about
NADPH Oxidase-Dependent Superoxide Production in Plant Reproductive TissuesThiol-based redox regulation in sexual plant reproduction: new insights and perspectivesAnalysis of the effects of polymorphism on pollen profilin structural functionality and the generation of conformational, T- and B-cell epitopesPatterns of ROS Accumulation in the Stigmas of Angiosperms and Visions into Their Multi-Functionality in Plant ReproductionReprOlive: a database with linked data for the olive tree (Olea europaea L.) reproductive transcriptomeAn olive pollen protein with allergenic activity, Ole e 10, defines a novel family of carbohydrate-binding modules and is potentially implicated in pollen germination.Olive cultivar origin is a major cause of polymorphism for Ole e 1 pollen allergen.Cellular localization of ROS and NO in olive reproductive tissues during flower development.Characterization of profilin polymorphism in pollen with a focus on multifunctionality.The NUTRAOLEOUM Study, a randomized controlled trial, for achieving nutritional added value for olive oilsDifferential characteristics of olive pollen from different cultivars: biological and clinical implications.The Pollen Coat Proteome: At the Cutting Edge of Plant ReproductionAutomated identification of reference genes based on RNA-seq data.The plant stigma exudate. A biochemically active extracellular environment for pollen germination?Identification and Functional Annotation of Genes Differentially Expressed in the Reproductive Tissues of the Olive Tree (Olea europaea L.) through the Generation of Subtractive Libraries.Olive seed protein bodies store degrading enzymes involved in mobilization of oil bodies.Identification and Assessment of the Potential Allergenicity of 7S Vicilins in Olive (Olea europaea L.) Seeds.Characterization of narrow-leaf lupin (Lupinus angustifolius L.) recombinant major allergen IgE-binding proteins and the natural β-conglutin counterparts in sweet lupin seed species.Structural functionality, catalytic mechanism modeling and molecular allergenicity of phenylcoumaran benzylic ether reductase, an olive pollen (Ole e 12) allergen.Identification of olive pollen allergens using a fluorescence-based 2D multiplex method.Fluorochromes for detection of callose in meiocytes of olive (Olea europaea L.).Generation of nitric oxide by olive (Olea europaea L.) pollen during in vitro germination and assessment of the S-nitroso- and nitro-proteomes by computational predictive methods.Abnormal spermatid formation in the presence of the parasitic B(24) chromosome in the grasshopper Eyprepocnemis plorans.Effects of Virgin Olive Oils Differing in Their Bioactive Compound Contents on Metabolic Syndrome and Endothelial Functional Risk Biomarkers in Healthy Adults: A Randomized Double-Blind Controlled Trial.Identification of novel superoxide dismutase isoenzymes in the olive (Olea europaea L.) pollen.Temperature and pyoverdine-mediated iron acquisition control surface motility ofPseudomonas putidaHistological Features of the Olive Seed and Presence of 7S-Type Seed Storage Proteins as Hallmarks of the Olive Fruit DevelopmentEffects of Virgin Olive Oils Differing in Their Bioactive Compound Contents on Biomarkers of Oxidative Stress and Inflammation in Healthy Adults: A Randomized Double-Blind Controlled TrialImmunogold probes for light and electron microscopic localization of Ole e I in several Oleaceae pollensOle e I: epitope mapping, cross-reactivity with other Oleaceae pollens and ultrastructural localizationCytochemical features common to nucleoli and cytoplasmic nucleoloids of Olea europaea meiocytes: detection of rRNA by in situ hybridizationLocalization of transcripts corresponding to the major allergen from olive pollen (Ole e I) by electron microscopic non-radioactive in situ RT-PCRHeterologously expressed polypeptide from the yeast meiotic gene HOP1 binds preferentially to yeast DNAPla 1 1 and Ole e 1 pollen allergens share common epitopes and similar ultrastructural localizationThe K+/H+ antiporter LeNHX2 increases salt tolerance by improving K+ homeostasis in transgenic tomatoOle e 13 is the unique food allergen in olive: Structure-functional, substrates docking, and molecular allergenicity comparative analysisGlutathione redox state plays a key role in flower development and pollen vigourNarrow-Leafed Lupin Main Allergen β-Conglutin (Lup an 1) Detection and Quantification Assessment in Natural and Processed FoodsA concise appraisal of lipid oxidation and lipoxidation in higher plantsNarrow-Leafed Lupin (Lupinus angustifolius L.) Seeds Gamma-Conglutin is an Anti-Inflammatory Protein Promoting Insulin Resistance Improvement and Oxidative Stress Amelioration in PANC-1 Pancreatic Cell-Line
P50
Q26749539-B02676D2-798B-4C47-B9EC-18D415BDE338Q26993230-C36DE76F-DD28-45C6-95B2-31509B4C3521Q28534482-ED8034BA-1CBE-4661-8F53-2F810EF1B169Q28598242-9C58149F-CB91-4081-BBDC-C3F268BD5EE0Q28629223-C6AF441E-7A0D-4D15-96B4-06893945FEAEQ33214852-33165935-4077-4EFC-9163-9C01FE043B85Q33316418-110F2AE2-CBE1-4097-B429-D96857BC1BB4Q33726889-AF8A5D7D-51D2-4597-8276-091F1E419B9AQ34163295-5CD63EE4-D3FD-480B-877E-B1C75A8818B6Q36172079-2BE2BBA1-BC4B-4E71-B026-12E4876C2275Q37020855-F6E5D435-2B88-4CC9-926F-F048A2D244D8Q37566431-2A1483AD-A8E9-485B-A002-7F37DD89AE5FQ38613610-FADC6715-B03F-425B-8853-3B4415780ADAQ41236749-5F1DD512-7733-4503-A0FD-1DE2048FB595Q41684591-33B689CB-8E8D-48C1-967D-AD419F945EF8Q41855519-CC400EFE-A972-4C69-917A-B242718B5288Q41879305-1DC2EE88-EDD3-4701-B4F8-24F936F65B60Q46264880-D5752034-E526-423D-A9D0-962967CFD2E7Q46647594-E8C8FFC6-F242-428E-A61D-C096BCC55108Q46779309-D8B2F166-4A22-4DA7-8157-709EC1926ACDQ50525729-26C6014A-6206-4E63-B244-16F65324985BQ50565114-C72BB13A-DCB1-44C8-B131-44043CF76439Q52699740-FA662374-A620-4505-84CD-D17173CD43F5Q53818426-9E544D06-9B59-4B45-BFA0-344331E6551EQ55428758-2A8DE934-4319-4E11-B4A5-78B8A63B82B6Q57340359-C17C27CD-1C8F-4D6E-864A-DC5EA60E5409Q58122690-24872B10-4991-4A13-94CE-ADC63D24AA6DQ64058213-7163C8BC-2D99-4760-89E9-6E2F1E3E60F3Q71020222-7B098B4F-5C42-489D-8BA0-4545CA914E94Q71625703-1E227FB3-A86D-4F1F-9612-E302562078C8Q72526609-6524033A-44CC-4096-915E-C20933EF6F60Q74267914-340808EB-F6EF-447E-933C-F2A017B8C4B0Q78039589-491A32D9-4EA9-47E8-99E5-85B80BBB1843Q80124513-3E99FDC2-D025-4B00-B8A1-1DF0698E21E0Q86527411-DC35F49B-7590-494B-8A64-4BD3FC6B8359Q89068281-F3E4FD8B-0E26-42E4-ADC3-C47053C13731Q90306988-2FF864F5-A11C-4E55-9F23-6ED3A79CFDE6Q90852399-837F5DC1-AD6C-41AE-971D-1800B4C1D215Q91648210-F29421C2-E6A3-411C-9599-43D1636640D8Q92256923-9C11A9F6-FF3F-4966-8EAB-5D07E9F0B88B
P50
description
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Juan de Dios Alche
@ast
Juan de Dios Alche
@en
Juan de Dios Alche
@es
Juan de Dios Alche
@nl
Juan de Dios Alche
@sl
type
label
Juan de Dios Alche
@ast
Juan de Dios Alche
@en
Juan de Dios Alche
@es
Juan de Dios Alche
@nl
Juan de Dios Alche
@sl
prefLabel
Juan de Dios Alche
@ast
Juan de Dios Alche
@en
Juan de Dios Alche
@es
Juan de Dios Alche
@nl
Juan de Dios Alche
@sl
P106
P1153
6603022779
P21
P2456
P31
P496
0000-0002-7547-6025