BACKGROUND: Most methods for cellular analysis require labeling with specific antibodies or dyes and are often destructive. We have developed a technology called Optophoresis trade mark, which measures cell physiology based on the cell's motion in a near-infrared optical gradient. This technique does not require labels, is nondestructive, and involves minimal sample processing. METHODS: We have used Optophoresis to interrogate nonproductive and productive adenovirus-infected cell lines. Using an adenoviral vector containing green fluorescent protein (GFP) as a secondary assay, we show that viral infection can be monitored with Optophoresis. RESULTS: In HeLa cells, adenovirus infection after 24 h caused a 12% to 17% increase in optophoretic motility of the cells. In 293 cells, adenovirus infection resulted in a 40% increase in the optophoretic motility. The P values obtained were 4.5 x 10(-11) between noninfected and infected HeLa cells, and 2.1 x 10(-13) between noninfected and infected 293 cells. Cells infected with adenovirus lacking the GFP reporter gene gave similar shifts. In a time course, we observed an optophoretic shift after 4 h of infection, well before GFP expression. CONCLUSIONS: Optophoresis provides nondestructive, label-free analysis of viral infection. Detection is independent of reporter gene expression and can be observed early in the infection process. Copyright 2004 Wiley-Liss, Inc.
BACKGROUND: Most methods for cellular analysis require labeling with specific antibodies or dyes and are often destructive. We have developed a technology called Optophoresis trade mark, which measures cell physiology based on the cell's motion in a near-infrared optical gradient. This technique does not require labels, is nondestructive, and involves minimal sample processing. METHODS: We have used Optophoresis to interrogate nonproductive and productive adenovirus-infected cell lines. Using an adenoviral vector containing green fluorescent protein (GFP) as a secondary assay, we show that viral infection can be monitored with Optophoresis. RESULTS: In HeLa cells, adenovirus infection after 24 h caused a 12% to 17% increase in optophoretic motility of the cells. In 293 cells, adenovirus infection resulted in a 40% increase in the optophoretic motility. The P values obtained were 4.5 x 10(-11) between noninfected and infected HeLa cells, and 2.1 x 10(-13) between noninfected and infected 293 cells. Cells infected with adenovirus lacking the GFP reporter gene gave similar shifts. In a time course, we observed an optophoretic shift after 4 h of infection, well before GFP expression. CONCLUSIONS: Optophoresis provides nondestructive, label-free analysis of viral infection. Detection is independent of reporter gene expression and can be observed early in the infection process. Copyright 2004 Wiley-Liss, Inc.