Traditional neuromorphological and NADPH-diaphorase methods were used to study the topography, morphology and neurochemical organization properties of spinal cord in teleosts fishes. The heterogeneous population of NO-producing motoneurons was revealed in the motor column of spinal cords from studied species. Dendrites of primary motoneurons formed rich plexus at the spinal segment periphery. This morphological pattern is determined by translational motion of the fishes in the water (trunk-tail movement), and has no connection with the origin of upper and lower extremities. The NO-producing capacity of spinal motoneurons shows their connection with premotor NO-ergic brain system, including over situated motor centers of reticular formation and descending projections of giant steam neurons (Mauthner and Muller cells). The NO-producing Rohon-Berd neurons were found in the dorso-medial part of spinal cord from studied fishes. These cells with the ascending propriospinal targets form spinal nociceptive system. Thus, the sense Rohon-Berd cells and most motor neurons of studied bony fishes are nitric oxide synthesizing ones. Spinal cord NO-synthesizing territories are situated in concordance with dorso-ventral histochemical gradient. Spinal cord interneurons of these fishes produce nitric oxide selectively. The quantity of NO-synthesizing reticular cells is determined by two main factors: the connection with the specialized neurochemical complexes, where NO is a specific neuromodulator, and individual properties of spinal cord structure directed by conditions of morphoadaptation. 相似文献
Localization of NO-ergic elements in oral lobes, labia, and esophagus in the bivalve mollusc, mussel Crenomytilus grayanus was studied using histochemical technique [1] for detection of NADPH-diaphorase (EC 1.6.99.1). The NO-producing elements were revealed in all studied parts of the digestive system. NADPH-diaphorase was found in nerve and secretory cells as well as in nerve plexuses. Numerous NO-ergic nerve cells were observed in the basal part of epithelium of labia and of the initial part of esophagus as well as in the subepithelial area of these organs. In the middle and posterior parts of esophagus, only subepithelially located NO-ergic nerve cell are present. Basiepithelial NO-producing secretory cells are found in all the parts, but most of these cells are observed in labia and the initial part of esophagus. Subepithelial secretory cells labeled with diformazan granules are spread from the folded surface of oral lobes to the initial part of esophagus; no such cells were found on the smooth surface of the lobes. The deposit labeled basi- and subepithelial nerve plexuses in all studied organs except for oral lobes. These plexuses are the most developed in labia and the initial part of esophagus of the studied mollusc. 相似文献
Pseudorabies virus (PRV) is an alphaherpesviruses whose native host is pig. PRV infection mainly causes signs of central nervous
system disorder in young pigs, and respiratory system diseases in the adult. 相似文献
The internal transcribed spacer region (ITS1 and ITS2) of the 18S-25S
nuclear ribosomal DNA sequence and the intervening 5.8S region were
sequenced from three individuals in each of eight taxa of the Mimulus
guttatus species complex. Three discrete variants, or "types," of ITS
sequences were found, among which 30%-40% of sites differed, compared with
1%-2% within types. Dot plots indicate that these types were not related by
conspicuous rearrangements or inversions. More than one ITS type was often
found in the same taxon, and two of three ITS types span species
boundaries, indicating their presence prior to speciation. These ITS
sequences showed essentially no positional homology with the nearest
sequenced relative, tomato. In contrast, the 5.8S region was relatively
unvaried, with 8 of 162 sites varied in the sample among all eight taxa.
The phylogeny inferred by the most common ITS sequence type, rooted by the
two other ITS types, agreed with isozymes in showing the distinctness of M.
nudatus, M. laciniatus, and M. tilingii from the other five taxa.
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