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Dr. Mildred Donlon explores the complex structures of channels in biological agent identification technologies. Channels function as amplifiers following simple rules, akin to devices. Dr. Donlon delves into the theories, trials, and selectivity of these technologies, emphasizing the significance of versions of theory. Additionally, she investigates the creation of a calcium channel, highlighting the importance of accurate identification methods. Join Dr. Donlon on this journey into the frontier of biological agent identification technologies.
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Biological Agent Identification Technologies Dr. Mildred Donlon
Channels have Inputs and Outputs Channels have Complex Structure that allows Simple Function just like amplifiers! Channels follow simple rules, just like amplifiers Channels as Devices Dr. Donlon: Biological Agent Identification Technologies
Trial and Error or Theory ?? Why Theory? You Choose ! Dr. Donlon: Biological Agent Identification Technologies
Crowded Charge What Theory? Dr. Donlon: Biological Agent Identification Technologies
Selectivity Dr. Donlon: Biological Agent Identification Technologies
It does not matter DFT (Density Functional) Nonner, Gillespie & Eisenberg MC (Monte Carlo) Henderson, et al MSA (Mean Spherical Approximation) Nonner & Eisenberg MCV (Monte Carlo Variational) Hansen et al All give the same results What Version of Theory? Dr. Donlon: Biological Agent Identification Technologies
Make a Calcium Channel ? Dr. Donlon: Biological Agent Identification Technologies
Make a Calcium Channel ?? We are trying !! Dr. Donlon: Biological Agent Identification Technologies
Many thanks … For a job well done!! To Millie Donlon Dr. Donlon: Biological Agent Identification Technologies