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Selected Abstracts

A spatially advancing turbulent flow and heat transfer in a curved channel

HEAT TRANSFER - ASIAN RESEARCH (FORMERLY HEAT TRANSFER-JAPANESE RESEARCH), Issue 1 2010
Koji Matsubara
Abstract Direct numerical simulation was performed for a spatially advancing turbulent flow and heat transfer in a two-dimensional curved channel, where one wall was heated to a constant temperature and the other wall was cooled to a different constant temperature. In the simulation, fully developed flow and temperature from the straight-channel driver was passed through the inlet of the curved-channel domain. The frictional Reynolds number was assigned 150, and the Prandtl number was given 0.71. Since the flow field was examined in the previous paper, the thermal features are mainly targeted in this paper. The turbulent heat flux showed trends consistent with a growing process of large-scale vortices. In the curved part, the wall-normal component of the turbulent heat flux was twice as large as the counterpart in the straight part, suggesting active heat transport of large-scale vortices. In the inner side of the same section, temperature fluctuation was abnormally large compared with the modest fluctuation of the wall-normal velocity. This was caused by the combined effect of the large-scale motion of the vortices and the wide variation of the mean temperature; in such a temperature distribution, large-scale ejection of the hot fluid near the outer wall, which is transported into the near inner-wall region, should have a large impact on the thermal boundary layer near the inner wall. Wave number decomposition was conducted for various statistics, which showed that the contribution of the large-scale vortex to the total turbulent heat flux normal to the wall reached roughly 80% inside the channel 135° downstream from the curved-channel inlet. © 2009 Wiley Periodicals, Inc. Heat Trans Asian Res; Published online in Wiley InterScience (www.interscience.wiley.com). DOI 10.1002/htj.20275 [source]

Ultrastructure of the embryonic snake skin and putative role of histidine in the differentiation of the shedding complex

JOURNAL OF MORPHOLOGY, Issue 2 2002
Lorenzo Alibardi
Abstract The morphogenesis and ultrastructure of the epidermis of snake embryos were studied at progressive stages of development through hatching to determine the time and modality of differentiation of the shedding complex. Scales form as symmetric epidermal bumps that become slanted and eventually very overlapped. During the asymmetrization of the bumps, the basal cells of the forming outer surface of the scale become columnar, as in an epidermal placode, and accumulate glycogen. Small dermal condensations are sometimes seen and probably represent primordia of the axial dense dermis of the growing tip of scales. Deep, dense, and superficial loose dermal regions are formed when the epidermis is bilayered (periderm and basal epidermis) and undifferentiated. Glycogen and lipids decrease from basal cells to differentiating suprabasal cells. On the outer scale surface, beneath the peridermis, a layer containing dense granules and sparse 25,30-nm thick coarse filaments is formed. The underlying clear layer does not contain keratohyalin-like granules but has a rich cytoskeleton of intermediate filaments. Small denticles are formed and they interdigitate with the oberhautchen spinulae formed underneath. On the inner scale surface the clear layer contains dense granules, coarse filaments, and does not form denticles with the aspinulated oberhautchen. On the inner side surface the oberhautchen only forms occasional spinulae. The sloughing of the periderm and embryonic epidermis takes place in ovo 5,6 days before hatching. There follow beta-, mesos-, and alpha-layers, not yet mature before hatching. No resting period is present but a new generation is immediately produced so that at 6,10 h posthatching an inner generation and a new shedding complex are forming beneath the outer generation. The first shedding complex differentiates 10,11 days before hatching. In hatchlings 6,10 h old, tritiated histidine is taken up in the epidermis 4 h after injection and is found mainly in the shedding complex, especially in the apposed membranes of the clear layer and oberhautchen cells. This indicates that a histidine-rich protein is produced in preparation for shedding, as previously seen in lizard epidermis. The second shedding (first posthatching) takes place at 7,9 days posthatching. It is suggested that the shedding complex in lepidosaurian reptiles has evolved after the production of a histidine-rich protein and of a beta-keratin layer beneath the former alpha-layer. J. Morphol. 251:149,168, 2002. © 2002 Wiley-Liss, Inc. [source]

Redox enzymes in the plant plasma membrane and their possible roles

PLANT CELL & ENVIRONMENT, Issue 12 2000
A. Bérczi
ABSTRACT Purified plasma membrane (PM) vesicles from higher plants contain redox proteins with low-molecular-mass prosthetic groups such as flavins (both FMN and FAD), hemes, metals (Cu, Fe and Mn), thiol groups and possibly naphthoquinone (vitamin K1), all of which are likely to participate in redox processes. A few enzymes have already been identified: Monodehydroascorbate reductase (EC 1.6.5.4) is firmly bound to the cytosolic surface of the PM where it might be involved in keeping both cytosolic and, together with a b -type cytochrome, apoplastic ascorbate reduced. A malate dehydrogenase (EC 1.1.1.37) is localized on the inner side of the PM. Several NAD(P)H-quinone oxidoreductases have been purified from the cytocolic surface of the PM, but their function is still unknown. Different forms of nitrate reductase (EC 1.6.6.1,3) are found attached to, as well as anchored in, the PM where they may act as a nitrate sensor and/or contribute to blue-light perception, although both functions are speculative. Ferric-chelate-reducing enzymes (EC 1.6.99.13) are localized and partially characterized on the inner surface of the PM but they may participate only in the reduction of ferric-chelates in the cytosol. Very recently a ferric-chelate-reducing enzyme containing binding sites for FAD, NADPH and hemes has been identified and suggested to be a trans -PM protein. This enzyme is involved in the reduction of apoplastic iron prior to uptake of Fe2+ and is induced by iron deficiency. The presence of an NADPH oxidase, similar to the so-called respiratory burst oxidase in mammals, is still an open question. An auxin-stimulated and cyanide-insensitive NADH oxidase (possibly a protein disulphide reductase) has been characterized but its identity is still awaiting independent confirmation. Finally, the only trans -PM redox protein which has been partially purified from plant PM so far is a high-potential and ascorbate-reducible b -type cytochrome. In co-operation with vitamin K1 and an NAD(P)H-quinone oxidoreductase, it may participate in trans -PM electron transport. [source]

Perils of religion: need for spirituality in the public sphere

PUBLIC ADMINISTRATION & DEVELOPMENT, Issue 2 2006
Paul Collins
Abstract On both sides of the Atlantic, there is increased professional concern over roles in international public sector management,whether those of the policy makers, administrators or consultants. Growing numbers across many sectors feel an unprecedented crisis of identity and integrity. In international development, institutions often find themselves subordinated to the military in ever increasing conflict situations (the ,development-security complex'). Locally, the global tendency is for public administration to be ,re-engineered' on the basis of so-called ,market' values (the ,New Public Administration'). Private sector management models are, nevertheless, hardly exemplary. Corporate greed and scandals proliferate in a world featuring increasing poverty extremes, resurgence of old or advent in new diseases (e.g. HIV/Aids), environmental degradation and racism. This article takes, as its starting point, the fact that the workplace has become an insecure and alienating environment. In pursuing the relationship between spirituality and religion, the article next distinguishes between, the dogmatic, institutionalised and potentially dangerous characteristics of many religions and the more intuitively contemplative character of spirituality with its stress on awareness of self, impact on others and feeling of universal connectedness. Bearing in mind the often extremism as well as variety of religions (as distinct from spirituality), the second section examines the interrelationship between the two. A number of models are advanced concerning relationships between belief, belonging, salvation and ritual. It is argued that attention needs to be given to the inner side of religion, which requires individuals to embark on a spiritual journey through contemplation and reflection, rather than the more visible side of religion expressed in ritual. In sum, spiritual dialogue is offered as a way forward and as a mechanism for building spiritual community through engagement. The final part of the article focuses on a trans-Atlantic spiritual engagement initiative. Faith-based discussion groups have been formed amongst business executives and professionals in USA (the Woodstock Business Conference promoted out of Georgetown University) and more recently in the City of London at the St Paul's Cathedral Institute (the Paternoster Pilot Group). These aim to develop more meaningful work orientation: rediscovery of higher purpose and its relevance to restoration of ethical business and public service values, as well as better integration of personal and social domains. Copyright © 2006 John Wiley & Sons, Ltd. [source]

Biomechanics of the Fractured Medial Coronoid Process and the Isolated Anconeal Process in the Canine Elbow Joint

ANATOMIA, HISTOLOGIA, EMBRYOLOGIA, Issue 2005
J. Maierl
Introduction:, Elbow dysplasia is one of the most important orthopaedic diseases of the canine elbow joint. The medial coronoid process (MCP) and the anconeal process (AP) are involved with a high incidence. Aims:, The aim of this study was to clarify whether these processes are especially loaded resulting in osteoarthrosis. Material and Methods:, Elbow joints were examined from dogs of various breeds, with a body weight over 20 kg and an age ranging from 1 to 12 years. Only joints without damage to the articular cartilage have been included in this investigation. Articular surfaces have been evaluated macroscopically, subchondral bone density (long-term loading) and split-lines (long-term tensile loading) have been determined. Results:, In the humeral fossa olecrani, there was a distinct impression on the inner side of the lateral compared to the medial epicondyle. In the ulna, the MCP was much greater than the lateral coronoid indicating that the medial process has to support the humeral condyle to a higher extent. Subchondral split lines with a transverse orientation in the fossa olecrani gave evidence of long-term transverse tensile loading in this area. Split lines on the MCP were oriented radially as if the lateral edge was bent downwards. Subchondral bone density in the fossa olecrani was higher towards the lateral epicondyle in comparison to the medial. Furthermore, there was a bone density maximum on the medial part of the humeral condyle opposite of the MCP with its very high density. Discussion:, Gait analyses showed that there is a transverse, medially oriented force of up to 4% bodyweight acting on the paw during midstance. As the carpus is stable when slightly hyperextended during midstance loading there is a long lever arm from the ground up to an assumed rotation centre in the depth of the trochlear notch. The medially directed ground reaction force slightly rotates the forearm inwards causing a bending moment about the elbow joint, which leads to an increased pressure of the AP and the MCP. This bending in addition to sagittal loading is the reason for the high susceptibility of the MCP and AP. [source]

Histolocalisation of the oil and pigments in the pumpkin seed

ANNALS OF APPLIED BIOLOGY, Issue 3 2009
M. Kreft
Abstract Pumpkin seed oil has a distinct taste and a characteristic green-red colour. A green layer (chlorenchyma) can be observed in the cross section of the seed on the inner side of the testa. This layer is considered to be a source of protochlorophyll pigment that gives colour to the pumpkin seed oil. However, the histolocalisation of the pigment by selective method was not yet studied. In this study, we localised the oil to the small lipid droplets in the cotyledon cells by Rhodamine 6G lipophilic stain. Furthermore, we localised protochlorophyll to chlorenchyma by microscopic fluorimetry. Emission maximum of protochlorophyll was 700 nm when measured in the seed, but it shifted to 630 and 655 nm (two peaks) when measured in pumpkin seed oil or in the extract. [source]

Influence of cultivation conditions on mechanical and morphological properties of bacterial cellulose tubes

BIOTECHNOLOGY & BIOENGINEERING, Issue 2 2007
Aase Bodin
Abstract Bacterial cellulose (BC) was deposited in tubular form by fermenting Acetobacter xylinum on top of silicone tubes as an oxygenated support and by blowing different concentrations of oxygen, that is, 21% (air), 35%, 50%, and 100%. Mechanical properties such as burst pressure and tensile properties were evaluated for all tubes. The burst pressure of the tubes increased with an increase in oxygen ratio and reached a top value of 880 mmHg at 100% oxygen. The Young's modulus was approximately 5 MPa for all tubes, irrespective of the oxygen ratio. The elongation to break decreased from 30% to 10,20% when the oxygen ratio was increased. The morphology of the tubes was characterized by Scanning Electron Microscopy (SEM). All tubes had an even inner side and a more porous outer side. The cross section indicated that the tubes are composed of layers and that the amount of layers and the yield of cellulose increased with an increase in oxygen ratio. We propose that an internal vessel wall with high density is required for the tube to sustain a certain pressure. An increase in wall thickness by an increase in oxygen ratio might explain the increasing burst pressure with increasing oxygen ratio. The fermentation method used renders it possible to produce branched tubes, tubes with unlimited length and inner diameters. Endothelial cells (ECs) were grown onto the lumen of the tubes. The cells formed a confluent layer after 7 days. The tubes potential as a vascular graft is currently under investigation in a large animal model at the Centre of Vascular Engineering, Sahlgrenska University Hospital, Gothenburg. Biotechnol. Bioeng. 2007;97: 425,434. © 2006 Wiley Periodicals, Inc. [source]