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I Mila

Showing results (1-10 of 9) with videos related to

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Journal of Agricultural and Food Chemistry|December 10, 1999
Carbon-14 biolabeling of (+)-catechin and proanthocyanidin oligomers in willow tree cuttingsS Déprez, I Mila, A Scalbert
The American Naturalist|December 19, 2025
The Characteristics of Inducible Defenses Influence Predator-Prey DynamicsMichael H Cortez, Emily I Mila, Edd Hammill
Journal of Experimental Botany|March 6, 2010
Regulation of two germin-like protein genes during plum fruit developmentI El-Sharkawy, I Mila, M Bouzayen, et al.
Antioxidants & Redox Signaling|January 30, 2002
Transport of proanthocyanidin dimer, trimer, and polymer across monolayers of human intestinal epithelial Caco-2 cellsS Deprez, I Mila, J F Huneau, et al.
Journal of Experimental Botany|February 14, 2009
Molecular characterization of seven genes encoding ethylene-responsive transcriptional factors during plum fruit development and ripeningI El-Sharkawy, S Sherif, I Mila, et al.
The Journal of Nutrition|October 29, 2000
Polymeric proanthocyanidins are catabolized by human colonic microflora into low-molecular-weight phenolic acidsS Déprez, C Brezillon, S Rabot, et al.
Biofactors (Oxford, England)|March 10, 2001
Proanthocyanidins and human health: systemic effects and local effects in the gutA Scalbert, S Déprez, I Mila, et al.
Actas Urologicas Espanolas|July 31, 1999
[A retrovesical mass (intestinal duplication]L M Marco Pérez, L Rodríguez Blanco, E Franco Miranda, et al.
Plant Physiology|August 12, 2000
Lignification in transgenic poplars with extremely reduced caffeic acid O-methyltransferase activityL Jouanin, T Goujon, V de Nadaï, et al.
Pageof 1

Showing results (1-10 of 9) with videos related to

Sort By:
Pageof 1
Journal of Agricultural and Food Chemistry|December 10, 1999
Carbon-14 biolabeling of (+)-catechin and proanthocyanidin oligomers in willow tree cuttingsS Déprez, I Mila, A Scalbert
The American Naturalist|December 19, 2025
The Characteristics of Inducible Defenses Influence Predator-Prey DynamicsMichael H Cortez, Emily I Mila, Edd Hammill
Journal of Experimental Botany|March 6, 2010
Regulation of two germin-like protein genes during plum fruit developmentI El-Sharkawy, I Mila, M Bouzayen, et al.
Antioxidants & Redox Signaling|January 30, 2002
Transport of proanthocyanidin dimer, trimer, and polymer across monolayers of human intestinal epithelial Caco-2 cellsS Deprez, I Mila, J F Huneau, et al.
Journal of Experimental Botany|February 14, 2009
Molecular characterization of seven genes encoding ethylene-responsive transcriptional factors during plum fruit development and ripeningI El-Sharkawy, S Sherif, I Mila, et al.
The Journal of Nutrition|October 29, 2000
Polymeric proanthocyanidins are catabolized by human colonic microflora into low-molecular-weight phenolic acidsS Déprez, C Brezillon, S Rabot, et al.
Biofactors (Oxford, England)|March 10, 2001
Proanthocyanidins and human health: systemic effects and local effects in the gutA Scalbert, S Déprez, I Mila, et al.
Actas Urologicas Espanolas|July 31, 1999
[A retrovesical mass (intestinal duplication]L M Marco Pérez, L Rodríguez Blanco, E Franco Miranda, et al.
Plant Physiology|August 12, 2000
Lignification in transgenic poplars with extremely reduced caffeic acid O-methyltransferase activityL Jouanin, T Goujon, V de Nadaï, et al.
Pageof 1