Consequências fisiológicas da dessecação em sementes de açaí (Euterpe oleracea Mart.).

O presente trabalho foi realizado com o objetivo de verificar os efeitos imediatos da desidratação sobre a qualidade fisiológica de sementes de açaí. Anteriormente à secagem das sementes da cultivar BRS Pará foi determinado o teor de água das mesmas e selecionado o lote daquelas que apresentavam o maior teor de água, que foi de 43,4%. As sementes foram submetidas à secagem, em equipamento com circulação forçada de ar (30±2ºC), até atingirem o teor de água de 37,4%, 30,3% 26,1%, 21,0%, 15,% e 11,9%, constituindo os demais tratamentos. O efeito da secagem sobre a qualidade das sementes foi avaliado por meio das determinações de germinação, tempo médio de germinação, velocidade de emergência, comprimento e massa da matéria seca de plântulas. A secagem até 37,4% de água não produz efeitos fisiológicos prejudiciais imediatos sobre as sementes de açaí, contudo, abaixo de 30,3% há redução progressiva da germinação e do vigor das sementes e ao atingirem 15,1% de teor de água, o desempenho fisiológico é anulado.Título em inglês: Physiological consequences of desiccation in Euterpe oleracea Mart. seeds. Disponível também on-line

Conservação de sementes de açaí (Euterpe oleracea Mart.).

Sementes de Euterpe oleracea são consideradas recalcitrantes e demandam ampliação do conhecimento sobre os fatores que interferem na sua conservação. Diante disso, o presente trabalho foi realizado com o objetivo de verificar os efeitos do teor de água da semente e da temperatura do ambiente na manutenção da qualidade das mesmas. Sementes da cultivar BRS Pará, com diferentes teores de água (43,4; 37,4; 30,3; 26,1; 21,0; 15,1 e 11,9%) e acondicionadas em sacos de polietileno foram armazenadas sob temperaturas de 20, 15 e 10 ºC durante 360 dias e submetidas a avaliações periódicas do teor de água, da germinação e do vigor. A secagem parcial até 37,4% de água não produz efeitos imediatos sobre a germinação e o vigor das sementes, a partir daí a secagem favorece, progressivamente, a deterioração das sementes e, ao atingirem 15,1% as sementes não germinam. Após o armazenamento, sementes com 21,0% de água ou menos não germinam independentemente da temperatura. A associação de 43,4% de água na semente e o armazenamento em ambiente a 20 ºC favorece a conservação das sementes por até 270 dias

Chemical characterization and surface properties of a new bioemulsifier produced by Pedobacter sp. strain MCC-Z

A novel biopolymer was described in the form of an extracellular polysaccharide (EPS) by Pedobacter sp.strain MCC-Z, a member of a bacterial genus not previously described as an emulsifier producer. Thenew biomolecule was extracted, purified and characterized, and its surface and emulsifying propertieswere evaluated. The purified bioemulsifier, named Pdb-Z, showed high emulsifying activity (E24% = 64%)and reduced the surface tension of water up to 41 mN/m with a critical micelle concentration value of2.6 mg/mL. The chemical characterization of Pdb-Z was performed using1H NMR, FT-IR, HPLC/MS/MS andGC/MS. Pdb-Z was found to contain 67% of carbohydrates, consisting mainly of galactose and minor quan-tities of talose, 30% of lipids, being pentadecanoic acid the major lipidic constituent, and 3% of proteins. Thebioemulsifier was a glycolipids-protein complex with an estimated molecular mass of 106Da. Further-more, Pdb-Z emulsified pure aliphatic and aromatic hydrocarbons as well as diesel more efficiently thancommercial synthetic surfactants, used for comparison. Our results suggest Pdb-Z has interesting prop-erties for applications in remediation of hydrocarbon-contaminated environments and bioremediation processes

Leucocyte-and platelet-rich fibrin block: Its use for the treatment of a large cyst with implant-based rehabilitation

The management of critical-size bone defects is still demanding. Recently, autologous platelet concentrates in combination with bone substitute have been applied and reported in a few studies. Our aim is to report the healing of a critical-size alveolar bone defect treated with a new bone regeneration technique by means of L-PRF and L-PRF blocks. A 45-year-old woman presented a large cystic lesion; the extraction of three teeth, a cyst removal procedure, and bone regeneration procedures with L-PRF and L-PRF blocks were planned. The L-PRF block was prepared by mixing a bone substitute with a piece of L-PRF membrane and liquid fibrinogen. Additionally, after bone healing an implant-based rehabilitation was optimally performed. On the basis of the positive results, in terms of bone healing and tissue regeneration in a large bone defect, the application of LPRF and L-PRF blocks, in agreement with the scarce literature, is suggested as a feasible procedure in selected cases

A leopard cannot change its spots: Unexpected products from the vilsmeier reaction on 5,10,15-tritolylcorrole

The reaction of 5,10,15-tritolylcorrole with 3-dimethylaminoacrolein (3-DMA) and POCl3 gives a further example of the rebel reactivity of this contracted macrocycle. While no evidence was obtained for the formation of the expected -acrolein corrole, the inner core substituted N21,N22-3-formylpropylcorrole and the 10-acrolein isocorrole were the reaction products. By increasing the temperature or the amount of the Vilsmeier reagent, the 10-isocorrole became the unique reaction product. The formation of the isocorrole by electrophilic attack of the Vilsmeier reagent to the 10-position of the corrole is unprecedented in the porphyrinoids field and it could pave the way for a novel route to the preparation of stable isocorrole

High-speed data transfer with FPGAs and QSFP+ modules

We present test results and characterization of a data transmission system based on a last generation FPGA and a commercial QSFP+ (Quad Small Form Pluggable +) module. QSFP+ standard defines a hot-pluggable transceiver available in copper or optical cable assemblies for an aggregated bandwidth of up to 40 Gbps. We implemented a complete testbench based on a commercial development card mounting an Altera Stratix IV FPGA with 24 serial transceivers at 8.5 Gbps, together with a custom mezzanine hosting three QSFP+ modules. We present test results and signal integrity measurements up to an aggregated bandwidth of 12 Gbps.Comment: 5 pages, 3 figures, Published on JINST Journal of Instrumentation proceedings of Topical Workshop on Electronics for Particle Physics 2010, 20-24 September 2010, Aachen, Germany(R Ammendola et al 2010 JINST 5 C12019

A Sustainable Hydroxypropyl Cellulose-Nanodiamond Composite for Flexible Electronic Applications

Designing fully green materials for flexible electronics is an urgent need due to the growing awareness of an environmental crisis. With the aim of developing a sustainable, printable, and biocompatible material to be exploited in flexible electronics, the rheological, structural and charge transport properties of water-based hydroxypropyl cellulose (HPC)-detonation nanodiamond (DND) viscous dispersions are investigated. A rheological investigation disclosed that the presence of the DND affects the orientation and entanglement of cellulose chains in the aqueous medium. In line with rheological analyses, the NMR diffusion experiments pointed out that the presence of DND modifies the hydrodynamic behavior of the cellulose molecules. Despite the increased rigidity of the system, the presence of DND slightly enhances the ionic conductivity of the dispersion, suggesting a modification in the charge transport properties of the material. The electrochemical analyses, performed through Cyclic Voltammetry (CV) and Electrochemical Impedance Spectroscopy (EIS), revealed that the HPC-DND system is remarkably stable in the explored voltage range (−0.1 to +0.4 V) and characterized by a lowered bulk resistance with respect to HPC. Such features, coupled with the printability and filmability of the material, represent good requirements for the exploitation of such systems in flexible electronic applications

NaNet: a Low-Latency, Real-Time, Multi-Standard Network Interface Card with GPUDirect Features

While the GPGPU paradigm is widely recognized as an effective approach to high performance computing, its adoption in low-latency, real-time systems is still in its early stages. Although GPUs typically show deterministic behaviour in terms of latency in executing computational kernels as soon as data is available in their internal memories, assessment of real-time features of a standard GPGPU system needs careful characterization of all subsystems along data stream path. The networking subsystem results in being the most critical one in terms of absolute value and fluctuations of its response latency. Our envisioned solution to this issue is NaNet, a FPGA-based PCIe Network Interface Card (NIC) design featuring a configurable and extensible set of network channels with direct access through GPUDirect to NVIDIA Fermi/Kepler GPU memories. NaNet design currently supports both standard - GbE (1000BASE-T) and 10GbE (10Base-R) - and custom - 34~Gbps APElink and 2.5~Gbps deterministic latency KM3link - channels, but its modularity allows for a straightforward inclusion of other link technologies. To avoid host OS intervention on data stream and remove a possible source of jitter, the design includes a network/transport layer offload module with cycle-accurate, upper-bound latency, supporting UDP, KM3link Time Division Multiplexing and APElink protocols. After NaNet architecture description and its latency/bandwidth characterization for all supported links, two real world use cases will be presented: the GPU-based low level trigger for the RICH detector in the NA62 experiment at CERN and the on-/off-shore data link for KM3 underwater neutrino telescope

GPU-based Real-time Triggering in the NA62 Experiment

Over the last few years the GPGPU (General-Purpose computing on Graphics Processing Units) paradigm represented a remarkable development in the world of computing. Computing for High-Energy Physics is no exception: several works have demonstrated the effectiveness of the integration of GPU-based systems in high level trigger of different experiments. On the other hand the use of GPUs in the low level trigger systems, characterized by stringent real-time constraints, such as tight time budget and high throughput, poses several challenges. In this paper we focus on the low level trigger in the CERN NA62 experiment, investigating the use of real-time computing on GPUs in this synchronous system. Our approach aimed at harvesting the GPU computing power to build in real-time refined physics-related trigger primitives for the RICH detector, as the the knowledge of Cerenkov rings parameters allows to build stringent conditions for data selection at trigger level. Latencies of all components of the trigger chain have been analyzed, pointing out that networking is the most critical one. To keep the latency of data transfer task under control, we devised NaNet, an FPGA-based PCIe Network Interface Card (NIC) with GPUDirect capabilities. For the processing task, we developed specific multiple ring trigger algorithms to leverage the parallel architecture of GPUs and increase the processing throughput to keep up with the high event rate. Results obtained during the first months of 2016 NA62 run are presented and discussed