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961.
962.
Lucien J. Houenou Martine Pinon-Raymond Luis Garcia A. John Harris Franois Rieger 《Developmental neurobiology》1990,21(8):1249-1261
Developmental aspects of the neuromuscular system in mouse embryos chronically paralyzed in utero with tetrodotoxin (TTX) between embryonic days 14 and 18 were studied using biochemical and histological methods. The number of lumbar spinal motoneurons (MNs) was higher in inactive embryos than in controls suggesting a decreased motoneuron cell death. In association with the increase in MN number, choline acetyltransferase activity was significantly increased in both spinal cord and peripheral synaptic sites. Paralyzed muscles exhibited a decreased number of mature myofibers and the nuclei were centrally located. Creatine kinase activity was greatly decreased and total acetylcholine receptor and receptor cluster numbers per myofiber were significantly increased in paralyzed muscles. A similar pattern of changes occurs in the neuromuscular system of the mutant mouse muscular dysgenesis (mdg). However, in contrast to the mdg mutant, tetrodotoxin-treated muscles were similar to controls in their innervation pattern, in the ultrastructural aspects of the excitation–contraction coupling system (i.e., dyads and triads) and in the extent of dihydropyridine binding. Thus, neuromuscular inactivity is not sufficient to impair the pattern of muscle innervation or the appearance of either the triadic junctions or dihydropyridine receptors. These results indicate that alterations of dihydropyridine binding sites and triads in muscular dysgenesis cannot be accounted for by inactivity but rather must reflect a more primary defect involving the structural gene(s) regulating the development of one or more aspects of muscle differentiation. 相似文献
963.
Neurogenesis, control, and functional significance of gasping 总被引:6,自引:0,他引:6
W M St John 《Journal of applied physiology》1990,68(4):1305-1315
Gasps are frequently the first and last breaths of life. Gasping, which is generated by intrinsic medullary mechanisms, differs fundamentally from other automatic ventilatory patterns. A region of the lateral tegmental field of the medulla is critical for the neurogenesis of the gasp but has no role in eupnea. Neuronal mechanisms in separate brain stem regions may be responsible for the neurogenesis of different ventilatory patterns. This hypothesis is supported by the recording of independent respiratory rhythms simultaneously from isolated brain stem segments. Data from fetal and neonatal animals also support gasping and eupnea being generated by separate mechanisms. Gasping may represent the output of a simple but rugged pattern generator that functions as a backup system until the control system for eupnea is developed. Pacemaker elements are hypothesized as underlying the onset of inspiratory activity in gasping. Similar elements, in a different brain stem region, may be responsible for the onset of the eupneic inspiration with neural circuits involving the pons, the medulla, and the spinal cord serving to shape efferent respiratory-modulated neural discharges. 相似文献
964.
The physical phenomenon of clathrate hydrate formation in protein-containing reversed micelles is described. Hydrate formation in reversed micelles is a method of adjusting the water to surfactant molar ratio, wo, which influences micellar size. Lipase and alpha-chymotrypsin encapsulated in large reversed micelles of high wo show significant enhancements in activity when the micelle size is reduced through hydrate formation. Alternate methods of micelle size adjustments also show enhancements in activity. The implications for improving the activity of such encapsulated enzymes recovered from fermentation media through phase transfer into reversed micelles are discussed. 相似文献
965.
A Particle Inflow Gun was constructed to introducethe glucuronidase (GUS) and hygromycin resistance genes intohalophytic suspension cells of Kosteletzkya virginica. The transientexpression of the GUS gene was associated with the cell cultureconditions, physical parameters during the use of the ParticleInflow Gun, and different promoters coupled to GUS. When theCaMV35S promoter was used, the cells adapted at 85 mM NaCl hada similar gene transfer efficiency to those of the non-salt-adaptedcontrol, while expression was less in the 170 mM and 255 mMNaCl-adapted cells. Both elevating bombardment pressure to 1.65mPa and shortening the distance between the cells and the particleholder from 21 cm to 9 cm enhanced GUS expression in the cellsgrown in four salinity treatments. An ABA-responsive promoterinduced the expression of the GUS gene either with 104M ABA or with salts in the post-bombardment medium in both controland NaCl-adapted cell tines. Stable transgenic callus lineswere isolated by using hygromycin containing medium after bombardingthe suspension cells with the Particle Inflow Gun. The presenceof the GUS gene in stable transformants was confirmed not onlyby histochemical and fluorimetric assays for the GUS activity,but also by Southern hybridization of RT-PCR amplified mANA. Key words: Transgenic hatophyte, Particle Inflow Gun, bombardment, salt tolerance, transformation 相似文献
966.
967.
John Wakeley 《Journal of genetics》1996,75(1):81-89
A number of different migration and isolation models of population subdivision have been studied. In this paper I analyse a general model of two populations derived from a common ancestral population at some time in the past. The two populations may exchange migrants, but they may also be completely isolated from each other. I derive the expectation and variance of the number of differences between two sequences sampled from the two populations. These are then compared to the corresponding results from two other much-used models: equilibrium migration and complete isolation. 相似文献
968.
Maciej Poltorak Mark A. Frye Renee Wright †John J. Hemperly Mark S. George Peggy J. Pazzaglia Shari A. Jerrels Robert M. Post William J. Freed 《Journal of neurochemistry》1996,66(4):1532-1538
Abstract: Neural cell adhesion molecule (N-CAM) is involved in cell-cell interactions during synaptogenesis, morphogenesis, and plasticity of the nervous system. Disturbances in synaptic restructuring and neural plasticity may be related to the pathogenesis of several neuropsychiatric diseases, including mood disorders and schizophrenia. Disturbances in brain cellular function may alter concentrations of N-CAM in the CSF. Soluble human N-CAM proteins are detectable in the CSF but are minor constituents of serum. We have recently found an increase in N-CAM content in the CSF of patients with schizophrenia. Although the pathogenesis of both schizophrenia and mood disorders is unknown, ventriculomegaly, decreased temporal lobe volume, and subcortical structural abnormalities have been reported for both disorders. We have therefore measured N-CAM concentrations in the CSF of patients with mood disorder. There were significant increases in amounts of N-CAM immunoreactive proteins, primarily the 120-kDa band, in the CSF of psychiatric inpatients with bipolar mood disorder type I and recurrent unipolar major depression. There were no differences in bipolar mood disorder type II patients as compared with normals. There were no significant effects of medication treatment on N-CAM concentrations. It is possible that the 120-kDa N-CAM band present in the CSF is derived from CNS cells as a secreted soluble N-CAM isoform. Our results suggest the possibility of latent state-related disturbances in N-CAM cellular function, i.e., residue from a previous episode, or abnormal N-CAM turnover in the CNS of patients with mood disorder. 相似文献
969.
The prokaryotic endosymbionts that became plastids and mitochondria contained genes destined for one of three fates. Genes
required for free-living existence were lost. Most genes useful to the symbiosis were transferred to the nucleus of the host.
Some genes, a small minority, were retained within the organelle. Here we suggest that a selective advantage of movement of
genes to the nucleus is decreased mutation: plastids and mitochondria have high volume-specific rates of redox reactions,
producing oxygen free radicals that chemically modify DNA. These mutations lead to synthesis of modified electron carriers
that in turn generate more mutagenic free radicals—the “vicious circle” theory of aging. Transfer of genes to the nucleus
is also advantageous in facilitating sexual recombination and DNA repair. For genes encoding certain key components of photosynthesis
and respiration, direct control of gene expression by redox state of electron carriers may be required to minimize free radical
production, providing a selective advantage of organelle location which outweighs that of location in the nucleus. A previous
proposal for transfer of genes to the nucleus is an economy of resources in having a single genome and a single apparatus
for gene expression, but this argument fails if any organellar gene is retained. A previous proposal for the retention of
genes within organelles is that certain proteins are organelle-encoded because they cannot be imported, but there is now evidence
against this view. Decreased free radical mutagenesis and increased sexual recombination upon transfer to the nucleus together
with redox control of gene expression in organelles may now account for the slightly different gene distributions among nuclei,
plastids, and mitochondria found in major eukaryote taxa. This analysis suggests a novel reason for uniparental inheritance
of organelles and the evolution of anisogametic sex, and may also account for the occurrence of nitrogen fixation in symbionts
rather than in nitrogen-fixing organelles.
Correspondence to: J.F. Allen 相似文献
970.
Dianna M. Milewicz Peter H. Byers John Reveille Austin L. Hughes Madeleine Duvic 《Journal of molecular evolution》1996,42(2):117-123
Alu elements are a class of repetitive DNA sequences found throughout the human genome that are thought to be duplicated via an RNA intermediate in a process termed retroposition. Recently inserted Alu elements are closely related, suggesting that they are derived from a single source gene or closely related source genes. Analysis of the type III collagen gene (COL3A1) revealed a polymorphic Alu insertion in intron 8 of the gene. The Alu insertion in the COL3A1 gene had a high degree of nucleotide identity to the Sb family of Alu elements, a family of older Alu elements. The Alu sequence was less similar to the consensus sequence for the PV or Sb2 subfamilies, subfamilies of recently inserted Alu elements. These data support the observations that at least three source genes are active in the human genome, one of which is distinct from the PV and Sb2 subfamilies and predates either of these two subfamilies. Appearance of the Alu insertion in different ethnic populations suggests that the insertion may have occurred in the last 100,000 years. This Alu insert should be a useful marker for population studies and for marking COL3A1 alleles. 相似文献