Céline Henriet scite author profile

The determination of the plant-induced Si-isotopic fractionation is a promising tool to better quantify their role in the continental Si cycle. Si-isotopic signatures of the different banana plant parts and Si source were measured, providing the isotopic fractionation factor between plant and source. Banana plantlets (Musa acuminata Colla, cv Grande Naine) were grown in hydroponics at variable Si supplies (0.08, 0.42, 0.83 and 1.66 mM Si). Si-isotopic compositions were determined on a multicollector plasma source mass spectrometer (MC-ICP-MS) operating in dry plasma mode. Results are expressed as d 29 Si relative to the NBS28 standard, with an average precision of ± 0.08& (±2r D ). The fractionation factor 29 e between bulk banana plantlets and source solution is -0.40 ± 0.11&. This confirms that plants fractionate Si isotopes by depleting the source solution in 28 Si. The intra-plant fractionation D 29 Si between roots and shoots amounts to -0.21 ± 0.08&. Si-isotopic compositions of the various plant parts indicate that heavy isotopes discrimination occurs at three levels in the plant (at the root epidermis, for xylem loading and for xylem unloading). At each step, preferential crossing of light isotopes leaves a heavier solution, and produces a lighter solution. Si-isotopic fractionation processes are further discussed in relation with Si uptake and transport in plants. These findings have important implications on the study of continental Si cycle.

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Treatment of severe von Willebrand disease with a high‐purity von Willebrand factor concentrate (Wilfactin®): a prospective study of 50 patients

Borel‐Derlon

Federici

Roussel-Robert

et al. 2007

Journal of Thrombosis and Haemostasis

103

110

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) were treated with the concentrate as the only therapy, except for clinical situations requiring a priming dose of FVIII to rapidly correct an intrinsic coagulation defect. A total of 139 spontaneous bleeding episodes were treated; only 53 (38%) needed a concomitant FVIII dose. Outcome was excellent or good in 89% of the episodes. Forty-four patients underwent 108 surgical or invasive procedures. Outcome was excellent or good in 95 scheduled procedures (only VWF was infused) and 13 emergency procedures (a priming FVIII dose was co-administered with the first VWF infusion). There were no thrombotic complications and none of the 18 patients with type 3 VWD developed anti-VWF or anti-FVIII antibodies. Conclusions. This concentrate safely and effectively provides hemostasis in patients with clinically severe VWD.

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Effects, distribution and uptake of silicon in banana (Musa spp.) under controlled conditions

et al. 2006

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Three contrasted genotypes of Musa spp. (M. acuminata cv Grande Naine, M. acuminata spp. Banksii and M. balbisiana spp. Tani) were grown for 6 weeks under optimal conditions in hydroponics and were submitted to a wide range of Si supply (0-1.66 mM Si) to quantify the Si uptake and distribution in banana, as well as the effect of Si on banana growth. The level of Si supply did not affect plant growth, nor the rate of water and nutrient uptake. The rate of Si uptake and the Si concentration in plant tissues increased markedly with the Si supply. At the highest Si concentrations (1.66 mM), silicon absorption was essentially driven by mass flow of water (passive transport). However, at lower Si concentrations (0.02-0.83 mM), it was higher than its uptake by mass flow and caused the depletion of silicon in the nutrient solution, suggesting the existence of active processes in silicon transport. The distribution of silicon among shoot organs (pseudostem < petiole and midrib < young lamina < old leaf) confirmed the major role of transpiration in silicon accumulation and was not dependent on silicon supply. However, other mechanisms of transport might be operating in the roots and in the petiole and midrib of young leaves, whose silicon concentration was unexpectedly high at low Si supply (0.02 mM) compared to higher levels of Si. The three genotypes did not exhibit consistent differences in their responses to silicon supply.

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Partial Characterization of a Fatty Acid Desaturase Gene in Drosophila melanogaster

Wicker-Thomas

Henriet

Dallerac

1997

Insect Biochemistry and Molecular Biology

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Céline Henriet

Silicon Isotopic Fractionation by Banana (Musa spp.) Grown in a Continuous Nutrient Flow Device

Treatment of severe von Willebrand disease with a high‐purity von Willebrand factor concentrate (Wilfactin®): a prospective study of 50 patients

Effects, distribution and uptake of silicon in banana (Musa spp.) under controlled conditions

Partial Characterization of a Fatty Acid Desaturase Gene in Drosophila melanogaster

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