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1.
Kristian Bjro Torstein Hovig Kjell Torgeir Stokke Sverre Stray-Pedersen 《Prostaglandins & other lipid mediators》1986,31(4)
Four major prostanoids (6-keto-PGF1α, PGE2, PGF2α and TXB2) were measured by specific radioimmunoassays in the outputs from human umbilical vessels perfussed
. As evaluated by scanning electron microscopy (SEM) only few blood platelets were attached to the vessel wall. After an initial flush with decreasing concentrations of all four prostanoids, a stable stage was reached, lasting for 4–5 hours. During this stage the production could be inhibited by indomethacin and only slightly stimulated with arachidonic acid. The TXA2 synthetase inhibitor UK 38485 depressed the TXB2 production, while only slightly affecting the other three prostanoids at very high concentrations. The arteries produced relatively more 6-keto-PGF1α than did the vein. 相似文献
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Kristian Aspegren Leena Mannonen Anneli Ritala Riitta Puupponen-Pimiä Ulrika Kurtén Marjatta Salmenkallio-Marttila Veli Kauppinen Teemu H. Teeri 《Molecular breeding : new strategies in plant improvement》1995,1(1):91-99
Transgenic plant cell cultures have a potential for production and secretion of important proteins and peptides. To assess the possibilities of using a stable barley suspension culture for secretion of heterologous proteins in active form, we expressed the cDNA of the thermostable-glucanase (EGI) ofTrichoderma reesei in barley suspension cells. The cDNA coding for EGI and its signal sequence was placed under the control of the CaMV 35S promoter and the construction was transferred to the cells by particle bombardment. Stably transformed lines were obtained by selecting for a cotransformed antibiotic resistance marker. The expression of EGI cDNA led to accumulation of EGI in the culture medium, as shown by analysis with EGI-specific antibodies. Enzymatic assays confirmed that the EGI secreted by the suspension cells retained its activity and thermostable character. Furthermore, it was shown that the enzyme produced by the transgenic suspension culture could be used for degradation of soluble-glucans during mashing. 相似文献
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Lone Baunsgaard Kees Venema Kristian B. Axelsen José Manuel Villalba Annikki Welling Bernd Wollenweber Michael G. Palmgren 《The Plant journal : for cell and molecular biology》1996,10(3):451-458
Transport across the plasma membrane is driven by an electrochemical gradient of H+ ions generated by the plasma membrane proton pump (H+ -ATPase). Random mutants of Arabidopsis H+ -ATPase AHA1 were isolated by phenotypic selection of growth of transformed yeast cells in the absence of endogenous yeast H+ -ATPase (PMA1). A Trp-874-Leu substitution as well as a Trp-874 to Lys-935 deletion in the hydrophilic C-terminal domain of AHA1 conferred growth of yeast cells devoid of PMA1. A Trp-874-Phe substitution in AHA1 was produced by site-directed mutagenesis. The modified enzymes hydrolyzed ATP at 200–500% of wild-type level, had a sixfold increase in affinity for ATP (from 1.2 to 0.2 mM; pH 7.0), and had the acidic pH optimum shifted towards neutral pH. AHA1 did not contribute significantly to H+ extrusion by transformed yeast cells. The different species of aha1, however, displayed marked differences in initial rates of net H+ extrusion and in their ability to sustain an electrochemical H+ gradient. These results provide evidence that Trp-874 plays an important role in auto-inhibition of the plant H+ -ATPase and may be involved in controlling the degree of coupling between ATP hydrolysis and H+ pumping. Finally, these results demonstrate the usefulness of yeast as a generalized screening tool for isolating regulatory mutants of plants transporters. 相似文献
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I. Rantala H. Helin Maiju Helin V. Kotti A. Pasternack 《Histochemistry and cell biology》1980,66(2):189-199
Summary Fixation and embedding variables were compared in immuno-electron microscopic localization of rat IgG in an autologous immune complextype nephritis. Specimens from kidney cortex were fixed for 3, 6 or 9 h in the following fixatives made in 0.1 M phosphate buffer at pH 7.44% paraformaldehyde, 2.5% glutaraldehyde, periodate-lysine-paraformaldehyde or modified Karnovsky's fixative. Localization of IgG was performed on tissue sections cut with a tissue chopper, cryostat or sliding microtome, using agarose, Ames O.C.T. Compound or polyethylene glycol respectively as cutting matrixes. The sections were incubated in peroxidase-labelled antirat IgG antiserum (diluted 120 with phosphate-buffered saline) for 60 h. Peroxidase activity was then revealed and the sections embedded in Epon. Exact localization of IgG throughout the sections and good ultrastructure were achieved when paraformaldehyde and agarose were used. Periodate-lysine-paraformaldehyde proved almost as useful as paraformaldehyde in connection with agarose in respect of peroxidase reaction and ultrastructure. Fixatives containing glutaraldehyde gave a mostly weak and unevenly distributed peroxidase reaction product. In the cryostat sections breaking of the tissue structure could not be avoided. When polyethylene glycol was used as cutting matrix no peroxidase reaction was achieved. 相似文献
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Li Yu Yoshihisa Yoshimi Rosalie Cresswell Raymond Wightman Jan J Lyczakowski Louis F L Wilson Konan Ishida Katherine Stott Xiaolan Yu Stephan Charalambous Joel Wurman-Rodrich Oliver M Terrett Steven P Brown Ray Dupree Henry Temple Kristian B R M Krogh Paul Dupree 《The Plant cell》2022,34(11):4600
Hemicellulose polysaccharides influence assembly and properties of the plant primary cell wall (PCW), perhaps by interacting with cellulose to affect the deposition and bundling of cellulose fibrils. However, the functional differences between plant cell wall hemicelluloses such as glucomannan, xylan, and xyloglucan (XyG) remain unclear. As the most abundant hemicellulose, XyG is considered important in eudicot PCWs, but plants devoid of XyG show relatively mild phenotypes. We report here that a patterned β-galactoglucomannan (β-GGM) is widespread in eudicot PCWs and shows remarkable similarities to XyG. The sugar linkages forming the backbone and side chains of β-GGM are analogous to those that make up XyG, and moreover, these linkages are formed by glycosyltransferases from the same CAZy families. Solid-state nuclear magnetic resonance indicated that β-GGM shows low mobility in the cell wall, consistent with interaction with cellulose. Although Arabidopsis β-GGM synthesis mutants show no obvious growth defects, genetic crosses between β-GGM and XyG mutants produce exacerbated phenotypes compared with XyG mutants. These findings demonstrate a related role of these two similar but distinct classes of hemicelluloses in PCWs. This work opens avenues to study the roles of β-GGM and XyG in PCWs.Patterned β-GGM resembles xyloglucan in structure, biosynthesis, and function.In a Nutshell Background: Plant primary cell walls (PCWs) need to be rigid enough to define the plant shape and yet allow cell expansion at the same time. Plants achieve this by forming a complex network that is composed of cellulose and various non-cellulosic polysaccharides, such as hemicelluloses. Cell walls differ in the abundance of the various hemicelluloses, and their roles are poorly understood. In contrast to xyloglucan (XyG), which has been the most extensively studied hemicellulose in the PCWs, neither the structure nor functions of glucomannan has been resolved. Question: Are the functions of the glucomannan in PCWs distinct from the roles of the most abundant hemicellulose, XyG? Findings: We discovered a type of glucomannan in eudicot PCWs, which we named β-galactoglucomannan (β-GGM) because of its distinctive structures: disaccharide side chains of β-Gal-α-Gal and alternating repeats of Glc-Man in the backbone. Similarity to XyG in structure and biosynthesis led us to identify a β-galactosyltransferase for the β-GGM biosynthesis. We found that β-GGM contributed to normal cell expansion, in a way that was masked by the presence of XyG. These results suggest related functions of β-GGM to XyG, highlighting the necessity to consider the contribution of multiple hemicelluloses in the functional study of plant cell walls. Next steps: We would like to know how β-GGM binds to cellulose, and how this differs to cellulose binding of XyG. Investigation of the precise arrangements and interactions of cellulose and hemicelluloses including β-GGM and XyG will help further understanding of the enigmatic functions of hemicelluloses. 相似文献
10.
The formation of prostacyclin (PGI2) and thromboxane A2 (TXA2) (measured as the stable metabolites 6-keto-PGF1α and TXB2) during stimulation with vasoactive autocoids was registered in human umbilical arteries perfused
. Responses were registered within 3–4 minutes after addition of the subtances. Both angiostensin I and II were found to increase the formation of PGI2 while depressing that of TXA2. Serotonin increased the formation of TXA2 but not that of PGI2. Both PGE2 and PGF2α stimulated the PGI2 formation. The TXA2 mimetic U46619, increased PGI2 production, whereas PGI2 slighlty increased the formation of TXA2. All responses were found to be completely inhibited by indomethacin. 相似文献