Libres propos sur la législation OAPI relative aux obtentions végétales

Les innovations en matière variétale et de biotechnologie végétale sont présentées comme un moyen efficace et approprié susceptible de favoriser l'amélioration de la production alimentaire et des conditions de travail et de vie des agriculteurs ainsi que celles des collectivités coutumières dans les pays membres de l'Organisation africaine de la propriété intellectuelle (OAPI). Sur le plan juridique, il se pose le problème de la protection juridique de ces innovations ou obtentions végétales. Le législateur OAPI de 1977 n'avait pas envisagé de protection pour les obtentions végétales. À la différence de certains États industrialisés qui organisaient un régime de protection sui generis ou par le système des brevets, il n'évoquait les variétés végétales et les procédés d'obtention des végétaux que pour les exclure du domaine brevetable. L'accord sur les aspects des droits de propriété intellectuelle qui touchent au commerce (ADPIC) de l'organisation mondiale du commerce (OMC) est venu modifier la donne en imposant que les obtentions végétales puissent être protégées par les brevets, par un système sui generis ou par une combinaison des deux moyens. Le législateur OAPI de 1999 a voulu intégrer ces nouvelles exigences internationales en révisant l'Accord de Bangui. Ce faisant, l'exclusion de la brevetabilité des variétés végétales a été maintenue. Il ne restait plus au législateur qu'une seule option, l'adoption d'un régime de protection sui generis. Son choix s'est matérialisé par l'adoption de l'annexe X de l'Accord de Bangui de 1999 consacrée à « la protection des obtentions végétales ». Cette annexe est calquée sur la version de 1991 de la Convention Internationale pour la protection des obtentions végétales, mise en place par les pays européens. Il s'agit là d'un choix discutable. En effet, l'annexe X introduit dans l'espace OAPI une législation désincarnée, parce que à la fois incomplète et inadaptée à l'environnement socio-économique des pays membres de l'OAPI.Innovations related to biotechnology and plant varieties are regarded as an efficient and suitable means to enhance the improvement of food production, lives and working conditions of farmers as well as those of local communities in the member States of the African Intellectual Property Organization (OAPI). From a legal point of view, the legal protection of those innovations on plant varieties is questionable. The legislator of the OAPI Law of 1977 had not considered any protection for plant varieties. Contrary to some industrialized countries where a sui generis system of protection or a protection by the patent system were organized, plant varieties and biological processes for the breeding of plants were mentioned only to be excluded from the patentable domain. The Trade Related Aspects of Intellectual Property Rights (TRIPs) Agreement of the World Trade Organisation (WTO) modified the situation by imposing that plant varieties shall be protected either by patents or by a sui generis system or through the combination of the two methods. The legislator of the OAPI Law of 1999 wanted to incorporate these new international requirements while amending the Bangui Agreement. At the same time,the plant varieties' exclusion from patentability was maintained. Hence, the legislator had no other option than adopting a sui generis regime of protection. He materialized this option by inserting in the Bangui Agreement of 1999, the Annex X related to the “Plant Variety Protection”. This appendix is drafted in light of the 1991's version of the International Convention for the Protection of New Varieties of Plants put in place by the European countries. This choice remains questionable. Indeed, the Annex X introduces in the OAPI zone a disembodied legislation, because it is incomplete and unsuited to the socioeconomic environment of the member States of the OAPI

Modeling and simulation enabled UAV electrical power system design

With the diversity of mission capability and the associated requirement for more advanced technologies, designing modern unmanned aerial vehicle (UAV) systems is an especially challenging task. In particular, the increasing reliance on the electrical power system for delivering key aircraft functions, both electrical and mechanical, requires that a systems-approach be employed in their development. A key factor in this process is the use of modeling and simulation to inform upon critical design choices made. However, effective systems-level simulation of complex UAV power systems presents many challenges, which must be addressed to maximize the value of such methods. This paper presents the initial stages of a power system design process for a medium altitude long endurance (MALE) UAV focusing particularly on the development of three full candidate architecture models and associated technologies. The unique challenges faced in developing such a suite of models and their ultimate role in the design process is explored, with case studies presented to reinforce key points. The role of the developed models in supporting the design process is then discussed

Clinical Outcomes of a Pharmacy-Led Blood Factor Stewardship Program

To report the results of a pharmacist-directed blood factor stewardship program targeting off-label utilization designed to limit use to established organizational guidelines in high-risk populations. Prospective evaluation of recombinant factor VIIa and prothrombin complex concentrate orders beginning June 2013 through May 2014 and a matched retrospective cohort from June 2012 to May 2013. Matched cohorts were evaluated for 28-day mortality, change in international normalized ratio (INR), adverse events, concurrent blood product use, and cost savings. Forty-two orders for blood factor were ordered between June 2013 and May 2014, 70 orders in the year before (N = 112). Twenty eight-day mortality was not different between the cohorts: 53.9% versus 50% (P = 0.77). Blood factor use with underlying liver failure and active bleeding was strongly associated with 28-day mortality: odds ratio (95% confidence interval), 2.9 (1.5-7.14) and 2.91 (0.01-2.91), respectively. Blood products dispensed increased over the year with plasma products the most significant (1 vs. 4 P = 0.004). All other clinical outcomes were nonsignificant. An annual cost savings of $375,539 was achieved, primarily through a significant reduction in recombinant factor VIIa and avoidance in high-risk patients. Use of off-label blood factors can be controlled through a pharmacist-led stewardship program. Twenty eight-day mortality was not different between the 2 cohorts; however, identification of risk factors for death associated with blood factor use allows for restriction in high-risk populations, creates a discussion of futile care, and yields cost savings

Transcriptomic analysis of autistic brain reveals convergent molecular pathology.

Autism spectrum disorder (ASD) is a common, highly heritable neurodevelopmental condition characterized by marked genetic heterogeneity. Thus, a fundamental question is whether autism represents an aetiologically heterogeneous disorder in which the myriad genetic or environmental risk factors perturb common underlying molecular pathways in the brain. Here, we demonstrate consistent differences in transcriptome organization between autistic and normal brain by gene co-expression network analysis. Remarkably, regional patterns of gene expression that typically distinguish frontal and temporal cortex are significantly attenuated in the ASD brain, suggesting abnormalities in cortical patterning. We further identify discrete modules of co-expressed genes associated with autism: a neuronal module enriched for known autism susceptibility genes, including the neuronal specific splicing factor A2BP1 (also known as FOX1), and a module enriched for immune genes and glial markers. Using high-throughput RNA sequencing we demonstrate dysregulated splicing of A2BP1-dependent alternative exons in the ASD brain. Moreover, using a published autism genome-wide association study (GWAS) data set, we show that the neuronal module is enriched for genetically associated variants, providing independent support for the causal involvement of these genes in autism. In contrast, the immune-glial module showed no enrichment for autism GWAS signals, indicating a non-genetic aetiology for this process. Collectively, our results provide strong evidence for convergent molecular abnormalities in ASD, and implicate transcriptional and splicing dysregulation as underlying mechanisms of neuronal dysfunction in this disorder

What Can 14CO Measurements Tell Us about OH?

The possible use of 14CO measurements to constrain hydroxyl radical (OH) concentrations in the atmosphere is investigated. 14CO is mainly produced in the upper atmosphere from cosmic radiation. Measurements of 14CO at the surface show lower concentrations compared to the upper atmospheric source region, which is the result of oxidation by OH. In this paper, the sensitivity of 14CO mixing ratio surface measurements to the 3-D OH distribution is assessed with the TM5 model. Simulated 14CO mixing ratios agree within a few molecules 14COcm-3 (STP) with existing measurements at five locations worldwide. The simulated cosmogenic 14CO distribution appears mainly sensitive to the assumed upper atmospheric 14C source function, and to a lesser extend to model resolution. As a next step, the sensitivity of 14CO measurements to OH is calculated with the adjoint TM5 model. The results indicate that 14CO measurements taken in the tropics are sensitive to OH in a spatially confined region that varies strongly over time due to meteorological variability. Given measurements with an accuracy of 0.5 molecules 14COcm-3 STP, a good characterization of the cosmogenic 14CO fraction, and assuming perfect transport modeling, a single 14CO measurement may constrain OH to 0.2¿0.3×106 moleculesOHcm-3 on time scales of 6 months and spatial scales of 70×70 degrees (latitude×longitude) between the surface and 500 hPa. The sensitivity of 14CO measurements to high latitude OH is about a factor of five higher. This is in contrast with methyl chloroform (MCF) measurements, which show the highest sensitivity to tropical OH, mainly due to the temperature dependent rate constant of the MCF¿OH reaction. A logical next step will be the analysis of existing 14CO measurements in an inverse modeling framework. This paper presents the required mathematical framework for such an analysis.JRC.H.2-Climate chang

Rapid changes in Atlantic grey seal milk from birth to weaning – immune factors and indicators of metabolic strain

True seals have the shortest lactation periods of any group of placental mammal. Most are capital breeders that undergo short, intense lactations, during which they fast while transferring substantial proportions of their body reserves to their pups, which they then abruptly wean. Milk was collected from Atlantic grey seals (Halichoerus grypus) periodically from birth until near weaning. Milk protein profiles matured within 24 hours or less, indicating the most rapid transition from colostrum to mature phase lactation yet observed. There was an unexpected persistence of immunoglobulin G almost until weaning, potentially indicating prolonged trans-intestinal transfer of IgG. Among components of innate immune protection were found fucosyllactose and siallylactose that are thought to impede colonisation by pathogens and encourage an appropriate milk-digestive and protective gut microbiome. These oligosaccharides decreased from early lactation to almost undetectable levels by weaning. Taurine levels were initially high, then fell, possibly indicative of taurine dependency in seals, and progressive depletion of maternal reserves. Metabolites that signal changes in the mother’s metabolism of fats, such as nicotinamide and derivatives, rose from virtual absence, and acetylcarnitines fell. It is therefore possible that indicators of maternal metabolic strain exist that signal the imminence of weaning.Publisher PDFPeer reviewe

Space Launch System Booster Separation Supersonic Powered Testing with Surface and Off-Body Measurements

A wind tunnel test was run in the NASA Langley Unitary Plan Wind Tunnel simulating the separation of the two solid rocket boosters (SRB) from the core stage of the NASA Space Launch System (SLS). The test was run on a 0.9% scale model of the SLS Block 1B Cargo (27005) configuration and the SLS Block 1B Crew (28005) configuration at a Mach of 4.0. High pressure air was used to simulate plumes from the booster separation motors located at the nose and aft skirt of the two boosters. Force and moment data were taken on both SRBs and on the core stage. Schlieren still photos and video were recorded throughout testing. A set of points were acquired using Cross-correlation Doppler Global Velocimetry (CCDGV) readings to get 3 component velocity measurements between the core and the left-hand SRB. The CCDGV laser was utilized to record flow visualization in the same location, between the core and the left-hand SRB. Pressure Sensitive Paint data were taken on a separate set of runs. Computational Fluid Dynamics (CFD) runs were computed on a subset of the wind tunnel data points for comparison. A combination of the force/moment, CCDGV and Pressure Sensitive Paint (PSP) data (as well as schlieren images) at the CFD-specified test conditions will be used te the CFD simulations that will be used to build an SLS booster separation database flight conditions

In-flight calibration and verification of the Planck-LFI instrument

In this paper we discuss the Planck-LFI in-flight calibration campaign. After a brief overview of the ground test campaigns, we describe in detail the calibration and performance verification (CPV) phase, carried out in space during and just after the cool-down of LFI. We discuss in detail the functionality verification, the tuning of the front-end and warm electronics, the preliminary performance assessment and the thermal susceptibility tests. The logic, sequence, goals and results of the in-flight tests are discussed. All the calibration activities were successfully carried out and the instrument response was comparable to the one observed on ground. For some channels the in-flight tuning activity allowed us to improve significantly the noise performance.Comment: Long technical paper on Planck LFI in flight calibration campaign: 109 pages in this (not final) version, 100 page in the final JINST versio