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3. Jones, J.I., and Clemmons, D.R., Insulin-like
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with Stokes radius of 34 angstroms between 7 and 50
micromolar.9 At approximately 50 micromolar, a
transition occurs to a larger size micelle with a 72
angstrom Stokes radius.9 The average aggregation
with Stokes radius of 34 angstroms between 7 and 50
micromolar.9 At approximately 50 micromolar, a
transition occurs to a larger size micelle with a 72
angstrom Stokes radius.9 The average aggregation
with Stokes radius of 34 angstroms between 7 and 50
micromolar.9 At approximately 50 micromolar, a
transition occurs to a larger size micelle with a 72
angstrom Stokes radius.9 The average aggregation
with Stokes radius of 34 angstroms between 7 and 50
micromolar.9 At approximately 50 micromolar, a
transition occurs to a larger size micelle with a 72
angstrom Stokes radius.9 The average aggregation
with Stokes radius of 34 angstroms between 7 and 50
micromolar.9 At approximately 50 micromolar, a
transition occurs to a larger size micelle with a 72
angstrom Stokes radius.9 The average aggregation
with Stokes radius of 34 angstroms between 7 and 50
micromolar.9 At approximately 50 micromolar, a
transition occurs to a larger size micelle with a 72
angstrom Stokes radius.9 The average aggregation
with Stokes radius of 34 angstroms between 7 and 50
micromolar.9 At approximately 50 micromolar, a
transition occurs to a larger size micelle with a 72
angstrom Stokes radius.9 The average aggregation
with Stokes radius of 34 angstroms between 7 and 50
micromolar.9 At approximately 50 micromolar, a
transition occurs to a larger size micelle with a 72
angstrom Stokes radius.9 The average aggregation
with Stokes radius of 34 angstroms between 7 and 50
micromolar.9 At approximately 50 micromolar, a
transition occurs to a larger size micelle with a 72
angstrom Stokes radius.9 The average aggregation
with Stokes radius of 34 angstroms between 7 and 50
micromolar.9 At approximately 50 micromolar, a
transition occurs to a larger size micelle with a 72
angstrom Stokes radius.9 The average aggregation
micelles
with Stokes radius of 34 angstroms between 7 and 50
micromolar.9 At approximately 50 micromolar, a
transition occurs to a larger size micelle with a 72
angstrom Stokes radius.9 The average aggregation
with Stokes radius of 34 angstroms between 7 and 50
micromolar.9 At approximately 50 micromolar, a
transition occurs to a larger size micelle with a 72
angstrom Stokes radius.9 The average aggregation
with Stokes radius of 34 angstroms between 7 and 50
micromolar.9 At approximately 50 micromolar, a
transition occurs to a larger size micelle with a 72
angstrom Stokes radius.9 The average aggregation
with Stokes radius of 34 angstroms between 7 and 50
micromolar.9 At approximately 50 micromolar, a
transition occurs to a larger size micelle with a 72
angstrom Stokes radius.9 The average aggregation
A, Taylor DL. Systems cell biology based on high-content
screening. Methods Enzymol. 2006;414:601-619. PMID: 17110213
3. Giuliano KA. Optimizing the integration of immunoreagents and fluorescent probes