MHRI (in the Amino Acid Font)
The University Of Michigan
Larry P. Taylor, Ph. D. (retired)
U of Michigan: lpt
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Michigan (in the Amino Acid Font)
This Page: Molecular Modeling Scuba Diving Web Links Distributed Computing
My background is primarily in organic chemistry. After obtaining my PH.D. in biochemistry while working full-time running a peptide synthesis laboratory, I came to the University of Michigan in 1986 for post-doctoral study in the laboratory of Huda Akil and Stan Watson. I have been with them at MHRI (now the Molecular & Behavioral Neuroscience Institute; MBNI) ever since. Their laboratory is involved in the anatomical and biochemical mapping of the brain circuitry involved in emotional responses, especially stress-related matters. My primary role is to examine molecules involved in these processes. I call it "molecular psychology" (If you were a ligand, where would you be most comfortable?). Since the labs of Huda Akil and Stan Watson are intimately related, those working in their lab have adapted a common name; we refer to the lab as the WAKIL group.
The Peptide Images On this Page are chemically correct representations of the amino acid sequences listed in the image (using the standard single letter amino acid code). The peptides were generated with SYBYL molecular modeling software and energy minimized using the Kollman All-Atom Force Field (with consideration of Kollman charges). The coloring scheme (except for school colors used in the MICHIGAN peptide) are based on physical properties of the individual amino acids. I have left the MHRI peptide here since there can be no named peptide for MBNI as there is no "B" in the amino acid code.
Brain Awareness Week Exhibit: Molecular Shape Determines Biological Activity (40 images, ~3.4 meg)
Fibroblast Growth Factors & Their Receptors: A Kinemage Collection
Modeling The MR Receptor (Birkbeck Protein Structure Course Project)
Simple Molecular Modeling (81 images, ~ 4.4 meg)
Divegeek (Diving Myths & Realities)
has been on-line since July, 2001.
It has had more than 1,200,000 visitors.
Harris Links is my entire collection of bookmarks (Validated ~ monthly; Last Validation: 12/ 24 /17).
This compilation is typically downloaded more than 1000 times / month (maximum monthly download: 15,390).
~ 6800 links; ~ 700 k)
Subsets: Chemistry / Molecular Modeling (~ 800 links; 150 k)
Scuba Diving (~1200 links; 145 k)
Classic SETI at Home
Classic SETI (Search for Extraterrestrial Intelligence) @ home was a global collection of people and institutions who donated time on their computers to assist in analyzing radio astronomy data with the hopes that embedded in stellar radio frequency radiation are signals that originate from sentient beings. This involves mathematical signal analysis of enormous proportions. SETI at Home pioneered the process (Distributed Computing) of splitting large computational workloads into small chunks for processing by home computers; managing downloads of data and uploads of finished computations, and finally reassembling and validating results from millions of individual computers to yield a finished determination. This made the SETI at Home project the equivalent of a massive (more than 5.4 million contributors) parallel processing super computer. It is perhaps the best-ever example of true global cooperation. The project terminated in December of 2005. At its termination, my contribution (from May, 1999 to December, 2005) was 17,171 work units (The equivalent of 14.13 years of cpu time). This was more than 99.72 % of all participants.
Classic SETI at home has evolved into BOINC (Berkeley Open Infrastructure for Network Computing) that uses a common client to manage multiple distributed computing projects. So, users can contribute computer processing time to a variety of projects including molecular protein folding, climate analysis, stellar gravitation and several projects directly related to medical research. Researchers can now consider computationally intense problems far beyond the cost and computing power of any single laboratory. SETI@Home is my primary project with Einstein@Home (Gravitational wave detection) as my secondary project. I also contributed to the now retired Predictor at home (Predicting protein 3D structure from an amino acid sequence). In order to keep my idle machines busy when my primary projects have no work available, I also contribute to MilkyWay@Home (Building 3-D map of the Milky Way Galaxy), the now inactive Docking@Home (Ligand Interactions with Proteins) , Rosetta@home (examination of 3-D shape of proteins), and CAS@Home (Predicting Protein Structure).
The use of the nvida 'cuda application allows the graphics processor on a video card to be used for numerical processing. At this time, only Einstein at home of my BOINC selections supplies work units for the nVidia processors on my Linux boxes, so my historical secondary project is now generating a ten-fold increase in productivity because of the 'cuda processing of work units.
I was the SETI at Home "User of the day" for December 12, 2008.
My Detailed BOINC Stats: SETI Einstein MilkyWay Rosetta BOINC Totals
U of MI Team Stats: SETI Einstein Total Member Contributions Team Projects
This page: Molecular Modeling Scuba Diving Web Links Distributed Computing
Web Site : Brain Awareness FGF Kinemages MR Receptor Divegeek Harris Links
Contents of this Web Site Copyright 2001- 2018 by Larry "Harris" Taylor, Ph. D.
All rights reserved.