about
Systematic production of inactivating and non-inactivating suppressor mutations at the relA locus that compensate the detrimental effects of complete spot loss and affect glycogen content in Escherichia coliCloning, expression and characterization of a mammalian Nudix hydrolase-like enzyme that cleaves the pyrophosphate bond of UDP-glucoseTwo isoforms of a nucleotide-sugar pyrophosphatase/phosphodiesterase from barley leaves (Hordeum vulgare L.) are distinct oligomers of HvGLP1, a germin-like protein.Brassinolides promote the expression of a new Cicer arietinum beta-tubulin gene involved in the epicotyl elongation.Genome-wide screening of genes whose enhanced expression affects glycogen accumulation in Escherichia coli.Reappraisal of the currently prevailing model of starch biosynthesis in photosynthetic tissues: a proposal involving the cytosolic production of ADP-glucose by sucrose synthase and occurrence of cyclic turnover of starch in the chloroplast.HPLC-MS/MS analyses show that the near-Starchless aps1 and pgm leaves accumulate wild type levels of ADPglucose: further evidence for the occurrence of important ADPglucose biosynthetic pathway(s) alternative to the pPGI-pPGM-AGP pathwayComparative genomic and phylogenetic analyses of Gammaproteobacterial glg genes traced the origin of the Escherichia coli glycogen glgBXCAP operon to the last common ancestor of the sister orders Enterobacteriales and Pasteurellales.Plastidic phosphoglucose isomerase is an important determinant of starch accumulation in mesophyll cells, growth, photosynthetic capacity, and biosynthesis of plastidic cytokinins in ArabidopsisGenetic and isotope ratio mass spectrometric evidence for the occurrence of starch degradation and cycling in illuminated Arabidopsis leaves.Adenosine diphosphate sugar pyrophosphatase prevents glycogen biosynthesis in Escherichia coli.Two growth-related organ-specific cDNAs from Cicer arietinum epicotyls.Starch biosynthesis, its regulation and biotechnological approaches to improve crop yields.Arabidopsis Responds to Alternaria alternata Volatiles by Triggering Plastid Phosphoglucose Isomerase-Independent Mechanisms.Glycogen phosphorylase, the product of the glgP Gene, catalyzes glycogen breakdown by removing glucose units from the nonreducing ends in Escherichia coli.Correction: Plastidic phosphoglucose isomerase is an important determinant of starch accumulation in mesophyll cells, growth, photosynthetic capacity, and biosynthesis of plastidic cytokinins in Arabidopsis.A suggested model for potato MIVOISAP involving functions of central carbohydrate and amino acid metabolism, as well as actin cytoskeleton and endocytosis.Microbial volatile emissions promote accumulation of exceptionally high levels of starch in leaves in mono- and dicotyledonous plants.Enhancing sucrose synthase activity results in increased levels of starch and ADP-glucose in maize (Zea mays L.) seed endosperms.Microbial volatile-induced accumulation of exceptionally high levels of starch in Arabidopsis leaves is a process involving NTRC and starch synthase classes III and IV.Cytoplasmic Escherichia coli ADP sugar pyrophosphatase binds to cell membranes in response to extracellular signals as the cell population density increases.Starch granule initiation in Arabidopsis requires the presence of either class IV or class III starch synthases.Dual targeting to mitochondria and plastids of AtBT1 and ZmBT1, two members of the mitochondrial carrier family.Plastidial localization of a potato 'Nudix' hydrolase of ADP-glucose linked to starch biosynthesis.Enhancing sucrose synthase activity in transgenic potato (Solanum tuberosum L.) tubers results in increased levels of starch, ADPglucose and UDPglucose and total yield.Sucrose synthase controls both intracellular ADP glucose levels and transitory starch biosynthesis in source leaves.Volatile compounds emitted by diverse phytopathogenic microorganisms promote plant growth and flowering through cytokinin action.In vivo expression of a Cicer arietinum beta-galactosidase in potato tubers leads to a reduction of the galactan side-chains in cell wall pectin.An important pool of sucrose linked to starch biosynthesis is taken up by endocytosis in heterotrophic cells.An Escherichia coli mutant producing a truncated inactive form of GlgC synthesizes glycogen: further evidences for the occurrence of various important sources of ADPglucose in enterobacteria.Rice plastidial N-glycosylated nucleotide pyrophosphatase/phosphodiesterase is transported from the ER-golgi to the chloroplast through the secretory pathway.Molecular cloning of multiple forms of the ovine B7-2 (CD86) costimulatory molecule.Cloning, expression and characterization of a Nudix hydrolase that catalyzes the hydrolytic breakdown of ADP-glucose linked to starch biosynthesis in Arabidopsis thaliana.Cloning of a Cicer arietinum beta-galactosidase with pectin-degrading function.Occurrence of more than one important source of ADPglucose linked to glycogen biosynthesis in Escherichia coli and Salmonella.Characterization of multiple SPS knockout mutants reveals redundant functions of the four Arabidopsis sucrose phosphate synthase isoforms in plant viability, and strongly indicates that enhanced respiration and accelerated starch turnover can alleviEscherichia coli glycogen metabolism is controlled by the PhoP-PhoQ regulatory system at submillimolar environmental Mg2+ concentrations, and is highly interconnected with a wide variety of cellular processes.Post-translational redox modification of ADP-glucose pyrophosphorylase in response to light is not a major determinant of fine regulation of transitory starch accumulation in Arabidopsis leaves.GlgS, described previously as a glycogen synthesis control protein, negatively regulates motility and biofilm formation in Escherichia coli.Escherichia coli glycogen genes are organized in a single glgBXCAP transcriptional unit possessing an alternative suboperonic promoter within glgC that directs glgAP expression.
P50
Q28542786-557A0D0F-BF81-40E5-A478-32491A0F5C40Q31118382-C30734BB-14F1-4B2B-B180-C4537EE3EAFAQ31924361-F621DEC9-36CF-4CF6-B9DD-DEC4F77C4A88Q32050155-5A1AE2CC-1A75-4080-83BC-8908FEC11FCEQ33527735-81EA6A12-7AD2-4140-BE62-C639C6A9440EQ34482485-39739F42-9FD0-49C8-987D-40535A68812AQ35227270-8142B536-BE15-4827-A9E3-F90B8547043EQ35546633-F6ECA705-ED76-4BAB-9586-6FDBD0B0C912Q35587357-6A131E01-B2AE-427C-B868-76B9062849C0Q36267976-72C8E8CF-9E51-432E-AB3C-3ED2D2B818F6Q36542080-98F58BC0-F3E2-4CA1-8C58-51AF04EEFAEDQ36888362-5F2DEEF7-E26F-497B-9FEA-A0C89CB672A2Q38119354-0A7B753F-81E6-4088-9D67-CF61FDD13F1FQ39356572-185D37B0-8127-4DA1-832F-8DB6F055E2FCQ41969950-04400164-1C27-4C85-933C-50AAEEA1FF42Q42591655-6D157B66-DA89-4E63-9068-A9C843899DAEQ42757584-A5EF7108-C159-415F-8419-78D45397E3ACQ42925850-3877ECC4-5343-44E4-A68A-646ACA2AE3C8Q43446173-837F582A-A99B-430C-A906-9BAEFA3D8761Q43862260-BA6B7153-42C7-47BD-A5E4-FC67868473F7Q44197857-DCD9E10E-F8F6-4D9E-B99E-E49C891D0D9BQ44776385-506D41BD-ECF7-4DA2-A2E5-E1F5E7315263Q44793619-A30EDBE0-5A2D-46B8-8487-B85E7481FA35Q45361299-7D83F265-663B-48F4-BBA5-DC16DC553D02Q45927495-D6B0C436-E51D-4A96-A652-B8981D904115Q46542263-C83FBC45-A3AB-403A-B0D6-4C54EF21CD5BQ46561510-08EC7B40-4B01-416E-819A-67C11CE5D612Q46632189-829FB02E-7EC3-40C9-9B8F-35EEA9F11641Q46909929-C6B5DBDE-B66E-4CBB-9CE8-E45074CC58B1Q48078031-FA312CD6-CE7E-431A-BDD7-1054377C1AF9Q48084225-FE558754-0F7B-4015-86DE-910E090B1AFAQ48084876-E9C93A3A-73B2-45C3-9D1A-CE20ED4CDEB8Q48086731-755A9A96-4AED-4192-8701-2469297F0F40Q48235377-1EE409E9-A9D5-4666-9159-66DAE1CAF5FAQ50069196-656BEA85-2D49-46D9-96BD-223B840DC3F4Q51605391-62F7B481-F6D6-47EF-8189-A72E0F64FE5BQ52595278-A70F4DC3-3DA5-4162-BAF1-6730BD79A696Q53182614-28B5E5F6-83C5-4593-9142-FB6022A57575Q54314486-746E9F16-E806-437F-8007-D682378D9366Q54376808-ED58699B-35D3-4BCD-AF44-F8E94BEB46F6
P50
description
hulumtues
@sq
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Francisco José Muñoz
@ast
Francisco José Muñoz
@en
Francisco José Muñoz
@es
Francisco José Muñoz
@nl
Francisco José Muñoz
@sl
type
label
Francisco José Muñoz
@ast
Francisco José Muñoz
@en
Francisco José Muñoz
@es
Francisco José Muñoz
@nl
Francisco José Muñoz
@sl
prefLabel
Francisco José Muñoz
@ast
Francisco José Muñoz
@en
Francisco José Muñoz
@es
Francisco José Muñoz
@nl
Francisco José Muñoz
@sl
P1053
I-3547-2012
P106
P21
P31
P3829
P496
0000-0002-0426-2118