Search results for "Pectinesterase"

showing 5 items of 5 documents

Firming of fruit tissues by vacuum infusion of pectin methylesterase: Visualisation of enzyme action

2008

 ; Apple pieces were vacuum-impregnated with either a pectin methylesterase (PME) and calcium solution or with water prior to pasteurization. Pasteurized apple pieces impregnated with PME and calcium showed a significantly higher firmness. Moreover, solid state C-13 NMR spectroscopy of apple cell wall residues revealed an increase of their molecular rigidity. Exogenous PME addition involved a decrease from 82% to 45% of apple pectin degree of methyl-esterification. Microscopic observations of apple slices immunolabelled with antibodies specific for pectins showed that (i) demethyl-esterification was more intense in the cell wall region lining intercellular spaces (demonstrating a key role f…

0106 biological sciencesfood.ingredientPectinPectin methylesterasechemistry.chemical_elementCalciumPolysaccharide01 natural sciencescomplex mixturesAnalytical ChemistryFruit firmnessCell wallVacuum-impregnation0404 agricultural biotechnologyfood010608 biotechnology[SDV.IDA]Life Sciences [q-bio]/Food engineeringchemistry.chemical_classificationRIGIDITE MOLECULAIRE04 agricultural and veterinary sciencesGeneral MedicinePenetration (firestop)PECTIN METHYLESTERASE 040401 food sciencePectinPectinesteraseEnzymechemistryBiochemistryBiophysicsIntracellularFood Science
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Identifying Host Molecular Features Strongly Linked With Responses to Huanglongbing Disease in Citrus Leaves

2018

© 2018 Balan, Ibáñez, Dandekar, Caruso and Martinelli. A bioinformatic analysis of previously published RNA-Seq studies on Huanglongbing (HLB) response and tolerance in leaf tissues was performed. The aim was to identify genes commonly modulated between studies and genes, pathways and gene set categories strongly associated with this devastating Citrus disease. Bioinformatic analysis of expression data of four datasets present in NCBI provided 46–68 million reads with an alignment percentage of 72.95–86.76%. Only 16 HLB-regulated genes were commonly identified between the three leaf datasets. Among them were key genes encoding proteins involved in cell wall modification such as CESA8, pecti…

0301 basic medicineHuanglongbing HLB citrus protein–protein interaction network transcriptomics RNA-SeqPlant BiologyHuanglongbingRNA-SeqPlant Sciencelcsh:Plant cultureBiologycitrusTranscriptometranscriptomics03 medical and health sciencesExpansinSettore AGR/07 - Genetica AgrariaHeat shock proteinGenetics2.1 Biological and endogenous factorslcsh:SB1-1110RNA-SeqAetiologyGeneTranscription factorOriginal Research2. Zero hungerGeneticsHuanglongbing; HLB; citrus; protein–protein interaction network; transcriptomics; RNA-SeqPectinesteraseSettore AGR/03 - Arboricoltura Generale E Coltivazioni ArboreeHLB030104 developmental biologyPectate lyaseprotein–protein interaction networkprotein-protein interaction networkBiotechnologyFrontiers in Plant Science
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QUALITY ATTRIBUTES, PECTOLYTIC ENZYME ACTIVITIES AND PHYSIOLOGICAL CHANGES DURING POSTHARVEST RIPENING OF NECTARINE

1996

The postharvest ripening at 20C and 90-95% RHfor 10 days of 'Armking' nectarine grown in a greenhouse was investigated over two seasons. Firmness, titratable acidity, ascorbic acid, pH and maturity index were all adequate to stablish the rate ofripening. However, soluble solids content and reducing and non-reducing sugars showed no significant changes. It took about 10 days for very early ripening fruit (100 g weight and 82 N firmness) and 6 days for normal early ripening fruits (115 g weight and 46 N firmness), both harvested at preclimacteric stage, to become eating ripe (near 20 N). Total weight loss and decay after 10 days was approximately 11%. During ripening there was a temporal coin…

Ethylenefood and beveragesTitratable acidRipeningAscorbic acidPectinesterasechemistry.chemical_compoundHorticulturechemistryBotanyPostharvestPectinaseSafety Risk Reliability and QualitySofteningFood ScienceJournal of Food Quality
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Effects of thermal treatments on pectinesterase activity determined in blood oranges juices

2005

Abstract The citrus processing industry aims to maintain turbidity and attractive colour of the juice obtained from Sicilian blood oranges. Nevertheless, the presence of pectinesterase (PE, E.C. 3.1.1.11) causes the loss of these peculiar characteristics, due to precipitation of colloids and very fine pieces of pulp in suspension, with negative effects on colour and clarification of the juices. This study compares total PE activity of Sicilian blood oranges ( Sanguinello , Moro , Tarocco ) with the blonde cultivar Navel , checking enzyme stability with various pasteurisation times and temperatures conditions. Decimal reduction time and temperature ( D and z ) as well as the kinetic constant…

Orange juicePectinesterase activitySICILIAN BLOOD ORANGES; PECTINESTERASE; PASTEURISATIONSicilian blood orangefood and beveragesPasteurizationBioengineeringOrange (colour)SICILIAN BLOOD ORANGESApplied Microbiology and BiotechnologyBiochemistryPectinesteraselaw.inventionPECTINESTERASEchemistry.chemical_compoundchemistrylawAnthocyaninPASTEURISATIONCultivarFood scienceD-valueBiotechnologyEnzyme and Microbial Technology
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Inactivation kinetics of pectin methyl esterase under combined thermal–high pressure treatment in an orange juice–milk beverage

2008

Abstract The inactivation kinetics of PME in an orange juice–milk beverage system treated by thermal (65–80 °C) and combined thermal (25–65 °C)–high pressure (0.1–700 MPa) processes were fitted using a biphasic model. About 6–8% of the initial activity corresponding to the heat and pressure stable fraction was observed. For complete inactivation a treatment at 90 °C, 1 min or 700 MPa at 55 °C for 2 min was necessary showing the protective effect of the orange–milk media. The extent of inactivation was different in the orange matrices showing that PME was more thermostable in the orange juice–milk based beverage system as compared to the purified enzyme in a buffer system. On the other hand,…

Orange juicefood.ingredientfoodChromatographyPectinChemistryFood additiveKineticsOrange (colour)EsteraseFood SciencePectinesteraseThermostabilityJournal of Food Engineering
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