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631.
Sebastien Jubeau Luc Marchal Jeremy Pruvost Pascal Jaouen Jack Legrand Joel Fleurence 《Journal of applied phycology》2013,25(4):983-989
The microalga Porphyridium cruentum is known to produce many components of interest. One of them is B-Phycoerythrin (B-PE), a water-soluble intracellular pigment used as an immunofluorescent probe. Current methods to extract this molecule involve total cell disruption and lead to a mix of all the water-soluble components. Subsequently, the pigment purification is very complex. An alternative approach to extract B-PE selectively and thus simplify the purification procedure has been developed using a high-pressure cell disrupter. Different pressures (from 27 to 270 MPa), extracting mediums (distilled water and original microalgae culture medium), and numbers of passages (1 to 3) have been tested. Proteins are selectively more extracted than B-PE at low pressure in original medium. It is thus possible to remove part of the intracellular proteins in a first step and then recover enriched B-Phycoerythrin fraction at higher pressure in distilled water. 相似文献
632.
Christoph Koffler Jon Dettling Cashion East Matthias Finkbeiner Sergio F. Galeano Roland Geyer Mark J. Goedkoop Troy R. Hawkins Connie D. Hensler Arpad Horvath Sebastien Humbert Scott M. Kaufman Amy E. Landis Lise Laurin Pascal Lesage Manuele Margni Ken Martchek H. Scott Matthews Jamie K. Meil Gregory Norris Rita C. Schenk Thomas P. Seager Maureen Sertich Greg Thoma Casey Wagner 《The International Journal of Life Cycle Assessment》2013,18(2):302-305
633.
Alexandre Dalet Philippe Pierre Alexandre Dalet Rafael J Argüello Alexis Combes Lionel Spinelli Sebastien Jaeger Mathieu Fallet Thien-Phong Vu Manh Andreia Mendes Jessica Perego Marisa Reverendo Voahirana Camosseto Marc Dalod Tobias Weil Manuel A Santos Evelina Gatti Philippe Pierre 《The EMBO journal》2017,36(6):761-782
634.
Jessica Prunaretty Pierre Boisselier Norbert Aillères Olivier Riou Sebastien Simeon Ludovic Bedos David Azria Pascal Fenoglietto 《Reports of Practical Oncology and Radiotherapy》2019,24(1):97-104
BackgroundThe management of breath-induced tumor motion is a major challenge for lung stereotactic body radiation therapy (SBRT). Three techniques are currently available for these treatments: tracking (T), gating (G) and free-breathing (FB).AimTo evaluate the dosimetric differences between these three treatment techniques for lung SBRT.Materials and methodsPretreatment 4DCT data were acquired for 10 patients and sorted into 10 phases of a breathing cycle, such as 0% and 50% phases defined respectively as the inhalation and exhalation maximum. GTVph, PTVph (=GTVph + 3 mm) and the ipsilateral lung were contoured on each phase.For the tracking technique, 9 fixed fields were adjusted to each PTVph for the 10 phases. The gating technique was studied with 3 exhalation phases (40%, 50% and 60%). For the free-breathing technique, ITVFB was created from a sum of all GTVph and a 3 mm margin was added to define a PTVFB. Fields were adjusted to PTVFB and dose distributions were calculated on the average intensity projection (AIP) CT. Then, the beam arrangement with the same monitor units was planned on each CT phase.The 3 modalities were evaluated using DVHs of each GTVph, the homogeneity index and the volume of the ipsilateral lung receiving 20 Gy (V20Gy).ResultsThe FB system improved the target coverage by increasing Dmean (75.87(T)–76.08(G)–77.49(FB)Gy). Target coverage was slightly more homogeneous, too (HI: 0.17(T and G)–0.15(FB)). But the lung was better protected with the tracking system (V20Gy: 3.82(T)–4.96(G)–6.34(FB)%).ConclusionsEvery technique provides plans with a good target coverage and lung protection. While irradiation with free-breathing increases doses to GTV, irradiation with the tracking technique spares better the lung but can dramatically increase the treatment complexity. 相似文献
635.
Identifying unusual mortality events in bats: a baseline for bat hibernation monitoring and white‐nose syndrome research
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Bat population trends are particularly affected by adult mortality, especially when large numbers of individuals die, as evidenced by white‐nose syndrome in North America. We obtained baseline mortality data from 318 European hibernacula. Mortality was low and negatively associated with elevation but not with fungal infestation. Mortality events involving more than seven bats at a hibernaculum should be considered unusual, and above this threshold, pathological or microbiological analysis should be carried out. To increase understanding of mortality in bats, there is an urgent need to develop and co‐ordinate national and international programs for monitoring and investigating mortality and diseases. 相似文献
636.
Luca Ricci Arne Seifert Sebastien Bernacchi Debora Fino Candido Fabrizio Pirri Angela Re 《Microbial biotechnology》2023,16(2):218-237
Carbon dioxide (CO2) stands out as sustainable feedstock for developing a circular carbon economy whose energy supply could be obtained by boosting the production of clean hydrogen from renewable electricity. H2-dependent CO2 gas fermentation using acetogenic microorganisms offers a viable solution of increasingly demonstrated value. While gas fermentation advances to achieve commercial process scalability, which is currently limited to a few products such as acetate and ethanol, it is worth taking the best of the current state-of-the-art technology by its integration within innovative bioconversion schemes. This review presents multiple scenarios where gas fermentation by acetogens integrate into double-stage biotechnological production processes that use CO2 as sole carbon feedstock and H2 as energy carrier for products' synthesis. In the integration schemes here reviewed, the first stage can be biotic or abiotic while the second stage is biotic. When the first stage is biotic, acetogens act as a biological platform to generate chemical intermediates such as acetate, formate and ethanol that become substrates for a second fermentation stage. This approach holds the potential to enhance process titre/rate/yield metrics and products' spectrum. Alternatively, when the first stage is abiotic, the integrated two-stage scheme foresees, in the first stage, the catalytic transformation of CO2 into C1 products that, in the second stage, can be metabolized by acetogens. This latter scheme leverages the metabolic flexibility of acetogens in efficient utilization of the products of CO2 abiotic hydrogenation, namely formate and methanol, to synthesize multicarbon compounds but also to act as flexible catalysts for hydrogen storage or production. 相似文献
637.
Falk Schrödl Andrea Trost Clemens Strohmaier Barbara Bogner Christian Runge Alexandra Kaser-Eichberger Sebastien Couillard-Despres Ludwig Aigner Herbert A. Reitsamer 《Cell and tissue research》2014,356(1):1-8
Pericytes are contractile cells that surround blood vessels. When contracting, they change the diameter of the vessel and therefore influence blood flow homeostasis; however, mechanisms controlling pericyte action are less well understood. Since blood flow regulation per se is controlled by the autonomic nervous system, the latter might also be involved in pericyte action. Hence, rat choroidal pericytes were analyzed for such a connection by using appropriate markers. Rat choroidal wholemounts and sections were prepared for immunohistochemistry of the pericyte marker chondroitin-sulfate-proteoglycan (NG2) and the pan-neuronal marker PGP9.5 or of tyrosine hydroxylase (TH), vasoactive intestinal polypeptide (VIP) and choline acetyl transferase (ChAT). Additionally, PGP9.5 and TH were analyzed in the choroid of DCX-dsRed2 transgenic rats, displaying red-fluorescent perivascular cells and serving as a putative model for studying pericyte function in vivo. Confocal laser-scanning microscopy revealed NG2-immunoreactive cells and processes surrounding the blood vessels. These NG2-positive cells were not co-localized with PGP9.5 but received close appositions of PGP9.5-, TH-, VIP- and ChAT-immunoreactive boutons and fibers. In the DCX-dsRed2 transgenic rat, PGP9.5 and TH were also densely apposed on the dsRed-positive cells adjacent to blood vessels. These cells were likewise immunoreactive for NG2, suggesting their pericyte identity. In addition to the innervation of vascular smooth muscle cells, the close relationship of PGP9.5 and further sympathetic (TH) and parasympathetic (VIP, ChAT) nerve fibers on NG2-positive pericytes indicated an additional target of the autonomic nervous system for choroidal blood flow regulation. Similar findings in the DCX-dsRed transgenic rat indicate the potential use of this animal model for in vivo experiments revealing the role of pericytes in blood flow regulation. 相似文献