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Frontiers in Plant Science(1)
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Identification of Plant Protein–Metabolite Interactions by Limited Proteolysis-Coupled Mass Spectrometry (LiP-MS)
Book PartAbstract: The interactions between metabolites and proteins constitute crucial events in cell signaling and mePalabras claves:Chemoproteomics, Interactomics, Metabolites, Metabolite–protein interactions, Plant proteomics, Protein bindingAutores:Goossens A., Jhon Venegas-Molina, Van Damme P.Fuentes:scopusIsolation of protein complexes from the model legume Medicago truncatula by tandem affinity purification in hairy root cultures
ArticleAbstract: Tandem affinity purification coupled to mass spectrometry (TAP-MS) is one of the most powerful technPalabras claves:CAF1, CKS1, Hairy roots, JAZ1, Legume, Medicago truncatula, tandem affinity purification, technical advanceAutores:De Clercq R., De Geyter N., De Jaeger G., De Keyser A., Eeckhout D., Gevaert K., Goormachtig S., Goossens A., Goossens J., Jennifer Fiallos-Jurado, Mertens J., Pollier J., Van Leene J., Walton A.Fuentes:scopusSaponin determination, expression analysis and functional characterization of saponin biosynthetic genes in Chenopodium quinoa leaves
ArticleAbstract: Quinoa (Chenopodium quinoa Willd.) is a highly nutritious pseudocereal with an outstanding protein,Palabras claves:Methyl jasmonate, oleanolic acid, Pentacyclic triterpenoid, Quantitative real-time PCR, quinoa, saponins, transcriptome assembly, β-amyrinAutores:Antonio Leon-Reyes, Arendt P., Goossens A., Jennifer Fiallos-Jurado, Maria de Lourdes Torres, Morillo-Velastegui L.E., Moses T., Noelia N. Barriga-Medina, Pollier J., Torres M.L., Venancio ArahanaFuentes:googlescopusStructural and functional diversity in plant specialized metabolism signals and products: The case of oxylipins and triterpenes
ReviewAbstract: Metabolic enzymes tend to evolve towards catalytic efficacy, precision and speed. This seems particuPalabras claves:Cytochrome p450, Enzymes, jasmonate, OPDA, Oxidosqualene, Oxylipins, saponins, specialized metabolism, TriterpenesAutores:Goossens A., Jhon Venegas-Molina, Lacchini E.Fuentes:scopusThe Molecular Basis of JAZ-MYC Coupling, a Protein-Protein Interface Essential for Plant Response to Stressors
ArticleAbstract: The jasmonic acid (JA) signaling pathway is one of the primary mechanisms that allow plants to respoPalabras claves:Computer, hotspots, JAZ, Machine learning, Modeling, MYC, Plant defenseAutores:Antonio Leon-Reyes, Goossens A., Goossens J., Miguel Angel Méndez, Pauwels L., Samara Oña Chuquimarca, Sebastián Ayala-RuanoFuentes:googlescopusThe basic helix–loop–helix transcription factors MYC1 and MYC2 have a dual role in the regulation of constitutive and stress-inducible specialized metabolism in tomato
ArticleAbstract: Plants produce specialized metabolites to protect themselves from biotic enemies. Members of the SolPalabras claves:cis-regulatory element, CRISPR-Cas9, jasmonate (JA), MYC, phenylpropanoid-polyamine conjugates, Solanum lycopersicum (tomato), specialized metabolism, steroidal alkaloidsAutores:Ceulemans E., De Meyer M., De Milde L., Fernández-Calvo P., Goossens A., Jhon Venegas-Molina, Molina-Hidalgo F.J., Pauwels L., Pollier J., Ron M., Swinnen G.Fuentes:scopusThe saponin bomb: a nucleolar-localized β-glucosidase hydrolyzes triterpene saponins in Medicago truncatula
ArticleAbstract: Plants often protect themselves from their own bioactive defense metabolites by storing them in lessPalabras claves:bioactive triterpenes, jasmonate, liquid–liquid phase, Medicago truncatula, Plant defense, saponins, specialized metabolism, β-glucosidaseAutores:Bak S., Cárdenas P.D., Erffelinck M.L., Goossens A., Höfte M., Jhon Venegas-Molina, Lacchini E., Marcou S., Mertens J., Molina-Hidalgo F.J., Pollier J., Tava A., Tzfadia O.Fuentes:scopus