G - Physics – 01 – B
Patent
G - Physics
01
B
33/176, 400/2002
G01B 5/12 (2006.01) B01D 65/10 (2006.01) C08G 73/02 (2006.01) C08G 83/00 (2006.01) G01N 15/08 (2006.01)
Patent
CA 1275750
ABSTRACT The present invention relates to processes for calibrating and characterizing substances having apertures ranging between 0.008 to 10 µm. These substances include discrete biological particles such as viruses, enzymes and proteins and other diverse subcellular components such as biological channels made of membrane proteins which allow nutrients, ions and other essential materials into plants or animal cells. This invention also relates to the novel covalently bridged dense star polymers or dendrimers that are exposed in the process. Present techniques for calibrating or measuring the apertures of such channels have met with only limited success because of the difficulty of designing a spherical structure as small as, for example, a cell channel (0.0015 to 0.002 µm). Such known techniques employ structures which are randomly coiled and tend to reptate or unravel when contacted with an aperture of a size smaller than the measuring structures. This unraveling of these measuring structures, in turn, 33,886-F induces tremendous variations in measurements, requiring weeks and even months to perform. Such known measuring structures include nonspherical, low molecular weight compounds and proteins. The use of these reptating or unraveling structures as probes leads to serious doubt as to the validity of the measured molecular diameters. The process of the subject invention, employing the novel covalently bridged dense star polymers, provides a precise, accurate and reliable method for calibrating and characterizing substances having submicron apertures. The process comprises contacting said substances with a plurality of the novel dense star polymers, passing through the aperture of said substances at least one dense star polymer having a molecular diameter which is equal to or less than the diameter of said aperture and calculating the diameter of said aperture from measurements of either those dense star polymers passing through or into said aperture, of those polymers not passing through, or of the combined measurements of those dense star polymers pa sing through or into said aperture and those not passing through or into. 33,886-F
538431
Tomalia Donald A.
Wilson Larry R.
Dendritic Nanotechnologies Inc.
Smart & Biggar
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