39 results on '"Gil-Monreal, Miriam"'
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2. Role of glutathione S-transferases in the mode of action of herbicides that inhibit amino acid synthesis in Amaranthus palmeri
3. Red de investigación PalmerNET. La unión hace la fuerza.
4. Expresión génica y actividad GST en el modo de acción de los herbicidas inhibidores de la síntesis de aminoácidos.
5. Respuesta oxidativa en Amaranthus palmeri resistente a inhibidores de acetolactato sintasa por mecanismos no relacionados con la diana.
6. Metabolismo del glutatión en una población de Amaranthus palmeri con resistencia NTS a nicosulfurón.
7. Alteraciones en el sistema hormonal inducidas por los herbicidas inhibidores de la síntesis de aminoácidos en Amaranthus palmeri.
8. Cysteine proteases are activated in sensitive Amaranthus palmeri populations upon treatment with herbicides inhibiting amino acid biosynthesis
9. Role of oxidative stress in the physiology of sensitive and resistant Amaranthus palmeri populations treated with herbicides inhibiting acetolactate synthase
10. Physiological performance of glyphosate and imazamox mixtures on Amaranthus palmeri sensitive and resistant to glyphosate
11. Unravelling the Phytotoxic Effects of Glyphosate on Sensitive and Resistant Amaranthus palmeri Populations by GC–MS and LC–MS Metabolic Profiling
12. [YIA] Different oxidative pattern in sensitive and resistant Amaranthus palmeri populations treated with herbicides inhibiting amino acid biosynthesis
13. The moderate oxidative stress induced by glyphosate is not detected in Amaranthus palmeri plants overexpressing EPSPS
14. An aerated axenic hydroponic system for the application of root treatments: exogenous pyruvate as a practical case
15. Primary metabolism in an Amaranthus palmeri population with multiple resistance to glyphosate and pyrithiobac herbicides
16. Glifosato herbizidak eragindako oxidazio-estresa Amaranthus palmeri belar txarrean
17. Physiological Approach to the Use of the Natural Compound Quinate in the Control of Sensitive and Resistant Papaver rhoeas
18. Hypoxic Treatment Decreases the Physiological Action of the Herbicide Imazamox on Pisum sativum Roots
19. Increased Glyphosate-Induced Gene Expression in the Shikimate Pathway Is Abolished in the Presence of Aromatic Amino Acids and Mimicked by Shikimate
20. MOESM1 of An aerated axenic hydroponic system for the application of root treatments: exogenous pyruvate as a practical case
21. ERF-VII transcription factors induce ethanol fermentation in response to amino acid biosynthesis-inhibiting herbicides
22. Nuevas Tecnologías y materiales educativos digitales para la enseñanza y el aprendizaje de Biología y Geología
23. ALDH7B4 gene overexpression alleviates the effects induced by amino acid biosynthesis-inhibiting herbicides
24. Effect of glyphosate and different metabolic intermediates on the regulation of shikimate pathway
25. Efecto del glifosato en la expresión génica de la ruta del siquimato en Amaranthus palmeri
26. Efecto del glifosato y de diferentes intermediarios metabólicos en la regulación de la ruta del siquimato
27. La sobreexpresión del gen ALDH7B4 alivia los efectos provocados por herbicidas inhibidores de la biosíntesis de aminoácidos
28. Glyphosate effect in gene expression of the shikimate pathway in Amaranthus palmeri
29. Effects of EPSPS Copy Number Variation (CNV) and Glyphosate Application on the Aromatic and Branched Chain Amino Acid Synthesis Pathways in Amaranthus palmeri
30. Induction of the PDH bypass and upregulation of the ALDH7B4 in plants treated with herbicides inhibiting amino acid biosynthesis
31. Pyruvate-consuming pathways as key factors in the plant physiological response after the inhibition of amino acid biosynthesis by herbicides
32. Characterization of the Amaranthus palmeri Physiological Response to Glyphosate in Susceptible and Resistant Populations
33. Fermentation and alternative oxidase contribute to the action of amino acid biosynthesis-inhibiting herbicides
34. Proteolytic Pathways Induced by Herbicides That Inhibit Amino Acid Biosynthesis
35. Branched-chain amino acid biosynthesis inhibitors: Herbicide efficacy is associated with an induced carbon–nitrogen imbalance
36. Characterization of the Amaranthus palmeri Physiological Response to Glyphosate in Susceptible and Resistant Populations.
37. Two Fe-superoxide dismutase families respond differently to stress and senescence in legumes
38. Control de poblaciones de amapola sensible y resistente a herbicidas sulfonilureas mediante el uso del compuesto orgánico quinato
39. Valoración de la fermentación etanólica en la toxicidad de los herbicidas inhibidores de la biosíntesis de los aminoácidos ramificados
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