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Using Temperature-Sensitive Channels to Study Neural Circuitry
Devika G. Bansal | Nov 1, 2018 | 8 min read
Meet the researchers building a thermogenetic toolbox.
Picking a Needle out of a Haystack
Laura Defrancesco | Dec 6, 1998 | 3 min read
Gel Microdrop System from One Cell Systems can ferret out rare protein secreting cells Imagine, if you will, a single cell suspended in a drop. Now picture that same cell secreting a protein, say an immunoglobulin. Now envision that secreting cell embedded in a matrix that binds the protein as it leaves the cell, and you have the idea of the microdrop hybridoma selection system available from One Cell Systems. A modification of the microdrop technology described in 1991 by James Weaver, Associ
Scientists Use Various Methods To Tackle Protein Purification
James Kling | Jul 6, 1997 | 8 min read
Tedious, time-consuming, exasperating: Those are perhaps the three words that researchers use most commonly to describe protein purification. Proteins, and their little sisters the peptides, are among the most difficult compounds to purify. Enzyme degradation and chemical decomposition conspire to ruin protein samples throughout the steps of purification. Proteases in the original sample and varying salt concentrations can result in degradation or precipitation. Varying pH and temperature may
Antibodies Making Their Way From The Clinic To The Research Lab
Holly Ahern | Sep 17, 1995 | 10 min read
if (n == null) The Scientist - The Immune Response The Scientist 9[18]:18, Sep. 18, 1995 Tools The Immune Response By Holly Ahern Imagine that you've just cloned a gene for a bacterial enzyme with unique structural properties and you want to find out more about it. What natural role does the enzyme play, you wonder, and do organisms other than bacteria produce it? To answer these questions, you could screen countless genomic libraries for clones bearing si
Honing Your Cloning
Bob Sinclair | Aug 20, 2000 | 8 min read
Early attempts to design vehicles for the cloning of foreign DNA produced vectors that were too big, unstable, or unselectable. The tide turned in 1977 with the construction of pBR313, the direct ancestor of the well-known pBR322, which forms the basis of many vectors that are still used extensively today.1 However, the cloning systems introduced in the last year or so seem to be about as related to pBR313 as Ferraris are to little red Radio Flyer wagons. Some of the new protein expression syst
The Ties That Bind: Peptide Display Technology
Debra Swanson | Mar 14, 1999 | 10+ min read
Date: March 15, 1999 Phage Display Systems and Vectors Structure of the T7 phage particle. The negative-stained pattern from polyheads showing capsid hexamer and pentamer units has been fitted onto the surface of the icosahedral particle. A single monomer of the capsid protein is shaded in red. Figure provided by Novagen. Back in the early '50s, at a time when Elvis Presley was beginning his undisputed reign as the king of rock 'n' roll, bacteriophage were rearing their ugly heads (so to spe
Yeast: An Attractive, Yet Simple Model
Gregory Smutzer | Sep 16, 2001 | 9 min read
Yeast possesses many characteristics that make it especially useful as a model system in the laboratory, including an entirely sequenced genome. Recently, a number of researchers published studies detailing the transition from genome sequencing to functional genomics. Notably, these scientists have developed new high-throughput approaches to the characterization of large numbers of yeast genes. In aggregate, these studies make yeast one of the most well-characterized eukaryotic organisms known.
Ultimate Abs
Deborah Wilkinson | Apr 16, 2000 | 10+ min read
Antibody Purification Reagents The immune response is often exploited to produce those remarkably useful affinity reagents known as antibodies. Today's biological and biomedical laboratories employ an array of different immunochemical techniques. For example, a specific antibody can be harnessed to screen for the presence of its respective antigen, quantify the amount of antigen in a given sample, determine the antigen's subcellular location, isolate the antigen from complex mixtures, and sear
Field of Dreams
Aileen Constans | Jun 25, 2000 | 10+ min read
Magnetic Separation Systems Suppliers of Magnetic Microspheres for a Variety of Applications Labsystems' KingFisher Magnetic Particle Processor plunges into the magnetic separation scene. Since LabConsumer's last profile of magnetic bead technology, the use of paramagnetic particles in biological separations and detection has exploded.1 However, development of processing technologies has lagged behind refinements of the beads themselves. The instrumentation emerging within the last few years

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