + + + + +
10–6 +
10–7

In most cases, the 50% end point does not fall on a dilution tested as shown in the example; for this reason, various statistical procedures have been developed to calculate the end point of the titration. In one popular method, the dilution containing the ID50 is identified by interpolation between the dilutions on either side of this value. The assumption is made that the location of the 50% end point varies linearly with the log of the dilution. Because the number of test units used at each dilution is usually small, the accuracy of this method is relatively low. For example, if six test units are used at each 10-fold dilution, differences in virus titer of only 50-fold or more can be detected reliably. The method is illustrated in the second example below, in which the lethality of poliovirus in mice is the end point. Eight mice were inoculated per dilution. In the method of Reed and Muench, the results are pooled, as shown in the table below, which equalizes chance variations (another way to achieve the same result would be to utilize greater numbers of animals at each dilution). The interpolated value of the 50% end point, which in this case falls between the 5th and 6th dilutions, is calculated to be 10–6.5. The virus sample therefore contains 106.5 LD50 (50% lethal dose). The LD50 may also be calculated as the concentration of the stock virus in PFU per milliliter (1 × 109) times the 50% end-point titer. In the example shown, the LD50 is 3 × 102 PFU.

 Reed LJ, Muench H. 1938. A simple method of estimating fifty percent endpoints. Am J Hyg 27:493–497.

Dilution Alive Dead Total alive Total dead Mortality ratio Mortality (%)
10–2 0 8 0 40 0/40 100
10–3 0 8 0 32 0/32 100
10–4 1 7 1 24 1/25 96
10–5 0 8 1 17 1/18 94
10–6 2 6 3 9 3/12 75
10–7 5 3 8 3 8/11 27

Although the linear nature of the dose-response curve indicates that a single particle is capable of initiating an infection (one-hit kinetics) (Fig. 2.8), the high particle-to-PFU ratio of many viruses demonstrates that not all virus particles are successful. High values are sometimes caused by the presence of noninfectious particles with genomes that harbor lethal mutations or that have been damaged during growth or purification (defective particles). An alternative explanation is that although all viruses in a preparation are in fact capable of initiating infection, not all of them succeed because of the complexity of the infectious cycle. Failure at any one step in the cycle prevents completion. In this case, a high particle-to-PFU ratio indicates not that most particles are defective but, rather, that they failed to complete the infection.

Table 2.1 Particle-to-PFU ratios of some animal viruses

Virus Particle/PFU ratio
Papillomaviridae
Papillomavirus 10,000
Picornaviridae
Poliovirus 30–1,000
Herpesviridae
Herpes simplex virus 50–200
Polyomaviridae
Polyomavirus 38–50
Simian virus 40 100–200
Adenoviridae 20–100
Poxviridae 1–100
Orthomyxoviridae
Influenza virus 20–50
Reoviridae
Reovirus 10
Alphaviridae
Semliki Forest virus 1–2
Principles of Virology, Volume 1

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