1,857 research outputs found
Synergistic interaction between the Arp2/3 complex and cofilin drives stimulated lamellipod extension
Both the Arp2/3 complex and cofilin are believed to be important for the generation of protrusive force at the leading edge; however, their relative contributions have not been explored in vivo. Our results with living cells show that cofilin enters the leading edge immediately before the start of lamellipod extension, slightly earlier than Arp2/3, which begins to be recruited slightly later as the lamellipod is extended. Blocking either the Arp2/3 complex or cofilin function in cells results in failure to extend broad lamellipods and inhibits free barbed ends, suggesting that neither factor on its own can support actin polymerization-mediated protrusion in response to growth factor stimulation. High-resolution analysis of the actin network at the leading edge supports the idea that both the severing activity of cofilin and the specific branching activity of the Arp2/3 complex are essential for lamellipod protrusion. These results are the first to document the relative contributions of cofilin and Arp2/3 complex in vivo and indicate that cofilin begins to initiate the generation of free barbed ends that act in synergy with the Arp2/3 complex to create a large burst in nucleation activity
Design, Layout and Realization of an All NOR Enhancement Type PMOS Serial Adder
A four bit serial adder was designed with PMOS NOR gates from a truth table that models binary serial addition. Three storaqe reqisters were also included in the desiqn, two-four bit shift registers for the incoming digits and one-five bit register for the sum. A simple five gate latch was used for the bits of these registers. The cirĀcuit was layed out using ICE , a software program designed to facilitate circuit layout for mask making at R.I.T
Anisotropic Anomalous Diffusion assessed in the human brain by scalar invariant indices
A new method to investigate anomalous diffusion in human brain is proposed.
The method has been inspired by both the stretched-exponential model proposed
by Hall and Barrick (HB) and DTI. Quantities extracted using HB method were
able to discriminate different cerebral tissues on the basis of their
complexity, expressed by the stretching exponent gamma and of the anisotropy of
gamma across different directions. Nevertheless, these quantities were not
defined as scalar invariants like mean diffusivity and fractional anisotropy,
which are eigenvalues of the diffusion tensor. We hypotesize instead that the
signal may be espressed as a simple stretched-exponential only along the
principal axes of diffusion, while in a generic direction the signal is modeled
as a combination of three different stretched-exponentials. In this way, we
derived indices to quantify both the tissue anomalous diffusion and its
anisotropy, independently of the reference frame of the experiment. We tested
and compare our new method with DTI and HB approaches applying them to 10
healty subjects brain at 3T. Our experimental results show that our parameters
are highly correlated to intrinsic local geometry when compared to HB indices.
Moreover, they offer a different kind of contrast when compared to DTI outputs.
Specifically, our indices show a higher capability to discriminate among
different areas of the corpus callosum, which are known to be associated to
different axonal densities.Comment: 21 pages, 6 figures, 2 table
Media Access Schemes for Indirect Diffused Free-Space Optical Networks
In this paper, we propose a set of three media access control (MAC) schemes for an indirect diffused light free-space optical communications (ID-FSOCs). ID-FSOC has been recently proposed to establish wireless high-speed (i.e., ā„1 Gbps) network access using FSO from stations that have no line-of-sight (LOS) with the access point. ID-FSOC employs a diffuse reflector (DR) to uniformly reflect diffused light from an incident laser to all directions, except towards the DR. To establish a link, ID-FSOC requires LOS between the transmitter and the DR and between DR and the receiver. In this way, ID-FSOC relaxes the location of stations as long as they keep LOS to the DR. We analyze the performance and scalability of proposed schemes. We also consider the impact of the zoom-in time of a receiver in our evaluations. Our results show that our proposed MAC schemes achieve high channel utilization and higher throughput than carrier-sense multiple access schemes
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Absolute single photoionization cross-sections of Br3+: Experiment and theory
Absolute single photoionization cross section measurements for Br3+ ions are reported in the photon energy range 44.79-59.54 eV at a photon energy resolution of 21 Ā±3 meV. Measurements were performed at the Advanced Light Source at Lawrence Berkeley National Laboratory using the merged-beams technique. Numerous resonance features in the experimental spectrum are assigned and their energies and quantum defect values are tabulated. The cross-section measurements are also compared with Breit-Pauli R-matrix calculations with suitable agreement over the photon energy range investigated. Analysis of the measured spectrum including Rydberg resonance series identifications produced a new emperical determination of the ionizational potential of Br3+ of 46.977 Ā± 0.050 eV, which is 805 meV lower than the most recently published value of 47.782 eV. This disparity between our determination and the earlier published value is similar to an 843 meV shift in the accepted ionization potential published for iso-electronic Se2+ as part of this same research program
Bionics-based surgical training using 3D printed photopolymers and smart devices
Additive manufacturing technologies support the realization of surgical training devices using, typically, photopolymers-based materials. Unfortunately, the material jetting family, able to print a large range of soft and hard polymers, requires expensive machines and materials, which are not always available. On the other hand, vat polymerization fails in the resolution/volume ratio and in the mechanical properties reconstruction. Stereolithographic 3D printers, mostly used in dental surgery, make possible to realize cheap and sustainable models for training activity using only one material, reducing the possibility to obtain different mechanical characteristics. Moreover, the printed objects have to be treated (i.e. curing post-processing) in order to obtain the required performances, that could be preserved for long term storing. The aim of the proposed approach is to assure the surgeons' skills improvement through bionic-based surgical 3D printed models and smart devices, able to reproduce the same perception of a real surgical activity. We demonstrated how it is possible develop smart devices capable to take into account the same characteristics of different materials (i.e. bone and spongy bone) even if stored for a long time
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