ECONOMICS OF ALTERNATIVE BEEF CATTLE GENOTYPE AND MANAGEMENT/MARKETING SYSTEMS

Livestock Production/Industries,

Wind tunnel testing of low-drag airfoils

Results are presented for the measured performance recently obtained on several airfoil concepts designed to achieve low drag by maintaining extensive regions of laminar flow without compromising high-lift performance. The wind tunnel results extend from subsonic to transonic speeds and include boundary-layer control through shaping and suction. The research was conducted in the NASA Langley 8-Ft Transonic Pressure Tunnel (TPT) and Low Turbulence Pressure Tunnel (LTPT) which have been developed for testing such low-drag airfoils. Emphasis is placed on identifying some of the major factors influencing the anticipated performance of low-drag airfoils

3D MHD Modeling of the Gaseous Structure of the Galaxy: Synthetic Observations

We generated synthetic observations from the four-arm model presented in Gomez & Cox (2004) for the Galactic ISM in the presence of a spiral gravitational perturbation. We found that velocity crowding and diffusion have a strong effect in the l-v diagram. The v-b diagram presents structures at the expected spiral arm velocities, that can be explained by the off-the-plane structure of the arms presented in previous papers of this series. Such structures are observed in the Leiden/Dwingeloo HI survey. The rotation curve, as measured from the inside of the modeled galaxy, shows similarities with the observed one for the Milky Way Galaxy, although it has large deviations from the smooth circular rotation corresponding to the background potential. The magnetic field inferred from a synthetic synchrotron map shows a largely circular structure, but with interesting deviations in the midplane due to distortion of the field from circularity in the interarm regions.Comment: Accepted for publication in ApJ. Better quality figures in http://www.astro.umd.edu/~gomez/publica/3d_galaxy-3.pd

Lamellar Granule Extrusion and Stratum Corneum Intercellular Lamellae in Murine Keratinocyte Cultures

Lamellar granules are specialized epidermal organelles containing stacks of membranous disks that are extruded into the intercellular spaces in the upper portion of the granular layer. The extruded disks are believed to undergo biochemical and biophysical changes to form the stratum corneum intercellular lipid sheets that constitute the epidermal permeability barrier. Little is known about this important component of epidermal differentiation, in part due to lack of a suitable in vitro model. We have demonstrated microscopically the presence of characteristic lipid membrane structures in a primary keratinocyte culture system which shown morphologic differentiation comparable to that seen in vivo. A basal cell-enriched fraction of isolated neonatal mouse keratinocytes was plated into Vitrogen-coated 30mm Millicell (Millipore, Bedford, Massachusetts) wells, fed daily with Medium 199 containing 10% fetal bovine serum, 10 μg/ml each of insulin and hydrocortisone, and kept at 32°C in a 5% CO2/95% air atmosphere in a humidified incubator. Three days after plating, cultures were placed on living, epidermis-free mouse dermis at the air/liquid interface. At 2 wk, histologic examination showed multiple well-organized cell layers, including a distinct granular layer and a well-developed stratum corneum. Transmission electron microscopy demonstrated numerous lamellar granules and extrusion of their contents into the intercellular space. After fixation with ruthenium tetroxide, stacked intercellular lamellae in the stratum corneum were seen. Both the presence of dermis and growth at the air/liquid interface were necessary to achieve complete differentiation. This system conclusively demonstrates the formation of complex epidermal lipid structures in vitro and should allow the mechanisms and regulation of their synthesis to be elucidated

Composition and Morphology of Epidermal Cyst Lipids

The contents of epidermal cysts were used as a source of desquamated human keratinocytes uncontaminated by sebaceous, subcutaneous, or bacterial lipids. Lipids extracted with chloroform:methanol mixtures included six series of ceramides (41% of the total extractable lipid), cholesterol (27%), cholesteryl esters (10%), fatty acids (9%), choles-teryl sulfate (1.9%), a novel class of ceramide esters (3.8%), and a sterol diester (0.9%). Electron microscopy revealed that the lipids in the cyst contents existed as multiple intercellular lamellae, as in stratum corneum. One lamella, adjacent to the horny cell protein envelope, was resistant to lipid extraction and is thought to represent covalently bound lipid on the outer surface of the keratinocyte. The results indicate that the degradation of intercellular lipid lamellae is not required for desquamation