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51.
Callus induction and plant regeneration from gladiolus 总被引:1,自引:0,他引:1
A method for the initiation of callus capable of plant regeneration from in vivo grown cormels of gladiolus (Gladiolus x grandiflorus Hort.) is described. Sliced cormels of the large-flowering hybrid, Peter Pears were cultured in vitro on a modified Murashige and Skoog medium, supplemented with various auxins. Yellow callus, which was either friable or compact, could be induced on all media tested. Callus induced on media with naphthaleneacetic acid failed to proliferate. Callus induced on media with 9 mM 2,4-dichlorophenoxyacetic acid showed the best growth. Addition of micro-elements and vitamins increased the induction and growth of callus capable of plant regeneration. Explants taken from the middle part of the cormels had the highest competence for callus initiation. Callus was induced on several gladiolus hybrids and the South African species G. garnierii Klatt. Callus induction was genotype dependent and among the cultivars tested, Peter Pears and White Prosperity were superior with respect to callus production on the media with either 2,4-dichlorophenoxyacetic acid or picloram. Plants were regenerated from yellow compact callus of all genotypes on media containing zeatin and benzyladenine in various concentrations.Abbreviations 2,4-D
2,4-dichlorophenoxyacetic acid
- MS
Murashige and Skoog basal salt and vitamins (1962)
- CI
callus induction medium
- NAA
-naphthaleneacetic acid
- BA
6-benzyladenine
- picloram
4-amino-3,5,6-trichloro-2-pyridinecarboxylic acid
- zeatin
6-[4-hydroxy-3-methylbut-2-enylamino]purine 相似文献
52.
Differentially regulated high‐affinity iron assimilation systems support growth of the various cell types in the dimorphic pathogen Talaromyces marneffei 下载免费PDF全文
Shivani Pasricha Lukas Schafferer Herbert Lindner Kylie Joanne Boyce Hubertus Haas Alex Andrianopoulos 《Molecular microbiology》2016,102(4):715-737
Iron is a key trace element important for many biochemical processes and its availability varies with the environment. For human pathogenic fungi iron acquisition can be particularly problematical because host cells sequester free iron as part of the acute‐phase response to infection. Fungi rely on high‐affinity iron uptake systems, such as reductive iron assimilation (RIA) and siderophore‐mediated iron uptake (non‐RIA). These have been extensively studied in pathogenic fungi that exist outside of host cells, but much less is known for intracellular fungal pathogens. Talaromyces marneffei is a dimorphic fungal pathogen endemic to Southeast Asia. In the host T. marneffei resides within macrophages where it grows as a fission yeast. T. marneffei has genes of both iron assimilation systems as well as a paralogue of the siderophore biosynthetic gene sidA, designated sidX. Unlike other fungi, deletion of sidA or sidX resulted in cell type‐specific effects. Mutant analysis showed that T. marneffei yeast cells also employ RIA for iron acquisition, providing an additional system in this cell type that differs substantially from hyphal cells. These data illustrate the specialized iron acquisition systems used by the different cell types of a dimorphic fungal pathogen and highlight the complexity in siderophore‐biosynthetic pathways amongst fungi. 相似文献
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54.
Klaus Pfizenmaier Hubertus Stockinger Martin Röllinghoff Herman Wagner 《Immunogenetics》1980,11(1):169-176
Cytotoxic T lymphocytes generated in the course of an HSV-infection of CBA (H-2 k ) mice not only lyse syngeneic, virus-infected target cells but also cross-react with noninfected target cells expressing the Dd alloantigen. On the effector cell level, this alloreactivity is mediated by virus-specific CTL's that are restricted to H-2Dk determinants. On the prekiller cell level, the anti-HSV-reactive T cells exhibiting cross-reactivity for Dd alloantigen could be positively selected on H-2d spleen-cell monolayers. After differentiation into cytolytic effector cells, target cells expressing Dd alloantigens and syngeneic HSV-infected target were lysed with equal efficiency. The results imply that the phenomenon of H-2-restricted versus nonrestricted T-cell reactivity is not due to distinct T-cell subsets, but rather is dependent on the antigeneic determinants recognized. 相似文献
55.
Jon S.B. de Vlieger Ard J. Kolkman Kirsten A.M. Ampt Jan N.M. Commandeur Nico P.E. Vermeulen Jeroen Kool Sybren S. Wijmenga Wilfried M.A. Niessen Hubertus Irth Maarten Honing 《Journal of chromatography. B, Analytical technologies in the biomedical and life sciences》2010,878(7-8):667-674
This paper describes the determination and identification of active and inactive estrogenic compounds produced by biosynthetic methods. A hyphenated screening assay towards the human estrogen receptor ligand binding domain (hER)α and hERβ integrating target–ligand interactions and liquid chromatography–high resolution mass spectrometry was used. With this approach, information on both biologic activity and structure identity of compounds produced by bacterial mutants of cytochrome P450s was obtained in parallel. Initial structure identification was achieved by high resolution MS/MS, while for full structure determination, P450 incubations were scaled up and the produced entities were purified using preparative liquid chromatography with automated fraction collection. NMR spectroscopy was performed on all fractions for 3D structure analysis; this included 1D-1H, 2D-COSY, 2D-NOESY, and 1H-13C-HSQC experiments. This multidimensional screening approach enabled the detection of low abundant biotransformation products which were not suitable for detection in either one of its single components. In total, the analytical scale biosynthesis produced over 85 compounds from 6 different starting templates. Inter- and intra-day variation of the biochemical signals in the dual receptor affinity detection system was less than 5%. The multi-target screening approach combined with full structure characterization based on high resolution MS(/MS) and NMR spectroscopy demonstrated in this paper can generally be applied to e.g. metabolism studies and compound-library screening. 相似文献
56.
H Nederbragt 《Comp. Biochem. Physiol. C, Comp. Pharmacol. Toxicol.》1985,81(2):425-431
Rats of either sex of the strains +/rnu, WAG/Cpb and Fischer-344 were injected i.v. with a single dose of Cu (2.5 mg/kg body weight). Hemolysis was observed in the female +/rnu and Fischer rats. Males accumulated more Cu than females in all strains. WAG/Cpb rats had higher kidney Cu concentrations. The lower hepatic Cu concentration in female Fischer rats was not caused by an increased biliary Cu excretion but by a diminished release of Cu from the blood to the liver. In both sexes the degree of hemolysis did not correlate to the Cu concentration of the erythrocytes. It is concluded that a sex-related difference exists in the metabolism of a large dose of Cu and that the Cu-induced hemolysis in females may be related to a prolonged exposure of erythrocytes to an increased Cu concentration of the plasma. 相似文献
57.
EstB-mediated hydrolysis of the siderophore triacetylfusarinine C optimizes iron uptake of Aspergillus fumigatus 下载免费PDF全文
Aspergillus fumigatus excretes the fusarinine-type siderophore desferri-triacetylfusarinine C (DF-TafC) to mobilize iron. DF-TafC is a cyclic peptide consisting of three N(5)-cis-anhydromevalonyl-N(5)-hydroxy-N(2)-acetyl-l-ornithine residues linked by ester bonds; these linkages are in contrast to peptide linkages found for ferrichrome-type siderophores. Subsequent to the binding of iron and uptake, triacetylfusarinine C (TafC) is hydrolyzed, the cleavage products are excreted, and the iron is transferred to the metabolism or to the intracellular siderophore desferri-ferricrocin (DF-FC) for iron storage. Here we report the identification and characterization of the TafC esterase EstB, the first eukaryotic siderophore-degrading enzyme to be characterized at the molecular level. The encoding gene, estB, was found to be located in an iron-regulated gene cluster, indicating a role in iron metabolism. Deletion of estB in A. fumigatus eliminated TafC esterase activity of cellular extracts and caused increased intracellular accumulation of TafC and TafC hydrolysis products in vivo. Escherichia coli-expressed EstB displayed specific TafC esterase activity but did not hydrolyze fusarinine C, which has the same core structure as TafC but lacks three N(2)-acetyl residues. Localization of EstB via enhanced green fluorescent protein tagging suggested that TafC hydrolysis takes place in the cytoplasm. EstB abrogation reduced the intracellular transfer rate of iron from TafC to DF-FC and delayed iron sensing. Furthermore, EstB deficiency caused a decreased radial growth rate under iron-depleted but not iron-replete conditions. Taken together, these data suggest that EstB-mediated TafC hydrolysis optimizes but is not essential for TafC-mediated iron uptake in A. fumigatus. 相似文献
58.
Mueller AH Dockter C Gough SP Lundqvist U von Wettstein D Hansson M 《Plant & cell physiology》2012,53(7):1232-1246
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60.
Alexander Prehn-Kristensen Christian Wiesner Til Ole Bergmann Stephan Wolff Olav Jansen Hubertus Maximilian Mehdorn Roman Ferstl Bettina M. Pause 《PloS one》2009,4(6)
The communication of stress/anxiety between conspecifics through chemosensory signals has been documented in many vertebrates and invertebrates. Here, we investigate how chemosensory anxiety signals conveyed by the sweat of humans (N = 49) awaiting an academic examination are processed by the human brain, as compared to chemosensory control signals obtained from the same sweat donors in a sport condition. The chemosensory stimuli were pooled according to the donation condition and administered to 28 participants (14 males) synchronously to breathing via an olfactometer. The stimuli were perceived with a low intensity and accordingly only about half of the odor presentations were detected by the participants. The fMRI results (event-related design) show that chemosensory anxiety signals activate brain areas involved in the processing of social emotional stimuli (fusiform gyrus), and in the regulation of empathic feelings (insula, precuneus, cingulate cortex). In addition, neuronal activity within attentional (thalamus, dorsomedial prefrontal cortex) and emotional (cerebellum, vermis) control systems were observed. The chemosensory perception of human anxiety seems to automatically recruit empathy-related resources. Even though the participants could not attentively differentiate the chemosensory stimuli, emotional contagion seems to be effectively mediated by the olfactory system. 相似文献