Influence of atropine and carbachol on the fluorescence of catecholaminergic structures in selected areas of the rat brain.

Using the formaldehyde-fluorescence technique, the authors studied the influence of atropine and carbachol, administered intraventricularly to Wistar rats, on the fluorescence of catecholaminergic structures in 20 areas of the CNS, situated within the range of the 10th-46th frontal plane according to KONIG and KLIPPEL. 1. A confirmation of the antagonistic action of atropine and carbachol was obtained. It was expressed by mutually opposed occurrence of the specific fluorescence of the catecholaminergic structures. 2. In 16 out of 20 studied areas of the CNS, carbachol abolished or considerably weakened the specific fluorescence. In 3 areas it was increased by this drug, and one area proved insensitive. 3. Atropine increased the specific fluorescence in the DA (dopaminergic system) areas, while it had varying effects in the NA (noradrenergic system areas. In some areas of the CNS it increased and in others reduced the specific fluorescence of the catecholaminergic structures. 4. An interference between atropine and carbachol is observed, but it seems that the results of the present experiment speak in favour of an interaction between the catecholamine transmitters and ACh in the particular areas of the CNS under the influence of atropine and carbachol. 5. The authors discuss in detail the reactions of the catecholaminergic structures in the particular areas of the CNS, in which, as compared with the control, an increase or a decrease of the specific fluorescence under the influence of the administered drugs was observed.     

Continuous transformation of benzaldehyde to benzyl alcohol by Rhodotorula mucilaginosa immobilized in an ultrafiltration cell

Microbiological transformation of benzaldehyde accomplished by the fungus Rhodotorula mucilaginosa immobilized in the ultrafiltration cell was studied. A polysulfone membrane formed on a sintered PVC support was used for the separation of the transformation product from the cellular material. Kinetic investigations have led to results which are typical of continuously fed stirred tank reactors (CFSTR)-the value of the maximum reaction rate (V(max)) and apparent Michaelis constant (K'(m)) are practically independent of the substrate retention time (calculated in terms of the flow intensity value). A strong relationship was found to occur between V(max) and biomass concentration in the reactor. Study of the apparent enzyme stability shows that the decrease in the biocatalyst activity is chiefly caused by penetration of the cells through the membrane. The experimental results were approximated in terms of the adopted mathematical model. Based on this model, the half-lives (t(1/2)) of enzyme activities were determined. The t(1/2) value varies from 35 to 82 days and depends both on the permeate flux through the membrane and on the separation properties of the membrane.     

Seed transmission of turnip yellow mosaic virus in winter turnip and winter oilseed rapes

This is the first record of seed transmission of turnip yellow mosaic virus (TYMV) in oilseed and turnip rapes. The seed transmission of TYMV in a naturally infected winter turnip rape (Brassica napus var. silvestris) cultivar Perko PVH was investigated. By ELISA 1.6%, 3.2% and 8.3% seed transmission of the virus was found in seed of plants from three localities. The proportion of infected seeds produced by artificially infected plants of winter oilseed rape (Brassica napus ssp. oleifera) and winter turnip rape cultivars was determined. The virus transmission rate, expressed as the proportion of virus-infected plants which germinated from the seed was for the oilseed rape cvs Jet Neuf 0.1%, Solida 0.4%, Silesia 0.8%, Darmor 1.2%, SL-507 0.2%, SL-509 0.0% and for the winter turnip rape cv. Perko 1.5%. ELISA cannot be used in direct tests on bulk seed lots to estimate proportion of infected seed, but must be used on germinated seedlings.     

Tumor Necrosis Factor-α and Basic Fibroblast Growth Factor Decrease Glial Fibrillary Acidic Protein and Its Encoding mRNA in Astrocyte Cultures and Glioblastoma Cells

Abstract: Tumor necrosis factor-α is a pluripotent cytokine that is reportedly mitogenic to astrocytes. We examined expression of the astrocyte intermediate filament component glial fibrillary acidic protein in astrocyte cultures and the U373 glioblastoma cell line after treatment with tumor necrosis factor-α. Treatment with tumor necrosis factor-α for 72 h resulted in a decrease in content of glial fibrillary acidic protein and its encoding mRNA. At the same time, tumor necrosis factor-α treatment increased the expression of the cytokine interleukin-6 by astrocytes. The decrease in glial fibrillary acidic protein expression was greater when cells were subconfluent than when they were confluent. Thymidine uptake studies demonstrated that U373 cells proliferated in response to tumor necrosis factor-α, but primary neonatal astrocytes did not. However, in both U373 cells and primary astrocytes tumor necrosis factor-α induced an increase in total cellular protein content. Treatment of astrocytes and U373 cells for 72 h with the mitogenic cytokine basic fibroblast growth factor also induced a decrease in glial fibrillary acidic protein content and an increase in total protein level, demonstrating that this effect is not specific for tumor necrosis factor-α. The decrease in content of glial fibrillary acidic protein detected after tumor necrosis factor-α treatment is most likely due to dilution by other proteins that are synthesized rapidly in response to cytokine stimulation.     

Aspects of hadrosaurian cranial anatomy

Supraorbital bones in Saurolophus angustirostris are described, and their presence in all hadrosaurs is suggested. Frontal-nasal and premaxillar-nasal fontanellae are distinguished in hadrosaurs; their presence is explained as connected with growth and considered to he responsible for the variability of crest structures. New data indicating the presence of a cartilaginous diverticulum nasi within the circumnarial depression in Saurobphus ongustirostris are presented. A physiological (respiratory and/or thermoregulatory) function of the nasal diverticulum is proposed.     

Chromosomal assignment of porcine pregnancy-associated glycoprotein gene family

This study presents the chromosomal assignment of a multiple pregnancy-associated glycoprotein (PAG) gene family in the domestic pig (pPAG). The pPAG locus was identified by physical mapping (fluorescent in situ hybridisation—FISH; with various probes), and additionally confirmed by Southern hybridisation of pPAG amplicons using laser microdissected Sus scrofa chromosome 1 (SSC1), as genomic templates. Various pPAG probes were produced with the use of diverse identified templates: pPAG1-6, -8, -10 cDNAs (GenBank: L34360–1, AF315377, AF272734, AY188554, AF272735, AY373029 and AY775784, respectively), or genomic DNA (gDNA) probes of pPAG2 gene and its promoter (GenBank: U39198–9, U39762–3, U41421–4). All probes, including long gDNA probes (～9.2 kbp GpPAG2 gene; ～2.8 kbp GpPAG2 promoter), a shorter cDNA probe (PlpPAG4, 1385 bp) and amplified pPAG2-like probes (ApPAG2L) specific for cDNA inserts of pPAG2-like gene subfamily (pPAG2, -4, -6, -8 and -10; 1283–1385 bp) were produced by random priming using biotin-labelled deoxynucleotides (16-dUTP). Numerous FISH mappings with various pPAG probes revealed the chromosomal assignment of the pPAG gene family to the long arm of porcine chromosome 1 (SSC1q16–q24 region). This cytogenetic assignment was confirmed by Southern hybridisation (with ³²P-labelled pPAG10 probe) of multiple distinct pPAG amplicons (603–3943 bp) produced with the use of 25 laser microdissected SSC1, as gDNA templates. This is the first study identifying the chromosomal locus of the pPAG gene family in the pig.