Pages that link to "Q42658384"

The following pages link to Hydroponic isotope labelling of entire plants (HILEP) for quantitative plant proteomics; an oxidative stress case study (Q42658384):

Displaying 44 items.

• Development and optimisation of a label-free quantitative proteomic procedure and its application in the assessment of genetically modified tomato fruit. (Q30619820) (← links)
• Stable isotope metabolic labeling with a novel N-enriched bacteria diet for improved proteomic analyses of mouse models for psychopathologies (Q30886114) (← links)
• Sultr4;1 mutant seeds of Arabidopsis have an enhanced sulphate content and modified proteome suggesting metabolic adaptations to altered sulphate compartmentalization (Q33567220) (← links)
• Quantitative proteomics by metabolic labeling of model organisms (Q33597953) (← links)
• Genome-wide characterization and expression analyses of superoxide dismutase (SOD) genes in Gossypium hirsutum. (Q33677249) (← links)
• Evolutionary analysis of novel serine proteases in the venom gland transcriptome of Bitis gabonica rhinoceros. (Q33952551) (← links)
• Biochemical characterization of the cell-biomaterial interface by quantitative proteomics (Q34193604) (← links)
• Expression-based and co-localization detection of arabinogalactan protein 6 and arabinogalactan protein 11 interactors in Arabidopsis pollen and pollen tubes (Q34538989) (← links)
• Ocular proteomics with emphasis on two-dimensional gel electrophoresis and mass spectrometry. (Q34660202) (← links)
• Plant SILAC: stable-isotope labelling with amino acids of arabidopsis seedlings for quantitative proteomics (Q34973671) (← links)
• An ANNEXIN-like protein from the cereal cyst nematode Heterodera avenae suppresses plant defense (Q35302250) (← links)
• Peroxisome biogenesis and function (Q35625778) (← links)
• Interactome of the plant-specific ESCRT-III component AtVPS2.2 in Arabidopsis thaliana (Q35657313) (← links)
• Gel-based and gel-free quantitative proteomics approaches at a glance. (Q36429606) (← links)
• Quantitative phosphoproteomics after auxin-stimulated lateral root induction identifies an SNX1 protein phosphorylation site required for growth (Q36832458) (← links)
• Quantitative proteomics reveals a dynamic association of proteins to detergent-resistant membranes upon elicitor signaling in tobacco. (Q37343072) (← links)
• In planta proteomics and proteogenomics of the biotrophic barley fungal pathogen Blumeria graminis f. sp. hordei (Q37379640) (← links)
• Overview of Quantitative LC-MS Techniques for Proteomics and Activitomics (Q37788627) (← links)
• Plant organelle proteomics: collaborating for optimal cell function. (Q37805395) (← links)
• Proteomics insights into plant signaling and development (Q37829413) (← links)
• Quantitative plant proteomics (Q37830002) (← links)
• Quantitative proteomics for investigating psychiatric disorders (Q37833588) (← links)
• Phosphoproteomics perspective on plant signal transduction and tyrosine phosphorylation (Q37840383) (← links)
• Advances in qualitative and quantitative plant membrane proteomics (Q37848977) (← links)
• To label or not to label: applications of quantitative proteomics in neuroscience research (Q37976002) (← links)
• A decade of plant proteomics and mass spectrometry: translation of technical advancements to food security and safety issues. (Q38073737) (← links)
• Functional proteomics of barley and barley chloroplasts - strategies, methods and perspectives (Q38091610) (← links)
• Plant hormone signalling through the eye of the mass spectrometer. (Q38268967) (← links)
• Recent advances and challenges in plant phosphoproteomics (Q38272059) (← links)
• Extra-Cellular But Extra-Ordinarily Important for Cells: Apoplastic Reactive Oxygen Species Metabolism. (Q41525746) (← links)
• Quantitation, networking, and function of protein phosphorylation in plant cell (Q41969802) (← links)
• Phosphatidylinositol 4-phosphate is associated to extracellular lipoproteic fractions and is detected in tomato apoplastic fluids (Q42495510) (← links)
• Fully automated software solution for protein quantitation by global metabolic labeling with stable isotopes (Q43473391) (← links)
• Loss of the transit peptide and an increase in gene expression of an ancestral chloroplastic carbonic anhydrase were instrumental in the evolution of the cytosolic C4 carbonic anhydrase in Flaveria. (Q46008529) (← links)
• Determination of ¹⁵N-incorporation into plant proteins and their absolute quantitation: a new tool to study nitrogen flux dynamics and protein pool sizes elicited by plant-herbivore interactions (Q46118327) (← links)
• Bioorthogonal Noncanonical Amino Acid Tagging (BONCAT) Enables Time-Resolved Analysis of Protein Synthesis in Native Plant Tissue. (Q46819785) (← links)
• The 15N isotope effect in Escherichia coli: a neutron can make the difference (Q47271243) (← links)
• A Plant Biologist's Toolbox to Study Translation. (Q55693171) (← links)
• Proteogenomics and in silico structural and functional annotation of the barley powdery mildew Blumeria graminis f. sp. hordei (Q57851589) (← links)
• Applications of Quantitative Proteomics in Plant Research (Q58055618) (← links)
• Advanced Proteomic Approaches to Elucidate Somatic Embryogenesis (Q59792146) (← links)
• Trends in the Design of New Isobaric Labeling Reagents for Quantitative Proteomics (Q64256124) (← links)
• Quantitative Proteomic Analysis of the Interaction Between the Endophytic Plant-Growth-Promoting Bacterium Gluconacetobacter diazotrophicus and Sugarcane (Q83054784) (← links)
• Physiological and Proteomic Changes in the Apoplast Accompany Leaf Senescence in Arabidopsis (Q92861862) (← links)