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23.04.2014
VEGF SIGNALING INTEGRATES THE UPR MACHINERY OF THE ENDOPLASMIC RETICULUM IN PHYSIOLOGIC RESPONSES SUCH AS ANGIOGENESIS

Researchers at the Department of Biomedical Research IMBB Ioannina revealed that growth factor signaling in cells integrates the response mechanism to the presence of unfolded proteins (Unfolded Protein Response, UPR) in the endoplasmic reticulum (ER). This study shows that ER plays an important role in normal cell functions, such as signaling by growth factors, and is not limited to the adaptation of the cell to stress.

04.02.2014
IESL-FORTH researchers discover a novel inhomogeneous state of matter

Phase separation in otherwise chemically homogenous, strongly correlated electron systems is a crucial parameter, leading to fascinating tunable functional properties, such as high-Tc superconductivity in cuprates and giant magnetoresistance in manganites.

23.01.2014
A new research programme approved by the ERC: “Accreting binary populations in Nearby Galaxies: Observations and Simulations” (A-BINGOS)

A new distinction for FORTH comes from the European Research Council (ERC) which approved the research program submitted by Dr. Andreas Zezas, researcher of the Astrophysics Group at the Institute of Electronic Structure and LASER (IESL) of FORTH. The approved program is entitled: "Accreting binary populations in Nearby Galaxies: Observations and Simulations" (A-BINGOS), and was submitted in the first ERC "Consolidator Grants" call. The goal of the ERC Consolidator Grants is to "enable already independent excellent researchers to consolidate their own research teams and to develop their most innovative ideas". In this call were approved 312 programs out of 3637 submitted proposals (a success rate of 8.5%). The program A-BINGOS is one of the only 2 programs awarded to Greek Institutions, and the first one to be awarded to a Greek Astrophysicist.

02.01.2014
From amputation to regeneration – researchers identify shared features of limb regeneration in crustaceans and vertebrates

Many animals – such as crabs, octopuses and salamanders – have the ability to regenerate parts of their body that are severely injured or amputated. Just as we are able to replace a broken part of our car, these animals can replace lost limbs by new ones with the same form and function. Contrary to cars, animals do not possess spare parts and cannot suspend their functions in order to be repaired; they generate their new limbs in situ, while going about in their normal lives.

17.12.2013
IESL-FORTH Scientists create light bullets for high-intensity applications

Controlling the propagation of high-intensity light beams as they travel through transparent media is a challenging task, but IESL scientists have now shown that a relatively new type of light beam called a ring-Airy beam can self-focus into intense light bullets that propagate over extended distances. These highly focused, high-intensity ring-Airy beam light bullets offer a very unique level of control that cannot be achieved with equivalent Gaussian beams, making them ideal for a variety of optical applications ranging from precision materials processing and nanosurgery to attosecond pulse drivers.

12.12.2013
Motions of a nanomotor get proteins out of the cell, an essential mechanism for cellular function

Thousands of proteins are produced inside our cells. More than a third of these proteins can fulfill their function only after migrating to the outside of the cell, becoming anchored to the cell membrane or being targeted to specific subcellular compartments. How cells regulate trafficking of their proteins is a fundamental problem in biology andis essential for life. Examples of migrating proteins are insulin (whose absence leads to diabetes), antibodies (that combat infections), membrane channels (essential amongst other for neuronal cell function) and toxin-proteins secreted by pathogenic microorganisms.

04.09.2013
IMBB researchers reveal that DNA damage triggers a chronic auto-inflammatory response leading to fat depletion

Research carried out at the Institute of Molecular Biology and Biotechnology-FORTH and published today in Cell Metabolism reveals that intrinsic DNA damage triggers a chronic auto-inflammatory response leading to fat depletion.

03.09.2013
NetVolution: Α new ERC starting grant was awarded to FORTH-ICS

A new distinction for FORTH, Greece's major Research Centre, came through the recent approval by the ERC (European Research Council) of one more proposal that was submitted by Dr. Xenofontas Dimitropoulos of FORTH's Institute of Computer Science (ICS). This ERC grant will fund Dimitropoulos' "NetVolution" project, to perform research on evolving the routing system of the Internet. ERC starting grants are considered highly honorary: they are given for cutting edge research and they are very competitive -- in 2013, out of 3,329 proposals that were submitted Europe-wide and across all disciplines, only 287 were accepted, i.e. just nine percent (9%); only two (2) of these 287 approved grants are given to researchers in Greek institutions, and "NetVolution" is one of the two. Dr. Dimitropoulos is repatriating to Greece, coming to FORTH and the University of Crete, where he has been elected Assistant Professor, leaving his position with ETH Zurich.

17.07.2013
ICS-FORTH and the Region of Crete present “Creative Crete”

“Creative Crete” is a unique installation of pioneering interactive technologies located at Heraklion international airport “Nikos Kazantzakis”, realized by the Institute of Computer Science of FORTH under the initiative of the Region of Crete.

15.04.2013
Quantum tricks with laser light teach magnetic devices how to think ultra-fast

A USA-Greece collaboration of researchers at the U.S. Department of Energy’s Ames Laboratory & Iowa State University and at the University of Crete & the Foundation for Research & Technology - Hellas (FORTH) in Greece have found a new way to create small magnets by using short laser light pulses. In this way, they were able to switch magnetism at least 1000 times faster than in current magnetic devices. Magnetic switching is used to encode information in hard drives, magnetic memories, and other computing devices. The discovery reported in the April 4 issue of Nature opens the door to terahertz (1012 hertz) memory speeds and moves magnetic switching to the fast lane.

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