মঙ্গলবার, ৭ মে, ২০১৩

MicroRNA cooperation mutes breast cancer oncogenes

May 7, 2013 ? A University of Colorado Cancer Center study recently published in the journal Cell Death & Disease shows that turning up a few microRNAs a little may offer as much anti-breast-cancer activity as turning up one microRNA a lot -- and without the unwanted side effects.

It's a bit like the classic thought experiment known as the "tumor problem" formulated by Karl Dunker in 1945 and used frequently in the problem-solving literature: Imagine a person suffers from a malignant tumor in the center of her body. Radiation strong enough to kill the tumor kills any healthy tissue through which it passes. Without operating or killing healthy tissue, how can a doctor use radiation to kill the tumor?

The answer is to target the tumor from many angles -- many weak rays of radiation pass harmlessly through healthy tissue, but their combined power at the point of the tumor is enough to kill it.

In the present study, CU Cancer Center investigators used "weak" induction of multiple microRNAs that combined from many angles to regulate the known breast cancer oncogenes erbB2/erbB3 (the "tumor") without regulating non-target genes (the "healthy tissue").

"Imagine you have a microRNA that regulates genes A and B. Then you have another microRNA that regulates genes B and C. You amplify each microRNA to a degree that doesn't effect gene A or C, but their combined effect regulates gene B," says Bolin Liu, MD, assistant professor in the Department of Pathology at the University of Colorado School of Medicine.

microRNA is an attractive target in cancer therapy -- more microRNA can lead to less gene expression, turning down or off the oncogenes that cause cancer. However, to get the desired effect on gene expression frequently requires enhancing microRNA expression 100- or 1,000-fold (or more). And the induced microRNA likely has other genetic targets -- it will turn down other genes as well as the oncogene, sometimes with unfortunate consequences.

"The current study showed that two microRNAs enhanced only 3-to-6 times their natural expression could cooperate to regulate an oncogene that had previously only been affected by a microRNA enhanced by many, many times this amount," Liu says.

Specifically, the group's work shows that no one alone, but any two of the three microRNAs that regulate erbB2/erbB3 expression can affect the levels of proteins produced by the genes. These are miR-125a, miR-15b, and miR-205, which act in concert to regulate the expression of erbB2/erbB3, which are cancer-causing products of the oncogenes.

But in general, the group's novel technique could have implications far past erbB2/erbB3, allowing researchers and eventually doctors to mute the genes they want to mute without also dampening the expression of genes regulated by only one or only the other microRNA partner.

Disclaimer: This article is not intended to provide medical advice, diagnosis or treatment. Views expressed here do not necessarily reflect those of ScienceDaily or its staff.

Source: http://feeds.sciencedaily.com/~r/sciencedaily/most_popular/~3/YZOg3TD17iw/130507134649.htm

ocean city maryland Nexus 7 KDKA Pumpkin Carving Ideas Hurricane Sandy path sandy Time Change 2012

Neiker-Tecnalia and FARMARABA produce Omega 3 using marine plant micro-organisms

Neiker-Tecnalia and FARMARABA produce Omega 3 using marine plant micro-organisms [ Back to EurekAlert! ] Public release date: 6-May-2013
[ | E-mail | Share Share ]

Contact: Irati Kortabitarte
i.kortabitarte@elhuyar.com
34-943-363-040
Elhuyar Fundazioa

Neiker-Tecnalia, the Basque Institute for Agricultural Research and Development, and the company FARMARABA S.L. are working together on a Project designed to produce Omega 3 using marine plant micro-organisms. The ultimate aim is to develop in-house technologies to obtain this highly valued fatty acid, and then apply them at a FARMARABA production plant.

Researchers at the R&D centre, which has proven experience in the biotechnology and agri-foodstuff sector, have managed to obtain meal with a high Omega 3 content by means of the fermentation processes of various marine plant micro-organisms. The experts are seeking to identify and isolate the micro-organisms most suited to producing the fatty acid. They are also researching the most suitable fermentation conditions to obtain types of meal with a greater nutritional value and which are suitable for food applications.

The technology to produce Omega 3 by cultivating micro-organisms is the basis of a flourishing biotechnology industry. So Neiker-Tecnalia and Farmaraba have committed themselves to active collaboration in the development of in-house technologies and in the identification of new micro-organisms capable of producing Omega 3, a functional ingredient increasingly being called for in the production of foodstuffs with a high nutritional value.

The project is being funded by FARMARABA S.L., a subsidiary of Grupo Elgorriaga BRANDS set up in Vitoria-Gasteiz (Basque Country) in 2010. The company, which is in the biotechnology sector, is committed to research in a sector where development is booming: the production and marketing of functional ingredients for food use.

The quest for food that is more health-giving

The improvement in eating habits and the consumption of natural products are turning into a collective awareness in the quest for health and wellbeing. This social awareness has driven demand for innovative foodstuffs formulated so that they are more nutritional and more health-giving. For many years the food market has been offering new products with a high fibre content, low in fat, fat-free or low in sugar, but the demand for health-giving foodstuffs continues to expand and consumers are seeking new, more sophisticated products that include compounds essential for health, like Omega 3 fatty acids.

The year 2000 saw the launching onto the market worldwide of nearly 140 new products that contained Omega 3, while nearly 2,000 appeared in 2009; this accounts for approximately 3% of the total of new products on the food market. The market for products with Omega 3 is set to go on expanding in Europe at a rate of 24% per year until 2014, according to a recent study by the Frost & Sullivan consulting company.

###


[ Back to EurekAlert! ] [ | E-mail | Share Share ]

?


AAAS and EurekAlert! are not responsible for the accuracy of news releases posted to EurekAlert! by contributing institutions or for the use of any information through the EurekAlert! system.


Neiker-Tecnalia and FARMARABA produce Omega 3 using marine plant micro-organisms [ Back to EurekAlert! ] Public release date: 6-May-2013
[ | E-mail | Share Share ]

Contact: Irati Kortabitarte
i.kortabitarte@elhuyar.com
34-943-363-040
Elhuyar Fundazioa

Neiker-Tecnalia, the Basque Institute for Agricultural Research and Development, and the company FARMARABA S.L. are working together on a Project designed to produce Omega 3 using marine plant micro-organisms. The ultimate aim is to develop in-house technologies to obtain this highly valued fatty acid, and then apply them at a FARMARABA production plant.

Researchers at the R&D centre, which has proven experience in the biotechnology and agri-foodstuff sector, have managed to obtain meal with a high Omega 3 content by means of the fermentation processes of various marine plant micro-organisms. The experts are seeking to identify and isolate the micro-organisms most suited to producing the fatty acid. They are also researching the most suitable fermentation conditions to obtain types of meal with a greater nutritional value and which are suitable for food applications.

The technology to produce Omega 3 by cultivating micro-organisms is the basis of a flourishing biotechnology industry. So Neiker-Tecnalia and Farmaraba have committed themselves to active collaboration in the development of in-house technologies and in the identification of new micro-organisms capable of producing Omega 3, a functional ingredient increasingly being called for in the production of foodstuffs with a high nutritional value.

The project is being funded by FARMARABA S.L., a subsidiary of Grupo Elgorriaga BRANDS set up in Vitoria-Gasteiz (Basque Country) in 2010. The company, which is in the biotechnology sector, is committed to research in a sector where development is booming: the production and marketing of functional ingredients for food use.

The quest for food that is more health-giving

The improvement in eating habits and the consumption of natural products are turning into a collective awareness in the quest for health and wellbeing. This social awareness has driven demand for innovative foodstuffs formulated so that they are more nutritional and more health-giving. For many years the food market has been offering new products with a high fibre content, low in fat, fat-free or low in sugar, but the demand for health-giving foodstuffs continues to expand and consumers are seeking new, more sophisticated products that include compounds essential for health, like Omega 3 fatty acids.

The year 2000 saw the launching onto the market worldwide of nearly 140 new products that contained Omega 3, while nearly 2,000 appeared in 2009; this accounts for approximately 3% of the total of new products on the food market. The market for products with Omega 3 is set to go on expanding in Europe at a rate of 24% per year until 2014, according to a recent study by the Frost & Sullivan consulting company.

###


[ Back to EurekAlert! ] [ | E-mail | Share Share ]

?


AAAS and EurekAlert! are not responsible for the accuracy of news releases posted to EurekAlert! by contributing institutions or for the use of any information through the EurekAlert! system.


Source: http://www.eurekalert.org/pub_releases/2013-05/ef-naf050613.php

Evil Dead halle berry kurt cobain Kamala Harris URI Facebook Home Ncaa Basketball Tournament 2013

UK lawmaker denies sex assault, rape allegations

LONDON (AP) ? A senior British Conservative Party politician says allegations against him of rape and sexual assault are "completely false."

Deputy House of Commons Speaker Nigel Evans, 55, was arrested on Saturday. He was questioned about sex offenses that allegedly took place between July 2009 and March 2013 and was later released on bail.

Evans ? who has served in Parliament for two decades ? says the allegations were made by "two people well known to each other" and who until recently he had regarded as friends, even socializing with one accuser last week.

He said in a brief statement Sunday that "the complaints are completely false" and he "cannot understand why they have been made."

Evans, from Lancashire, northwest England, was elected in June 2010 as one of three deputy speakers.

Source: http://news.yahoo.com/uk-lawmaker-denies-sex-assault-rape-allegations-092307070.html

abercrombie abercrombie ohio state football cyber monday lupus iCarly banana republic

রবিবার, ৫ মে, ২০১৩

Friday?s Gossip

Friday’s Gossip

Beyonce has big feetFlorence Welch Channels a Witch?[The Frisky] Beyonce Hires Photogs for Concert?[HollyWire] Reese Witherspoon Arrest Video Released?[Right Celebrity] Justin Timberlake Signs on for Another Acting Gig?[The Celebrity Cafe] Katy Perry Slammed By Her Dad?[The Blemish] Jennifer Aniston was a Fat Kid?[The Huffington Post] Josh Duhamel Ripped Off By Nudist Beach in Italy?[Girls Talkin Smack] Kelly Rutherford ...

Friday’s Gossip Stupid Celebrities Gossip Stupid Celebrities Gossip News

Source: http://stupidcelebrities.net/2013/05/fridays-gossip/

Miami Heat Harlem Shake Harlem Shake Miami Heat dr seuss mariah carey History Channel The Bible alex smith alex smith

Fishing float rides 2 tsunamis -- and survives

Natural Resources Canada

A fishing float thought to be Japan tsunami debris was carried into a Canadian forest by a 2012 tsunami after the Haida Gwaii earthquake.

By Becky Oskin
LiveScience

A barrel-size black plastic float torn loose by the 2011 Japan tsunami may have been tossed into a Canadian forest by a second tsunami in 2012, researchers say.

Though the hollow float hasn't been officially confirmed as tsunami debris, it is identical to a float embossed with the name "Musashi" found in the U.S. Dungeness National Wildlife Refuge in May 2012, the researchers said. A similar float was traced to an oyster farm in northeast Japan. The debris from the devastating 2011 tsunami has washed up from Alaska to California to Hawaii.

"This is a float that was caught up in the tsunami from Japan, so it is doubly tsunami debris," seismologist Alison Bird of the Geological Survey of Canada said at the Seismological Society of America's annual meeting on April 19. The float was discovered in Sunday Inlet on Moresby Island in British Columbia. The island is part of Haida Gwaii, once called the Queen Charlotte Islands. [Infographic: Tracking Japan's Tsunami Debris]

Second tsunami
The magnitude-7.7 Haida Gwaii earthquake on Oct. 27, 2012, triggered the tsunami, which raced far up western inlets on Moresby Island and Graham Island, but caused little damage on either island's populated eastern side. The powerful wave also sped straight to Hawaii, hitting with a maximum height of 2.5 feet (76 centimeters) and no serious flooding or damage.

The tsunami run-up, which measures how far water surges onshore, was as much as 22 feet (7 meters) in protected bays on the islands' west coasts, Gary Rogers, a Geological Survey of Canada scientist, said at the meeting. (A hurricane-force storm hit the islands just after the earthquake, destroying any record of the tsunami except in protected areas, Rogers said.)

Natural Resources Canada

Seaweed wrapped around trees in Sunday Inlet on Moresby Island by the 2012 Haida Gwaii tsunami.

Lucinda Leonard, the Geological Survey scientist who discovered the fishing float, also found dead fish in the forest moss and logs shoved out of place by the tsunami. Seaweed was wrapped around tree branches up to 8 feet (2.5 m) high in Sunday Inlet, where the float ended its journey.

A strange earthquake
Geologists are still puzzling over the unusual Haida Gwaii earthquake, which surprised scientists because of its unexpected style. Understanding what caused the quake will help them forecast the region's earthquake and tsunami hazards.

Two tectonic plates meet west of Haida Gwaii: the Pacific plate and the North America plate. A strikingly obvious strike-slip fault, the Queen Charlotte fault, has been thought to mark the boundary between the two plates. Strike-slip faults are mostly vertical fractures where two blocks of Earth's crust slide past each other horizontally. The Queen Charlotte unleashed Canada's largest recorded temblors, in 1949, a magnitude 8.1.

But the 2012 earthquake was a thrust earthquake, on a previously unknown fault west of the Queen Charlotte fault. The thrust fault hides under a giant pile of sediments. In a thrust quake, two blocks of crust move toward each other, like in subduction zones.

USGS

The location of the 2012 Haida Gwaii earthquake, a magnitude 7.7.

Rethinking the plate boundary
Given the region's ancient tectonic history, there could be a remnant piece of oceanic crust sliding down beneath the southern part of Haida Gwaii, Rogers said. There is some evidence for this from seismic waves, which change their speed when they pass through old, cold crust sitting in hotter mantle rocks. (Earth's mantle lies beneath the crust.)

"It all looks very much like a subduction zone, given the down-bowing of oceanic crust and the accretionary prism (of sediments)," Rogers said. The Pacific plate could be subducting under Haida Gwaii, and thus the North American plate, as far north as the middle of Moresby Island, he said.

Now, scientists want to figure out if the plate boundary is strike-slip or subduction, or a combination of both. They also want to know if there could be bigger earthquakes, and what happens to the Queen Charlotte strike-slip fault when it meets this mysterious new fault. [7 Ways the Earth Changes in the Blink of an Eye]

"If this is some sort of remnant subduction, are we always going to get a small amount of strike-slip with more thrust events?" David Oglesby, a seismologist at the University of California, Riverside, asked at the meeting. "It does raise the possibility that you could get significant slip down there."

Email Becky Oskin or follow her @beckyoskin. Follow us?@OAPlanet, Facebook?and Google+. Original article on LiveScience's OurAmazingPlanet.

?

Copyright 2013 LiveScience, a TechMediaNetwork company. All rights reserved. This material may not be published, broadcast, rewritten or redistributed.

Source: http://feeds.nbcnews.com/c/35002/f/653377/s/2b7dae1d/l/0Lscience0Bnbcnews0N0C0Inews0C20A130C0A50C0A30C180A413270Efishing0Efloat0Erides0E20Etsunamis0Eand0Esurvives0Dlite/story01.htm

nate robinson lakers Marcus Lattimore tyler bray tyler bray Tyrann Mathieu nfl draft grades

শুক্রবার, ৩ মে, ২০১৩

Flight of the RoboBee: Tiny hovering robot creates buzz

The successful controlled flight of the tiny RoboBee ? designed by a team at Harvard ??represents a key step in the development of insect-size drones with a range of potential uses.

By Pete Spotts,?Staff writer / May 2, 2013

Five individual robotic flies of identical design are shown alongside a U.S. penny for scale, demonstrating that the manufacturing process facilitates repeatability and mass production.

Courtesy of Kevin Ma, Pakpong Chirarattananon

Enlarge

A robotic fly with a body not much taller than a penny standing on edge has taken to the air, passing its tests with flying colors. The Robobee, as it's called, is the smallest artificial insect yet flown, according to the team that built it.

Skip to next paragraph

' + google_ads[0].line2 + '
' + google_ads[0].line3 + '

'; } else if (google_ads.length > 1) { ad_unit += ''; } } document.getElementById("ad_unit").innerHTML += ad_unit; google_adnum += google_ads.length; return; } var google_adnum = 0; google_ad_client = "pub-6743622525202572"; google_ad_output = 'js'; google_max_num_ads = '1'; google_feedback = "on"; google_ad_type = "text"; google_adtest = "on"; google_image_size = '230x105'; google_skip = '0'; // -->

It lifts off the table, hovers, and flies in different directions. At this point in its evolution, the bug is still tethered by thin wires that allow its designers to power and guide it. And landing remains an issue. The robot ends its sorties with all the grace of a mosquito nailed with a burst of Raid.

Still, the tiny craft's success ? the team that designed it said it was the first such object to fly in a controlled manner ? represents a key step in developing insect-size drones that designers say could one day search collapsed buildings for survivors after a disaster, sample an environment for hazardous chemicals before humans are sent in, or pinpoint enemy soldiers or terrorists holed up in urban areas.

Some members of the team suggest that future generations of the bug could serve as a robotic pollinator for plants, though without the side benefit of honey.

Over the years, researchers have marveled at insect flight in no small part because it appears to violate every principle that keeps a bird or an airliner aloft.

Together with an announcement this week that another team of researchers has developed a bug-like compound lens for collecting video taken with small aerial vehicles, the description of RoboBee appearing in Friday's issue of the journal Science signals how far robotic bug research?in the past decade.

"Just fantastic," enthuses John Rogers, who heads the Seitz Materials Research Laboratory at the University of Illinois at Urbana-Champaign, when asked about RoboBee. Dr. Rogers guided the team that developed the artificial compound lens.

RoboBee is something of a misnomer. The team modeled its bug after a hoverfly, which looks like a bee. Hoverflies show remarkable control over their movements ? from hovering, as the name implies, to lightly touching down on a wind-tossed blossom.

The hoverfly wanna-be was built by researchers and graduate students at Harvard University and weighs a scant .003 ounces. Its wingspan stretches just over an inch, and its wings flap up to 120 times a second, with each stroke covering an angle of 110 degrees ? all comparable to a hoverfly's characteristics. Each of the two independently controlled wings weighs about .00003 of an ounce.

The bug is far too small for hardware typically used in robots as stand-ins for muscles and joints, so the team "had to develop solutions from scratch, for everything," said Harvard engineering professor Robert Wood, who led the team, in a prepared statement.

The body of the bug was made from carbon-fiber composites with thin plastic strips serving as joints. The team crafted muscles from thin layers of ceramics that expand and contract when electricity is applied to them. The bug's overall power consumption is a paltry .019 of a watt ? so small a flashlight bulb wouldn't notice.

Over the past two years, the team has refined the manufacturing process to such a degree that they can replace a bug that augers in fairly quickly. In the past six months, the team has gone through 20 prototypes, according to Kevin Ma, a graduate student at Harvard's School of Engineering and Applied Sciences and one of two lead authors on the formal research paper appearing in Science.

The team's next challenge is to gradually move the bug from tethered to increasingly autonomous. At some point, that means it needs to see where it's going.

One potential solution appears in Thursday's issue of the journal Nature, where an international team ? including Kenneth Crozier, with Harvard's Schools of Engineering and Applied Sciences ? formally unveiled an artificial eye similar in design to the eyes of a fire ant or bark beetle. It boasts an array of 256 microlenses, 180 of which are used for imaging. Each of these imaging lenses sits atop a light sensor. All sitting in tidy order on a half sphere.

In nature, this arrangement gives insects an extraordinary field of view and an ability to keep virtually everything they see in focus, no matter how close or distant.

In the past, researchers have developed layouts that mimic to some degree a compound eye, but the arrays have been either flat, or hemispherical but laboriously hand crafted.

The team the University of Illinois's Rogers guided found a way to use elastic materials to give the overall array the shape it needed without throwing the microlenses and the light sensors each was paired with out of alignment. The compound lens is just under half an inch wide.

In an e-mail, Rogers says the team hopes to improve the compound lens's resolution ? its ability to distinguish between two closely spaced objects. Indeed, he says he's confident that the approach will yield lenses that outperform even the best insect eyes.

"We are working on that, and on schemes that allow the overall size of the camera to be reduced," he says, including a size befitting a RoboBee.

Source: http://rss.csmonitor.com/~r/feeds/science/~3/hOVUjL6Oo6U/Flight-of-the-RoboBee-Tiny-hovering-robot-creates-buzz

Winter Olympics 2014 powerball numbers freddie mercury Horshack Beady Eye Eric Idle rory mcilroy