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Best product is the NanoAtomChanger.Known As Cheat codes to life. Find me a better product ?
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How about one nanobot that could make a team of nanobots to change any atom into any other atom and create atoms of any type…
BME 695L Lecture 10: Nanodelivery of Therapeutic Genes and Molecular Biosensor Feedback Control Systems
26 Oct 2011 | | Contributor(s):: James Leary
See references below for related reading.10.1 Introduction and overview10.1.1 Some of the advantages of therapeutic genes10.1.2 Some of the advantages of molecular biosensor feedback control...
What simulation for simulating CNTFET as biosensor applications ?
I used simulator such as fettoy and moscnt for device simulation. However, I tried to find a mechanism for utilizing the CNTFET Fettoy as biosensor by relation the permittivity of the Gate...
Is there a good resource for learning about DNA and its lab tricks for an electrical engineer?
I am a Masters student with a background in materials science and electrical engineering (currently Electrical Engineering) and I have an idea for a DNA-based transistor but I want to know how...
2010 Nano-Biophotonics Summer School @ UIUC Lecture 19 - Spectral reflectance biosensing for label-free and dynamic detection of Protein, DNA and Viruses
29 Jan 2011 | | Contributor(s):: Bennett Goldberg
What limits the construction of mobile DNA nanojunctions?
How critical is the design of sequences in the construction of a DNA nanojunction? Is this the only limiting factor in the construction a mobile junction? What are the other factors that one...
Surface Characterization Studies of Carbon Materials: SS-DNA, SWCNT, Graphene, HOPG
16 Feb 2010 | | Contributor(s):: Dmitry Zemlyanov
In this presentation examples of surface characterization studies of carbon specimens will be presented. (1) In particularly, the systematic XPS (X-ray photoelectron spectroscopy) characterization of graphene grown on the SiC surface will be reported. This work demonstrates a use for XPS to...
Illinois Phys550 Molecular Biophysics Lecture 5: Genomics, Bioinformatics Tutorial II
10 Feb 2010 | | Contributor(s):: Klaus Schulten
Ribosome / H3 with case study DNA and RNAH2
Illinois 2009 nano-biophotonics Summer School, Lecture 12: A General Method for Screening Protein- DNA Interactions using Label-Free Photonic Crystal Biosensor Microplates
28 Oct 2009 | | Contributor(s):: Brian Cunningham
Method for Screening Protein- DNA Interactions using Label-Free Photonic Crystal Biosensor MicroplatesTopics: Apoptosis Inducing Factor (AIF) Parkinson's Disease Role of AIF in Parkinsons Disease Parkinsons Disease Treatment Photonic Crystal (PC) Biosensors What is an Optical Resonator? Optical...
Quantitative, Kinetic Models of Cellular Circuits
04 Apr 2009 | | Contributor(s):: Michael R. Brent
Living cells contain complex, analog circuits that regulate the rate at which each gene produces its product. The kinetic properties of these circuits enable cells to respond to changes in their environments and thus to survive, reproduce, and compete. For decades, molecular biologists have been...
Basic Rules of Protein Folding
out of 5 stars
31 Dec 2008 | | Contributor(s):: Seth Lichter
How are proteins made? Inside cells, messenger RNA first instructs the ribosomes as to the order which amino acids should be joined together. Linked together and released from the ribosome, the protein is not functional. It now needs to fold into a precise three-dimensional shape. There are no...
BNC Research Review: Carbon Nanotubes as Nucleic Acid Carriers
04 Jun 2008 | | Contributor(s)::
This presentation is part of a collection of presentations describing the projects, people, and capabilities enhanced by research performed in the Birck Center, and a look at plans for the upcoming year.
Lecture 2: Central Dogma of Biology; Partition Function
28 Apr 2008 | | Contributor(s):: Paul R Selvin
Nucleic Acids, DNA,RNA, Cell size, Nucleotides, Boltzman factor, Partition function
Modeling (Semi) Unstructured Proteins
26 Mar 2008 | | Contributor(s):: Michael Colvin
The past century has seen tremendous progress in determining the biochemical and biophysical processes that constitute life. One exciting consequence of this understanding is the possibility of developing mathematical models of biological function that are accurate and even predictive. My...
Combining New Experimental and Informatic Tools for Protein Investigation and Engineering
09 Jan 2008 | | Contributor(s):: Alan Friedman
The stability and activity of proteins is dependent on both the correct functioning and placement of individual amino acids and their interactions. Great attention has been paid to critical individual residues (generally revealed by their location in the active site and their conservation among...
New Dimension in Performance: Harnessing 3D Integration Technology
29 Nov 2007 | | Contributor(s):: Kerry Bernstein
Despite generation on generation of scaling, computer chips have remained essentially 2-dimensional. Improvements in on-chip wire delay, and in the total number of inputs and outputs has not been able to keep up with improvements to the transistor, and its getting harder and harder to hide it!...
BME 695N Lecture 15: Nanodelivery of therapeutic genes & molecular biosensor feedback control systems
30 Oct 2007 | | Contributor(s):: James Leary
Outline:Introduction and overviewSome of the advantages of therapeutic genesSome of the advantages of molecular biosensor feedback control systemsWhy a nanodelivery approach is appropriateThe therapeutic gene approachWhat constitutes a "therapeutic gene" ?Transient versus stable expression...
KIST/PU Design and Performance of Bioresponsive Nanocarriers with Tunable Reactivity for Drug and Gene Delivery
23 Oct 2007 | | Contributor(s):: Dave Thompson
Our lab has focused on the development of bioresponsive nanocarriers that are designed to release their cargo upon entry into acidic environments such as those found in cellular endosomes and sites of poor circulation. Computational methods have been used to design vinyl ether lipids of varying...
Introduction of MEMS Activity at Nano/Micro System Engineering Lab., Kyoto University
15 Sep 2007 | | Contributor(s):: OSAMU TABATA
We are aiming at the realization of microsystems and nanosystems with novel and unique functions by integrating functional elements in different domains such as mechanics, electronics, chemistry, optics and biotechnology. These micro/nano systems are expected to be novel machines, which will...