Your search keyword '"Adriaan C. van Aelst"' showing total 18 results

1. Gomphrena claussenii , a novel metal‐hypertolerant bioindicator species, sequesters cadmium, but not zinc, in vacuolar oxalate crystals

Author

Mark G. M. Aarts, Roland Mumm, Paula Pongrac, Luka Jeromel, Jeroen van Arkel, Mina T. Villafort Carvalho, Primož Vavpetič, Primož Pelicon, and Adriaan C. van Aelst

Subjects

Cellular distribution, Physiology, Metabolite, Gomphrena claussenii, Calcium oxalate, chemistry.chemical_element, Plant Science, Zinc, Laboratorium voor Erfelijkheidsleer, Oxalate, Calcium oxalate (CaOx) crystal, chemistry.chemical_compound, Botany, Cadmium (Cd), Gomphrena, Cadmium, Amaranthaceae, Calcium Oxalate, biology, Chemistry, Spectrometry, X-Ray Emission, biology.organism_classification, Zinc (Zn), Biochemistry, Shoot, Microscopy, Electron, Scanning, BIOS Applied Metabolic Systems, Laboratory of Genetics

Abstract

Summary Gomphrena claussenii is a recently described zinc (Zn)- and cadmium (Cd)-hypertolerant Amaranthaceae species displaying a metal bioindicator Zn/Cd accumulation response. We investigated the Zn and Cd distribution in stem and leaf tissues of G. claussenii at the cellular level, and determined metabolite profiles to investigate metabolite involvement in Zn and Cd sequestration. Gomphrena claussenii plants exposed to high Zn and Cd supply were analysed by scanning electron microscopy with energy-dispersive X-ray (SEM-EDX) and micro-proton-induced X-ray emission (micro-PIXE). In addition, gas chromatography-time of flight-mass spectrometry (GC-TOF-MS) was used to determine metabolite profiles on high Zn and Cd exposure. Stem and leaf tissues of G. claussenii plants exposed to control and high Cd conditions showed the abundant presence of calcium oxalate (CaOx) crystals, but on high Zn exposure, their abundance was strongly reduced. Ca and Cd co-localized to the CaOx crystals in Cd-exposed plants. Citrate, malate and oxalate levels were all higher in shoot tissues of metal-exposed plants, with oxalate levels induced 2.6-fold on Zn exposure and 6.4-fold on Cd exposure. Sequestration of Cd in vacuolar CaOx crystals of G. claussenii is found to be a novel mechanism to deal with Cd accumulation and tolerance.

Published

2015

2. Relation between Gelation Conditions and the Physical Properties of Whey Protein Particles

Author

Dilek Saglam, Erik van der Linden, Paul Venema, Adriaan C. van Aelst, and Renko de Vries

Subjects

Whey protein, Physics and Physical Chemistry of Foods, Surface Properties, ph, Laboratorium voor Fysische chemie en Kolloïdkunde, Sodium, microstructure, chemistry.chemical_element, Sodium Chloride, Whey protein isolate, structural-properties, water emulsions, Rheology, Electrochemistry, isolate gels, General Materials Science, Particle Size, Food structure, Beta-lactoglobulin, Physical Chemistry and Colloid Science, Spectroscopy, VLAG, Chromatography, biology, beta-lactoglobulin, Chemistry, Chemistry, Physical, emulsification, Laboratorium voor Celbiologie, Surfaces and Interfaces, Hydrogen-Ion Concentration, Condensed Matter Physics, Microstructure, Milk Proteins, Laboratory of Cell Biology, Whey Proteins, Chemical engineering, biology.protein, microscopy, rheology, Particle size, particulate gels, Gels

Abstract

Whey protein particles have several applications in modulating food structure and for encapsulation, but there is a lack of methods to prepare particles with a very high internal protein content. In this study whey protein particles with high internal protein content were prepared through emulsification and heat gelation of 25% (w/w) whey protein isolate solution at different pH (6.8 or 5.5) and NaCl concentrations (50, 200, or 400 mM). Particles formed at pH 6.8 were spherical, whereas those formed at pH 5.5 were irregular and had a cauliflower-like appearance. Both particles had an average size of few micrometers, and the particles formed at pH 5.5 had higher protein content (∼39% w/v) than the particles formed at pH 6.8 (∼18% w/v). Similarly, particle morphology and protein density were also affected by initial NaCl concentration: particles formed at 50 mM NaCl (pH 6.8) were spherical, whereas particles formed at either 200 mM NaCl (pH 6.7) or 400 mM NaCl (pH 6.6) were irregular and protein density of the particles increased with increasing initial NaCl concentration. Whey protein particles formed at pH 5.5 showed an excellent heat stability: viscosity of the suspensions containing approximately 30% of protein particles formed at pH 5.5 did not show any change after heating at 90 °C for 30 min while the viscosity of suspensions containing protein particles prepared at other conditions increased after heating. In summary, whey protein particles with varying microstructure, shape, internal protein density, and heat stability can be formed by using heat-induced gelation of whey protein isolate at different gelling conditions.

Published

2012

3. Biological Alkylation and Colloid Formation of Selenium in Methanogenic UASB Reactors

Author

M.P.J. Smit, Patrick Binder, Adriaan C. van Aelst, Markus Lenz, and Piet N.L. Lens

Subjects

waste-water, Environmental Engineering, Alkylation, chemistry.chemical_element, Electron donor, Management, Monitoring, Policy and Law, Waste Disposal, Fluid, Selenate, bed reactors, law.invention, Selenium, chemistry.chemical_compound, Colloid, Bioreactors, law, agricultural drainage sediment, selenate-reducing bacterium, dimethyl selenone, Bioreactor, Soil Pollutants, Anaerobiosis, Colloids, anaerobic granular sludge, Waste Management and Disposal, Effluent, Filtration, enterobacter-cloacae sld1a-1, Water Science and Technology, Chromatography, Chemistry, Temperature, toxicity, food and beverages, Laboratorium voor Celbiologie, Pollution, Laboratory of Cell Biology, elemental selenium, Environmental Technology, Milieutechnologie, Methane, bacillus sp sf-1, Water Pollutants, Chemical, Mesophile, Nuclear chemistry

Abstract

Bioalkylation and colloid formation of selenium during selenate removal in upflow anaerobic sludge bed (UASB) bioreactors was investigated, The mesophilic (30 degrees C) UASB reactor (pH = 7.0) was operated for 175 d with lactate as electron donor at an organic loading rate of 2 g COD L-1 d(-1) and a selenium loading rate of 3.16 mg Se L-1 d(-1). Combining sequential filtration with ion chromatographic analysis for selenium oxyanions and solid phase micro extraction gas chromatography mass spectrometry (SPME-GC-MS) for alkylated selenium compounds allowed to entirely close the selenium mass balance in the liquid phase for most of the UASB operational runtime. Although selenate was removed to more than 98.6% from the liquid phase, a less efficient removal of dissolved selenium was observed due to the presence of dissolved alkylated selenium species (dimethylselenide and dimethyldiselenide) and colloidal selenium particles in the effluent. The alkylated and the colloidal fractions contributed LIP to 15 and 31%, respectively, to the dissolved selenium concentration. The size fractions Of the colloidal dispersion were: 4 to 0.45 mu m: up to 21%, 0.45 to 0.2 mu m: up to 11%, and particles smaller than 0.2 mu m: up to 8%. Particles of 4 to 0.45 pin were formed in the external settler, but did not settle. SEM-EDX analysis showed that microorganisms form these Selenium containing colloidal particles extracellularly on their Surface. Lowering the temperature by 10 degrees C for 6 h resulted in drastically reduced selenare removal efficiencies (after a delay of 1.5 d), accompanied by the temporary formation of all unknown, soluble, organic selenium species. This study shows that a careful process control is a prerequisite for selenium treatment in UASB bioreactors, as disturbances in the operational conditions induce elevated selenium effluent concentrations by alkylation and colloid formation.

Published

2008

4. The competence to acquire cellular desiccation tolerance is independent of seed morphological development

Author

Elena A. Golovina, Folkert A. Hoekstra, and Adriaan C. van Aelst

Subjects

Laboratorium voor Plantencelbiologie, Physiology, Triticum aestivum, Morphogenesis, Plant Science, Biology, Endosperm, Desiccation tolerance, Anthesis, Botany, Laboratorium voor Plantenfysiologie, Triticum, Electron Spin Resonance Spectroscopy, Water, food and beverages, Embryo, Meristem, Adaptation, Physiological, Cellular desiccation tolerance, EPR spin probe, Cell biology, Laboratory of Plant Cell Biology, Premature drying, Germination, Seeds, Embryogenesis, SEM, EPS, Desiccation, Laboratory of Plant Physiology

Abstract

Acquisition of desiccation tolerance and the related changes at the cellular level in wheat (Triticum aestivum cv. Priokskaya) kernels during normal development and premature drying on the ear were studied using a spin probe technique and low temperature scanning electron microscopy. During normal development, the ability of embryos to germinate after rapid drying and rehydration was acquired after completion of morphological development, which is a few days before mass maturity. The acquisition of desiccation tolerance, as assessed by germination, was associated with an upsurge in cytoplasmic viscosity, the onset of accumulation of protein and oil bodies, and the retention of membrane integrity upon dehydration/rehydration. These features were also used to assess cellular desiccation tolerance in the cases when germination could not occur. Slow premature drying was used to decouple the acquisition of cellular desiccation tolerance from morphogenesis. Upon premature drying of kernels on the ears of plants cut at 5 d after anthesis, desiccation-tolerant dwarf embryos were formed that were able to germinate. When plants were cut at earlier stages poorly developed embryos were formed that were unable to germinate, but cellular desiccation tolerance was nevertheless acquired. In such prematurely dried kernels, peripheral meristematic endosperm cells had already passed through similar physiological and ultrastructural changes associated with the acquisition of cellular desiccation tolerance. It is concluded that despite the apparent strong integration in seed development, desiccation tolerance can be acquired by the meristematic cells in the developing embryo and cambial layer of endosperm, independently of morphological development.

Published

2001

5. The taxonomic position of Asterodon, Asterostroma and Coltricia inferred from the septal pore cap ultrastructure

Author

Teun Boekhout, Joost A. Stalpers, Margo D.M. de Jong, Wally H. Müller, Adriaan C. van Aelst, and Theo P. van der Krift

Subjects

animal structures, Inonotus, biology, fungi, Coltricia, Plant Science, Hymenochaetaceae, Anatomy, biology.organism_classification, Freeze substitution, Lachnocladiaceae, Asterostroma, Genetics, Ultrastructure, Asterodon, Ecology, Evolution, Behavior and Systematics, Biotechnology

Abstract

The ultrastructure of the septal pore cap (SPC) of Asterodon, Asterostroma and Coltricia were examined to establish the taxonomic position of these genera. Asterostroma has dolipores with perforate SPCs and is classified in the Lachnocladiaceae. In contrast, Asterodon and Coltricia have dolipores with imperforate SPCs and belong to the Hymenochaetaceae. Other selected species of genera belonging to the Hymenochaetaceae like Hydnochaete, Coltriciella, Inonotus, Onnia, and Cyclomyces also contained imperforate SPCs. Coltriciella, Inonotus and Cyclomyces moreover presented a lamella of endoplasmic reticulum above the imperforate SPC after chemical fixation. Such a lamella could rarely be observed in Coltricia only after high-pressure freezing and freeze substitution. Cryofixed fungal cells of Cyclomyces and Coltricia showed differences in the architecture of the matrix of the SPC. Coltricia showed a more layered matrix structure than the SPC of Cyclomyces. In addition, transmission- and scanning electron microscopy revealed an indent in the centre of the imperforate SPC of Cyclomyces, indicating a reduced thickness, and resulting into a tented profile in cross-sections.

Published

2000

6. Programmed cell death or desiccation tolerance : two possible routes for wheat endosperm cells

Author

Elena A. Golovina, Adriaan C. van Aelst, and Folkert A. Hoekstra

Subjects

Laboratorium voor Plantencelbiologie, Programmed cell death, Starch, Desiccation tolerance, Triticum aestivum, Plant Science, Biology, Development, Endosperm, chemistry.chemical_compound, Anthesis, Aleurone, Botany, Laboratorium voor Plantenfysiologie, food and beverages, Meristem, Cell biology, Laboratory of Plant Cell Biology, chemistry, Cellular ultrastructure, EPS, Starch accumulation, Laboratory of Plant Physiology

Abstract

The fate of cells in the endosperm of developing wheat kernels was investigated under normal conditions and upon premature slow drying on the cut ear. To follow the changes in membrane integrity and cellular ultrastructure, an electron spin resonance (ESR) spin probe technique and low temperature scanning electron microscopy (LTSEM) were used. ESR data indicated that during development, the relative amount of cells with intact membranes decreased and became almost zero at the stage of mass maturity, i.e. several days before the onset of maturation drying. This suggests that the death of starchy endosperm cells is a developmental phenomenon rather than one induced by water loss. Even at 8 days after anthesis (daa), early in the differentiation phase, a considerable proportion of endosperm cells had already lost plasma membrane integrity. Comparison of ESR data with LTSEM micrographs revealed that the loss of plasma membrane integrity occurred early in the starch accumulation process, from which it was concluded that the programmes of starch accumulation and developmental death are simultaneously switched on. When the differentiation into starchy endosperm was arrested by premature slow drying of kernels on the cut ear, meristematic cells (aleurone initials) acquired desiccation tolerance as assessed by the combination of the spin probe technique and LTSEM. In contrast, fast drying caused immediate death of these cells. Thus, meristematic endosperm cells have the competence to acquire desiccation tolerance. This occurs upon premature slow drying or during normal differentiation into aleurone cells, but is lost when the cells differentiate into starchy endosperm.

Published

2000

7. Description of Meloidoderita salina sp. n. (Nematoda, Sphaeronematidae) from a micro-tidal salt marsh at Mont-Saint-Michel Bay in France

Author

Adriaan C. Van Aelst, Evelyn Yj van Heese, Gerrit Karssen, Samad Ashrafi, Didier Mugniery, Hans Helder, Plant Protect Serv, Wageningen University and Research [Wageningen] (WUR), Dept Biol, Universiteit Gent = Ghent University [Belgium] (UGENT), Institut de Génétique, Environnement et Protection des Plantes (IGEPP), Institut National de la Recherche Agronomique (INRA)-Université de Rennes 1 (UR1), Université de Rennes (UNIV-RENNES)-Université de Rennes (UNIV-RENNES)-AGROCAMPUS OUEST, Institut national d'enseignement supérieur pour l'agriculture, l'alimentation et l'environnement (Institut Agro)-Institut national d'enseignement supérieur pour l'agriculture, l'alimentation et l'environnement (Institut Agro), Dept Plant Sci, Nematol Lab, Wageningen University and Research Centre [Wageningen] (WUR), Ghent University [Belgium] (UGENT), Universiteit Gent = Ghent University (UGENT), and Institut National de la Recherche Agronomique (INRA)-Université de Rennes (UR)-AGROCAMPUS OUEST

Subjects

0106 biological sciences, root-knot nematode, SSU rDNA, Nematoda [Nematodes], [SDV]Life Sciences [q-bio], MIXED MODELS, TYLENCHIDA, GENE-SEQUENCES, cystoid, atriplex-portulacoides l, 01 natural sciences, tylenchoidea, Atriplex portulacoides, halophyte, hexagonal, morphology, morphometrics, nematode, new species, sea purslane, SEM, taxonomy, ATRIPLEX-PORTULACOIDES L, ROOT-KNOT NEMATODE, FAMILY HETERODERIDAE, RIBOSOMAL-RNA, TYLENCHOIDEA, CRICONEMATIDAE, TYLENCHULIDAE, tylenchulidae, lcsh:Zoology, lcsh:QL1-991, geography.geographical_feature_category, EPS-2, ribosomal-rna, Anatomy, Stylet, tylenchida, Salt marsh, gene-sequences, mixed models, Meloidoderita, 010607 zoology, Biology, Article, Sponge spicule, Primordium, 14. Life underwater, Laboratorium voor Nematologie, Ecology, Evolution, Behavior and Systematics, Morphometrics, geography, Biology and Life Sciences, biology.organism_classification, Nematode, Animal Science and Zoology, Laboratory of Nematology, Bay, family heteroderidae, criconematidae, 010606 plant biology & botany

Abstract

Meloidoderita salina sp. n. is described and illustrated from the halophytic plant Atriplex portulacoides L. (sea purslane) growing in a micro-tidal salt marsh in the Mont-Saint-Michel Bay in France. This new species is the first member of Meloidoderita Poghossian, 1966 collected from a saline environment, and is characterized by the following features: sedentary mature femalesa small swollen body with a clear posterior protuberance; slightly dorsally curved stylet, 19.9 µm long, with posteriorly sloping knobs; neck region irregular in shape and twisted; well developed secretory-excretory (S–E) pore, with markedly sclerotized S-E duct running posteriorly; prominent uterus bordered by a thick hyaline wall and filled with eggs. The adult female transforms into a cystoid. Eggs are deposited in both egg-mass and cystoid. Cystoids of Meloidoderita salina sp. n. display a unique sub-cuticular hexagonal beaded pattern.Male without stylet, pharyngeal region degenerated, S-E duct prominent, deirids small, developed testis 97.5 µm long, spicules 18.4 µm long, cloacal opening ventrally protruded, small phasmids posterior to cloaca opening and situated at 5.9 (3.2–7.7) µm from tail end, and conical tail ending in a rounded terminus marked with one (rarely two) ventrally positioned mucro. Additionally, some young males of the new species were observed enveloped in the last J2 cuticle. Second-stage juvenile body 470 µm long, with a 16.4 µm long stylet, prominent rounded knobs set off from the shaft, hemizonid anterior and adjacent to S-E pore, small deirids located just above S-E pore level, genital primordium located at 68–77% of body length, phasmids small and located at about 19 µm from tail tip, and tail 38.7 µm long, tapering to finely pointed terminus with a finger-like projection. Phylogenetic analyses based on the nearly full length small subunit ribosomal DNA sequences of Meloidoderita salina sp. n. revealed a close relationships of the new species with Sphaeronema alni Turkina & Chizhov, 1986 and placed these two species sister to the rest of Criconematina.

Published

2012

8. SEM Observations on the Marine Nematode Dracognomus simplex (Gerlach, 1954) Allen and Noffsinger, 1978 (Draconematidae: Prochaetosomatinae)

Author

Gerrit, Karssen and Adriaan C, Van Aelst

Subjects

Nematode Taxonomy and Molecular Phylogeny

Abstract

The free-living marine nematode Dracognomus simplex (Gerlach, 1954) Allen &Noffsinger, 1978 was studied by scanning electron microscopy (SEM). The morphology of males and females is described and illustrated in detail. In addition to the typical and modified adhesion tubes, a new type of posterior adhesion tube was discovered. A neotype is proposed for Dracognomus simplex, and D. simplex sensu Decraemer &Gourbault, 1986 is renamed as Dracognomus americanum n. sp. Additionally, a key toward the Dracognomus species is proposed.

Published

2009

9. Polymer microcapsules with a fiber-reinforced nanocomposite shell

Author

Karin Schroën, Henk Kieft, Riëlle de Ruiter, Jolet de Ruiter, Remko M. Boom, Erik van der Linden, Leonard M.C. Sagis, Francisco J. Rossier Miranda, and Adriaan C. van Aelst

Subjects

Whey protein, Materials science, Physics and Physical Chemistry of Foods, capsules, ph, Polymers, Surface Properties, Shell (structure), Capsules, fabrication, emulsions, Nanocapsules, amyloid fibrils, Adsorption, Polymer chemistry, Electrochemistry, Nanotechnology, General Materials Science, Fiber, Composite material, Food Process Engineering, Spectroscopy, VLAG, chemistry.chemical_classification, vesicles, Nanocomposite, nanocapsules, food and beverages, Laboratorium voor Celbiologie, Surfaces and Interfaces, Polymer, stability, Condensed Matter Physics, Controlled release, human serum-albumin, Laboratory of Cell Biology, Freeze Drying, chemistry, Pectins, permeability

Abstract

Polymer microcapsules can be used as controlled release systems in drugs or in foods. Using layer-by-layer adsorption of common food proteins and polysaccharides, we produced a new type of microcapsule with tunable strength and permeability. The shell consists of alternating layers of pectin and whey protein fibrils, yielding a fiber-reinforced nanocomposite shell. The strength can be tightly controlled by varying the number of layers or the density and length of the fibrils in the protein layers. The mechanical stability of these microcapsules appears to be superior to that of currently available multilayer capsules. The method involves only standard unit operations and has the potential for scaling up to industrial production volumes.

Published

2008

10. Lipophilic and hydrophilic moisturizers show different actions on human skin as revealed by cryo scanning electron microscopy

Author

Gert S. Gooris, Johann W. Wiechers, Adriaan C. van Aelst, H. W. Wouter Groenink, Anko M. de Graaff, Joke A. Bouwstra, and Julia Caussin

Subjects

filaggrin, medicine.medical_specialty, mice, medicine.medical_treatment, Administration, Topical, Human skin, Dermatology, Biochemistry, law.invention, Ointments, law, epidermis, medicine, Stratum corneum, Humans, xerosis, Cryo-scanning electron microscopy, Molecular Biology, Skin, degradation, Corneocyte, Emollients, Chemistry, maturation, Cryoelectron Microscopy, Water, Laboratorium voor Celbiologie, Skin Care, Laboratory of Cell Biology, medicine.anatomical_structure, stratum-corneum hydration, Biophysics, Microscopy, Electron, Scanning, barrier, acid, Epidermis, Electron microscope, Swelling, medicine.symptom, Moisturizer, double-blind

Abstract

To study the mode of action of moisturizers on human skin, hydrophilic moisturizers in water and neat lipophilic moisturizers were applied on excised skin for 24 h at 32 degrees C. Samples of the treated skin were subsequently visualized in a cryoscanning electron microscope. The stratum corneum (SC) appeared as a region of swollen corneocytes (the swollen region) sandwiched between two layers of relatively dry corneocytes (the upper and lower non-swelling regions respectively). Lipophilic moisturizers increased the water content of the SC, whereas hydrophilic moisturizers can also reduce the water content of the SC. When focusing on the effect of the moisturizers on the three different regions, it was observed that cells in the swelling region are most sensitive to the application of the moisturizers and that the change in SC thickness is most influenced by the change in the thickness of the swelling region. Summarizing, SC cells are not equally sensitive to moisturizer application: centrally located corneocytes are more sensitive than corneocytes in the upper and the lowest regions of the SC.

Published

2007

11. Abscisic acid controls embryo growth potential and endosperm cap weakening during coffee (Coffea arabica cv. Rubi) seed germination

Author

Peter E. Toorop, Henk W. M. Hilhorst, E. A. Amaral da Silva, and Adriaan C. van Aelst

Subjects

cell-walls, celery apium-graveolens, dormancy, Time Factors, Coffea, Germination, Plant Science, Cellulase, beta-1, Endosperm, chemistry.chemical_compound, Plant Growth Regulators, Osmotic Pressure, Botany, expression, Mannosidases, Genetics, Radicle, imbibition, Laboratorium voor Plantenfysiologie, Abscisic acid, radicle protrusion, Rubiaceae, biology, EPS-3, digestive, oral, and skin physiology, fungi, food and beverages, Laboratorium voor Celbiologie, 3-glucanases, biology.organism_classification, beta-1,3-glucanases, Laboratory of Cell Biology, chemistry, biology.protein, Dormancy, endo-beta-mannanase, Imbibition, water relations, tomato seeds, Laboratory of Plant Physiology, Abscisic Acid

Abstract

The mechanism and regulation of coffee seed germination were studied in Coffea arabica L. cv. Rubi. The coffee embryo grew inside the endosperm prior to radicle protrusion and abscisic acid (ABA) inhibited the increase in its pressure potential. There were two steps of endosperm cap weakening. An increase in cellulase activity coincided with the first step and an increase in endo-beta-mannanase (EBM) activity with the second step. ABA inhibited the second step of endosperm cap weakening, presumably by inhibiting the activities of at least two EBM isoforms and/or, indirectly, by inhibiting the pressure force of the radicle. The increase in the activities of EBM and cellulase coincided with the decrease in the force required to puncture the endosperm and with the appearance of porosity in the cell walls as observed by low-temperature scanning electronic microscopy. Tissue printing showed that EBM activity was spatially regulated in the endosperm. Activity was initiated in the endosperm cap whereas later during germination it could also be detected in the remainder of the endosperm. Tissue printing revealed that ABA inhibited most of the EBM activity in the endosperm cap, but not in the remainder of the endosperm. ABA did not inhibit cellulase activity. There was a transient rise in ABA content in the embryo during imbibition, which was likely to be responsible for slow germination, suggesting that endogenous ABA also may control embryo growth potential and the second step of endosperm cap weakening during coffee seed germination.

Published

2004

12. Diffusional properties of methanogenic granular sludge: 1H NMR characterization

Author

Rakel Gastesi, Frank J. Vergeldt, Antonio G. Pisabarro, Adriaan C. van Aelst, Henk Van As, Piet N.L. Lens, Universidad Pública de Navarra. Departamento de Producción Agraria, and Nafarroako Unibertsitate Publikoa. Nekazaritza Ekoizpena Saila

Subjects

Magnetic Resonance Spectroscopy, Diffusion, Analytical chemistry, Biophysics, molecular-diffusion, fatty-acid degradation, mass-transfer, Applied Microbiology and Biotechnology, Waste Disposal, Fluid, Bacterial Adhesion, nmr, Bioreactors, Mass transfer, transport processes, Environmental Microbiology and Biodegradation, Anaerobiosis, Biomass, Spectroscopy, coefficients, porous-media, VLAG, Molecular diffusion, WIMEK, Ecology, Sewage, Chemistry, Relaxation (NMR), spin-echo, Laboratorium voor Celbiologie, Methanogenic granular sludge, Nuclear magnetic resonance spectroscopy, Laboratory of Cell Biology, Biofysica, nuclear-magnetic-resonance, Spin echo, Proton NMR, Environmental Technology, Milieutechnologie, Protons, biofilms, Nuclear magnetic resonance (NMR), Diffusional properties, Methane, Food Science, Biotechnology

Abstract

The diffusive properties of anaerobic methanogenic and sulfidogenic aggregates present in wastewater treatment bioreactors were studied using diffusion analysis by relaxation time-separated pulsed-field gradient nuclear magnetic resonance (NMR) spectroscopy and NMR imaging. NMR spectroscopy measurements were performed at 22°C with 10 ml of granular sludge at a magnetic field strength of 0.5 T (20 MHz resonance frequency for protons). Self-diffusion coefficients of H 2 O in the investigated series of mesophilic aggregates were found to be 51 to 78% lower than the self-diffusion coefficient of free water. Interestingly, self-diffusion coefficients of H 2 O were independent of the aggregate size for the size fractions investigated. Diffusional transport occurred faster in aggregates growing under nutrient-rich conditions (e.g., the bottom of a reactor) or at high (55°C) temperatures than in aggregates cultivated in nutrient-poor conditions or at low (10°C) temperatures. Exposure of aggregates to 2.5% glutaraldehyde or heat (70 or 90°C for 30 min) modified the diffusional transport up to 20%. In contrast, deactivation of aggregates by HgCl 2 did not affect the H 2 O self-diffusion coefficient in aggregates. Analysis of NMR images of a single aggregate shows that methanogenic aggregates possess a spin-spin relaxation time and self-diffusion coefficient distribution, which are due to both physical (porosity) and chemical (metal sulfide precipitates) factors.

Published

2003

13. Root-knot nematode perineal pattern development: a reconsideration

Author

And Adriaan C. Van Aelst and Gerrit Karssen

Subjects

Laboratorium voor Plantencelbiologie, Vulva-anus region, Meloidogyne, Rectal Glands, Body side, Lateral line, Female development, Anatomy, Biology, Perineum, Vulva, Laboratory of Plant Cell Biology, medicine.anatomical_structure, SEM, medicine, Body region, Heteroderidae, Agronomy and Crop Science, Ecology, Evolution, Behavior and Systematics

Abstract

The perineal pattern, a unique and complex structure located at the female posterior body region, comprises the vulva-anus area, tail terminus, phasmids, lateral lines and surrounding cuticular striae. Little is known about the development of this important but variable character complex. Published information together with scanning electron and light microscopical observations on female development and perineal patterns were used to explain in detail the perineal pattern. The basic pattern, with fine striae, is formed just after the last moult when the vulva is induced above the anus at the posterior ventral body side. This process is likely to be influenced by the previous feeding stage. The vulva-anus region moves posteriorly, while the female is still enclosed by the old cuticle layers. After resuming feeding, the female diameter increases rapidly and pattern striae become folded and coarser. The role of the expanding rectal glands and perineal pattern structures as lateral lines, anus, tail terminus and punctations are discussed in detail. Major origins for pattern variation are developmental and aging factors in both feeding stages, a vulva-anus shift and the observation of patterns of different age, in combination with variable interpretation and description.

Published

2001

14. Viability loss of neem (Azadirachta indica) seeds associated with membrane phase behaviour

Author

Folkert A. Hoekstra, Adriaan C. van Aelst, M. Sacandé, and Elena A. Golovina

Subjects

Laboratorium voor Plantencelbiologie, Physiology, Potassium, Seed storage, Preservation, Biological, chemistry.chemical_element, Germination, Plant Science, Chilling stress, Phase (matter), Spectroscopy, Fourier Transform Infrared, Laboratorium voor Plantenfysiologie, Rosales, Imbibitional stress, Incubation, Membranes, biology, Azadirachta indica, Cell Membrane, Hexagonal phase, Water, Azadirachta, biology.organism_classification, Cold Temperature, Laboratory of Plant Cell Biology, Fertility, Membrane, chemistry, Biochemistry, Seeds, Biophysics, Spin Labels, Imbibition, EPS, Laboratory of Plant Physiology

Abstract

Storage of neem (Azadirachta indica) seeds is difficult because of their sensitivity to chilling stress at moisture contents (MC) > or =10% or imbibitional stress below 10% MC. The hypothesis was tested that an elevated gel-to-liquid crystalline phase transition temperature (Tm) of membranes is responsible for this storage behaviour. To this end a spin probe technique, Fourier transform infrared microspectroscopy, and electron microscopy were used. The in situ Tm of hydrated membranes was between 10 degrees C and 15 degrees C, coinciding with the critical minimum temperature for germination. During storage, viability of fresh embryos was lost within two weeks at 5 degrees C, but remained high at 25 degrees C. The loss of viability coincided with an increased leakage of K+ from the embryos upon imbibition and with an increased proportion of cells with injured plasma membranes. Freeze-fracture replicas of plasma membranes from chilled, hydrated axes showed lateral phase separation and signs of the inverted hexagonal phase. Dehydrated embryos were sensitive to soaking in water, particularly at low temperatures, but fresh embryos were not. After soaking dry embryos at 5 degrees C (4 h) plus 1 d of further incubation at 25 degrees C, the axis cells were structurally disorganized and did not become turgid. In contrast, cells had a healthy appearance and were turgid after soaking at 35 degrees C. Imbibitional stress was associated with the loss of plasma membrane integrity in a limited number of cells, which expanded during further incubation of the embryos at 25 degrees C. It is suggested that the injuries brought about by storage or imbibition at sub-optimal temperatures in tropical seeds whose membranes have a high intrinsic Tm (10-15 degrees C), are caused by gel phase formation.

Published

2001

15. Field Emission Gun-Scanning Electron Microscopy of Septal Pore Caps of Selected Species in the Rhizoctonia s.l. Complex

Author

Wally H. Muller, Joost A. Stalpers, Adriaan C. van Aelst, Theo P. van der Krift, and Teun Boekhout

Subjects

Physiology, Genetics, Cell Biology, General Medicine, Molecular Biology, Ecology, Evolution, Behavior and Systematics

Published

1998

16. Polymer Microcapsules with a Fiber-Reinforced Nanocomposite Shell.

Author

Leonard M. C. Sagis, Riëlle de Ruiter, Francisco J. Rossier Miranda, Jolet de Ruiter, Karin Schroën, Adriaan C. van Aelst, Henk Kieft, Remko Boom, and Erik van der Linden

Published

2008

17. Bioaugmentation of UASB reactors with immobilized Sulfurospirillum barnesii for simultaneous selenate and nitrate removal

Author

Piet N.L. Lens, Vincent O'Flaherty, Markus Lenz, Adriaan C. van Aelst, and Anne-Marie Enright

Subjects

Bioaugmentation, Denitrification, Molecular Sequence Data, waste-water treatment, chain, Selenic Acid, precipitation, medicine.disease_cause, respiring bacteria, Selenate, whole-cell immobilization, Applied Microbiology and Biotechnology, chemistry.chemical_compound, Environmental Biotechnology, Nitrate, sulfate reduction, remediation, Bioreactor, medicine, Selenium Compounds, anaerobic granular sludge, Phylogeny, se, Chromatography, Nitrates, denitrification, WIMEK, Chemical oxygen demand, bioreactors, Laboratorium voor Celbiologie, General Medicine, Cells, Immobilized, bioprecipitation, Laboratory of Cell Biology, Biodegradation, Environmental, chemistry, elemental selenium, Selenic acid, dissimilatory selenium reduction, Environmental Technology, Epsilonproteobacteria, drainage water treatment, Milieutechnologie, Sulfurospirillum barnesii, Water Pollutants, Chemical, Biotechnology

Abstract

Whole-cell immobilization of selenate-respiring Sulfurospirillum barnesii in polyacrylamide gels was investigated to allow the treatment of selenate contaminated (790 µg Se × L−1) synthetic wastewater with a high molar excess of nitrate (1,500 times) and sulfate (200 times). Gel-immobilized S. barnesii cells were used to inoculate a mesophilic (30°C) bioreactor fed with lactate as electron donor at an organic loading rate of 5 g chemical oxygen demand (COD) × L−1 day−1. Selenate was reduced efficiently (>97%) in the nitrate and sulfate fed bioreactor, and a minimal effluent concentration of 39 µg Se × L−1 was obtained. Scanning electron microscopy with energy dispersive X-ray (SEM–EDX) analysis revealed spherical bioprecipitates of ≤2 µm diameter mostly on the gel surface, consisting of selenium with a minor contribution of sulfur. To validate the bioaugmentation success under microbial competition, gel cubes with immobilized S. barnesii cells were added to an Upflow Anaerobic Sludge Bed (UASB) reactor, resulting in earlier selenate (24 hydraulic retention times (HRTs)) and sulfate (44 HRTs) removal and higher nitrate/nitrite removal efficiencies compared to a non-bioaugmented control reactor. S. barnesii was efficiently immobilized inside the UASB bioreactors as the selenate-reducing activity was maintained during long-term operation (58 days), and molecular analysis showed that S. barnesii was present in both the sludge bed and the effluent. This demonstrates that gel immobilization of specialized bacterial strains can supersede wash-out and out-competition of newly introduced strains in continuous bioaugmented systems. Eventually, proliferation of a selenium-respiring specialist occurred in the non-bioaugmented control reactor, resulting in simultaneous nitrate and selenate removal during a later phase of operation. Electronic supplementary material The online version of this article (doi:10.1007/s00253-009-1915-x) contains supplementary material, which is available to authorized users.

18. A preparation method for scanning electron microscopy

Author

Adriaan C. van Aelst and His J. Wilms

Subjects

Conventional transmission electron microscope, Materials science, business.industry, Scanning confocal electron microscopy, Scanning capacitance microscopy, Dark field microscopy, Atomic and Molecular Physics, and Optics, Electronic, Optical and Magnetic Materials, Scanning transmission electron microscopy, Microscopy, Scanning ion-conductance microscopy, Optoelectronics, Energy filtered transmission electron microscopy, business, Instrumentation

Published

1988