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421.
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Callus-forming discs from potato tubers lose 80% of their starch during one month of incubation on nutrient medium containing either 0, 3 or 6% (w/v) sucrose. The content of soluble sugar in the discs varies from 5 mg (incubated without sucrose) to 22 mg (on 3% sucrose) and 40 mg (on 6% sucrose) per g fresh weight. The activity of the cytochrome pathway (Vcyt) increases during the first week of incubation on all media. Thereafter Vcyt decreases again on 0% sucrose medium, while it remains constant on 3 and 6% sucrose media. Alternative pathway capacity (Valt), absent in freshly sliced tissue, shows a sharp increase during the first days of incubation, independent of the sucrose concentration in the medium. This capacity further increases during prolonged incubation on 3 and 6% sucrose but decreases on 0% sucrose. The in vivo activity of the alternative pathway (the participation in uninhibited respiration, ?Valt) varies with the sucrose concentration and with the culture time. In tissue incubated for 2-3 weeks on 6% sucrose as much as 45% of the electrons are transfered to oxygen via the alternative pathway. In this tissue the factor Q (the part of the alternative pathway capacity that is operative) is about 0.8, while in tissue incubated on 0 and 3% sucrose media p generally does not exceed 0.5. When chloramphenicol, an inhibitor of mitochondrial protein synthesis, is added to the medium together with 3% sucrose, the increase in Vyet does not occur, while the induction of Valt during the first week of incubation is the same as without chloramphenicol. A greater part of the alternative pathway capacity becomes operative in this tissue, leading to values of Q of almost 1 after prolonged incubation. Apparently, incubation on high sugar medium leads to extra participation in respiration of the energetically inefficient alternative oxidase pathway Excess sugar leads to wasteful respiration suggesting that the alternative oxidase functions as an ‘energy overflow’. 相似文献
423.
Actinomycetes from the genus Frankia are able to form symbiotic associations with more than 200 different species of woody angiosperms, so called actinorhizal plants. Many actinorhizal plants are infected via deformed root hairs. Factor(s) eliciting root hair deformation in actinorhizal symbioses have been found to be released into the culture medium, but the factor(s) has (have) not yet been characterized. In the present work, we describe the constitutive production of factor(s) by Frankia strain ArI3 causing root hair deformation on Alnus glutinosa . Deformation was detected after 4–5 h of incubation with both Frankia cultures and their cell-free culture filtrates. When culture filtrate was used, deformation was concentration dependent. A contact time of 2 min between culture filtrate and host roots was sufficient to induce subsequent root hair deformation. No root hair deformation on A. glutinosa could be detected with purified Nod factors from Rhizobium meliloti or R. leguminosarum biovar viciae . No correlation was found between Frankia strains belonging to different host specificity groups and their ability to deform root hairs on A. glutinosa. However, strains not able to deform root hairs on A. glutinosa were also unable to nodulate. 相似文献
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The filamentous cyanobacterium Plectonema boryanum catalyzes efficient dark oxidative phosphorylation of exogenous ADP during NADPH consumption after a lysozyme treatment of only 30 min and subsequent dilution in hypoosmotic medium. It is shown that the thylakoid membranes and membrane areas bearing the terminal oxidase (presumably the cell membrane with cytochrome c:O2 oxidoreductase) and easily soluble cytoplasmic proteins are involved in KCN-sensitive dark oxidative phosphorylation. The dinitrophenyl ether of 2-iodo-4-nitrothymol, 2,5-dibromo-3-methyl-6-isopropyl-p-benzoquinone and KCN are inhibitors of dark respiratory ATP synthesis. Dependent on the physiological condition, other more or less KCN-insensitive respiratory pathways towards O2 may be present. A tentative scheme of the respiratory pathways is proposed. 相似文献
427.
The carrot secreted glycoprotein gene EP1 is expressed in the epidermis and has sequence homology to Brassica S-locus glycoproteins 总被引:1,自引:0,他引:1
Fred A. van Engelen Marijke V. Hartog Terry L. Thomas Brian Taylor Arnd Sturm Ab van Kammen Sacco C. de Vries 《The Plant journal : for cell and molecular biology》1993,4(5):855-862
Non-embryogenic carrot suspension cells secrete the EP1 glycoprotein. A cDNA clone encoding EP1 was isolated and sequenced. The EP1 sequence revealed a region of homology with Brassica S-locus glycoprotein genes, an Arabidopsis S-like gene and putative S-like receptor protein kinases from maize and Arabidopsis. EP1 gene expression, analysed by in situ mRNA localization, was detected in cells located at the surface of the seedling: in the epidermis of the root, the hypocotyl and the cotyledons, in the root cap, and in a crescent of cells in the apical dome of the shoot. In developing seeds, expression was most pronounced in both the inner and outer integument epidermis. 相似文献
428.
Anne-Marie Zeeman Marijke A.H. Luttik Jack T. Pronk Johannes P. van Dijken H.Yde Steensma 《FEMS microbiology letters》1999,177(1):23-28
A Kluyveromyces lactis mutant with a disruption in the KlPDA1 gene, encoding the E1 alpha subunit of the pyruvate dehydrogenase complex, exhibited a four-fold reduced specific growth rate on glucose in minimal medium. Growth of the Klpda1 mutant on glucose in complex medium was not affected. Its growth on defined media could be restored by adding amino acids that require mitochondrial acetyl-CoA for their biosynthesis as nitrogen sources. This, together with the observation that low-concentrations of L-carnitine also restored growth on glucose, indicates that the slow-growth phenotype of the Klpda1 mutant is due to a limited capacity of the mitochondria for import of cytosolic acetyl-CoA. 相似文献
429.