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Genomics & Proteomics
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The Lead

Study links enzyme to autistic behaviors

July 23, 2014 4:16 pm | by Iqbal Pittalwala, Univ. of California, Riverside | News | Comments

Fragile X syndrome (FXS) is a genetic disorder that causes obsessive compulsive and repetitive behaviors, and other behaviors on the autistic spectrum, as well as cognitive deficits. It’s the most common inherited cause of mental impairment and the most common cause of autism. Now biomedical scientists at the Univ. of California, Riverside have published a study that sheds light on the cause of autistic behaviors in FXS.

Spinach could lead to alternative energy more powerful than Popeye

July 23, 2014 4:07 pm | by Elizabeth K. Gardner, Purdue Univ. | News | Comments

Spinach gave Popeye super strength, but it also holds the promise of a different power for a...

Genetic mapping triggers new hope on schizophrenia

July 23, 2014 9:27 am | by Seth Borenstein, AP Science Writer | News | Comments

More than 100 researchers from around the world...

Researchers create vaccine for dust-mite allergies

July 23, 2014 8:32 am | by Richard C. Lewis, Univ. of Iowa | News | Comments

If you’re allergic to dust mites, help may be on the way. Researchers at the Univ. of Iowa have...

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Instrument enables high-speed chemical imaging of tissues

July 23, 2014 8:06 am | News | Comments

A research team from NIST, working with the Cleveland Clinic, has demonstrated a dramatically improved technique for analyzing biological cells and tissues based on characteristic molecular vibration "signatures." The new NIST technique is an advanced form of the widely used spontaneous Raman spectroscopy, but one that delivers signals that are 10,000 times stronger than obtained from spontaneous Raman scattering.

More than glitter

July 21, 2014 10:35 am | by Anne Trafton, MIT News Office | Videos | Comments

A special class of tiny gold particles can easily slip through cell membranes, making them good candidates to deliver drugs directly to target cells. A new study from Massachusetts Institute of Technology materials scientists reveals that these nanoparticles enter cells by taking advantage of a route normally used in vesicle-vesicle fusion, a crucial process that allows signal transmission between neurons. 

Scientists map one of the most important proteins in life—and cancer

July 21, 2014 9:26 am | News | Comments

In the U.K., researchers have revealed the structure of one of the most important and complicated proteins in cell division, the anaphase-promoting complex. Electron microscopy and software has produced images of the gigantic protein in unprecedented detail and could transform scientists' understanding of exactly how cells copy their chromosomes and divide. It could also reveal binding sites for future cancer drugs.

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Researchers uncover new cancer cell vulnerability

July 18, 2014 9:59 am | News | Comments

Yale School of Medicine and Yale Cancer Center researchers have uncovered a genetic vulnerability of cancer cells that express telomerase and showed that telomerase-expressing cells depend upon a gene named p21 for their survival. Authors found that simultaneous inhibition of both telomerase and p21 inhibited tumor growth in mice.

National Xenopus Resource at MBL innovates new way to study proteins

July 17, 2014 10:45 am | by Laurel Hamers, Marine Biological Laboratory | News | Comments

Many organisms that hold potential for proteomic analysis do not yet have a completely sequenced genome because the costs are prohibitive. Xenopus laevis, the African clawed frog, is one such species. Researchers at the Marine Biological Laboratory have found a work-around. Instead of relying on DNA, they used mRNA sequences to more efficiently create a reference database that can be used for proteomic analysis of Xenopus.

Cell membrane proteins give up their secrets

July 17, 2014 8:03 am | Videos | Comments

Biological physicists at Rice Univ. have succeeded in analyzing transmembrane protein folding in the same way they study the proteins’ free-floating, globular cousins. They have applied energy landscape theory to proteins that are hard to view because they are inside cell membranes. The method should increase the technique’s value to researchers who study proteins implicated in diseases and possibly in the creation of drugs to treat them.

Study: Squid skin protein could improve biomedical technologies

July 16, 2014 2:24 pm | News | Comments

The common pencil squid may hold the key to a new generation of medical technologies that could communicate more directly with the human body. Materials science researchers in California have discovered that reflectin, a protein in the tentacled creature’s skin, can conduct positive electrical charges, or protons, making it a promising material for building biologically inspired devices.  

Trying gene therapy to create biological pacemaker

July 16, 2014 2:22 pm | by Lauran Neergaard - AP Medical Writer - Associated Press | News | Comments

No batteries required: Scientists are creating a biological pacemaker by injecting a gene into the hearts of sick pigs that changed ordinary cardiac cells into a special kind that induces a steady heartbeat. The study, published Wednesday, is one step toward developing an alternative to electronic pacemakers that are implanted into 300,000 Americans a year.

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Removing parts of shape-shifting protein explains how blood clots

July 15, 2014 1:54 pm | News | Comments

Prothrombin is an inactive precursor for thrombin, a key blood-clotting protein, and is essential for life because of its ability to coagulate blood. Using x-ray crystallography, researchers have published the first image of this important protein. By removing disordered sections of the protein’s structure, scientists have revealed its underlying molecular mechanism for the first time.

Technology could screen for emerging viral diseases

July 15, 2014 11:58 am | by Stephen P Wampler, Lawrence Livermore National Laboratory | News | Comments

A microbe detection array technology developed by Lawrence Livermore National Laboratory (LLNL) scientists could provide a new rapid method for public health authorities to conduct surveillance for emerging viral diseases. This possible use of the Lawrence Livermore Microbial Detection Array (LLMDA) was studied by an international team of researchers from eight nations in a paper published in the PLOS ONE.

Study: Friends share similarities in their DNA

July 15, 2014 9:20 am | by Malcolm Ritter, AP Science Writer | News | Comments

You may be more similar to your friends than you think. A new study suggests that the DNA code tends to be more alike between friends than between strangers, and the similarity goes beyond the effect of shared ethnicity. The difference is slight but detectable and consistent, and the finding could be important for theories about human evolution.

Capturing cancer: A powerful, new technique for early diagnosis

July 15, 2014 8:28 am | by Richard Harth, Arizona State Univ. Biodesign Institute | News | Comments

Despite impressive medical strides, cancer remains a leading killer and overwhelming burden to healthcare systems, causing well over a half million fatalities per year with a projected cost of $174 billion by 2020, according to the National Cancer Institute. Reducing the human and economic toll will require diagnosis and intervention at early stages of illness, when the best prognosis for a cure exists.

Flower development in 3-D: Timing is the key

July 14, 2014 11:48 am | News | Comments

Developmental processes in all living organisms are controlled by genes. At the same time there is a continuous metabolism taking place. Recent research in Austria has analyzed this interaction in flowering plants. For the first time, changes in metabolism were linked to 3-D morphometric data using micro-computed tomography (micro-CT) for the first time.

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Tiny DNA pyramids enter bacteria easily

July 9, 2014 11:49 am | News | Comments

Bacterial infections usually announce themselves with pain and fever but often can be defeated with antibiotics—and then there are those that are sneaky and hard to beat. Now, scientists have built a new weapon against such pathogens in the form of tiny DNA pyramids. Published in ACS Applied Materials & Interfaces, their study found the nanopyramids can flag bacteria and kill more of them than medicine alone.

When faced with some sugars, bacteria can be picky eaters

July 9, 2014 8:31 am | by Matt Shipman, News Services, North Carolina State Univ. | News | Comments

Researchers from North Carolina State Univ. and the Univ. of Minnesota have found, for the first time, that genetically identical strains of bacteria can respond very differently to the presence of sugars and other organic molecules in the environment, with some individual bacteria devouring the sugars and others ignoring it.

Unprecedented detail of intact neuronal receptor offers blueprint for drug developers

July 9, 2014 8:23 am | by Tona Kunz, Argonne National Laboratory | News | Comments

Scientists succeeded in obtaining an unprecedented view of a type of brain cell receptor that is implicated in a range of neurological illnesses. The team of biologists at Cold Spring Harbor Laboratory used the Advanced Photon Source at Argonne National Laboratory to get an atomic-level picture of the intact NMDA (N-methyl, D-aspartate) receptor should serve as template and guide for the design of therapeutic compounds.

Scientists uncover new compounds that could affect circadian rhythm

July 9, 2014 7:45 am | News | Comments

Scientists from The Scripps Research Institute have discovered a surprising new role for a pair of compounds—which have the potential to alter circadian rhythm, the complex physiological process that responds to a cycle of light and dark and is present in most living things. At least one of these compounds could be developed as a chemical probe to uncover new therapeutic approaches to a range of disorders, including diabetes and obesity.

How knots can swap positions on a DNA strand

July 7, 2014 9:48 am | News | Comments

Recent computer simulations show how, for the first time, two knots on a DNA strand can interchange their positions, with one knot growing in size and the other diffusing along the contour of the first. This swapping of positions on a DNA strand may also happen in living organisms, and the mechanism may play an important role in future technologies such as nanopore sequencing.

New discovery in living cell signaling

July 7, 2014 9:33 am | by Lynn Yarris, Lawrence Berkeley National Laboratory | News | Comments

An international collaboration of researchers have unlocked the secret behind the activation of the Ras family of proteins, one of the most important components of cellular signaling networks in biology and major drivers of cancers that are among the most difficult to treat. To make the discovery, they performed single molecule studies of Ras activation in a membrane environment.

DNA origami nano-tool provides important clue to cancer

July 7, 2014 9:26 am | News | Comments

Researchers in Sweden have headed a study that provides new knowledge about the EphA2 receptor, which is significant in several forms of cancer. The researchers employed the method of DNA origami, in which a DNA molecule is shaped into a nanostructure, and used these structures to test theories about cell signalling.

Fluorescent molecular rotors could help find anti-cancer drugs

July 2, 2014 12:13 pm | News | Comments

Researchers have already used molecular rotors as viscosity sensor probes in live cells, but a recent study in Singapore is the first to report on the use of fluorescent molecular rotors to study critical protein interactions.

Behind a marine creature’s bright green fluorescent glow

July 2, 2014 9:43 am | News | Comments

Scientists at Scripps Institution of Oceanography have conducted the most detailed examination of green fluorescent proteins (GFPs) in lancelets, marine invertebrates also known as “amphioxus.” They have deciphered the structural components related to fluorescence and have found that only a few key structural differences at the nanoscale allows the sea creature to emit different brightness levels.

Automated dynamic light scattering benefits protein-protein quantifications

July 1, 2014 2:08 pm | Application Notes

Wyatt Technology Corp. has highlighted a recently authored study that outlines the advantages of quantifying protein-protein interactions (PPI) using automated dynamic light scattering (DLS) in high-throughput screening (HTS) mode to identify promising candidates for drug-like properties. Automated DLS helps establish the suitability of formulations before entering extended stability studies.

Cellular team players

July 1, 2014 9:41 am | News | Comments

Many enzymes work only with a co-trainer, of sorts. Scientists in Germany have shown what this kind of cooperation looks like in detail using a novel methodology applied to the heat shock protein Hsp90, which controls the proper folding of other proteins. Together with a second molecule, the co-chaperone P23, it splits the energy source ATP to yield the energy it needs to do its work.

Reconstructing the life history of a single cell

June 30, 2014 2:26 pm | News | Comments

Researchers have developed new methods to trace the life history of individual cells back to their origins in the fertilized egg. By looking at the copy of the human genome present in healthy cells, and by looking at the numbers and types of mutations in a cell's DNA, biologists in the U.K. have been able to build a picture of each cell's development from the early embryo on its journey to become part of an adult organ.

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