Influence of phloem transport, N-fertilization and ion accumulation on sucrose storage in the taproots of fodder beet and sugar beet

To investigate the factors governing the accumulation of sucroseand amino acids in the taproots of sugar beet, their contentswere measured in the leaves, phloem sap and the taproots ofsugar beet, fodder beet and a hybrid between both, grown oneither 3.0 or 0.5 mM nitrate. In the taproots the contents ofmalate, citrate and inorganic ions were also determined. Forthe high sucrose accumulation in sugar beet as compared to theother varieties three factors were found. (a) In sugar beet,less amino acids and more sucrose are taken up into the phloemthan in fodder beet. (b) In sugar beet, the sucrose and aminoacid syntheses are less sensitive to the nitrate concentrationsthat are required for optimal plant growth than in other varieties.In fodder beet, upon raising the nitrate concentration from0.5 mM to 3 mM, the synthesis and storage of sucrose is decreasedand that of amino acids increased. The corresponding valuesin sugar beet (0.5 mM) are similar to those in fodder beet andare not much affected by an increase of nitrate. (c) The sucroseaccumulation is limited by the accumulation of inorganic ionsin the taproots. The sucrose content in the taproots is negativelycorrelated to the total ion content. Whereas sucrose representstwo-third of all solutes in the taproots of sugar beet, it amountsto only one-third of the solutes in fodder beet taproots. Key words: Amino acids, Beta vulgans L, phloem sap, potassium, sucrose storage, sugar beet, taproots, transport     

Molekularbiologie der Mukoviszidose

Mukoviszidose ist eine angeborene Funktionsstörung der exokrinen Körperdrüsen. Sie kommt bei etwa 1 : 2500 Lebendgeborenen in der weißen Bevölkerung Europas und Nordamerikas vor und gehört damit zu den häufigsten lebensbedrohlichen Erbkrankheiten des Menschen. Dennoch sind vollständige Beschreibungen des Krankheitsbildes erst seit etwas mehr als fünfzig Jahren bekannt. Die bei den meisten Mukoviszidosekranken auftretenden fibrotischen Veränderungen (Fibrose - Vermehrung des Bindegewebes) der Bauchspeicheldrüse haben zu der Bezeichnung cystic fibrosis of the pancreas geführt, so daß auch der Name zystische Fibrose (cystic fibrosis, CI) heute synonym gebräuchlich ist. Wir wollen im folgenden in kurzer Form auf die Symptome und Ursachen der Erkrankung eingehen. Eine ausführlichere Darstellung der Mukoviszidose und ihrer molekularbiologischen Grundlagen mit zahlreichen Literaturhinweisen ist kürzlich aktualisiert und erweitert worden [21].     

Presence and role of jasmonate in apple embryos

(-)Jasmonic acid (JA) was identified in extracts front embryos of apple (Mulus domestica) by combined gas chromatography-mass spectromelry. Quantification of JA in embryos isolated from seeds at different perexts of stratification by gas chromalography combined with mass spectrometry/selective ion monitoring indicated a sharp peak at day 30. At the same time the maximal ratio of conjugated to free JA was found by enzyme-linked imrnunosorbent assay (ELISA). Germination of embryo.s was stimulated by added JA and inhibited by salieylhydroxamic acid (SHAM, an inhibitor of lipoKygenase). Both stimulation and inhibition disappeared in embryos stratified for more than 30 days. Methyl jasmonate was more effective in stimulation of embryo germination than free JA. while JA-isoleucine inhibited germination. The possible mechanism responsible for changes in JA level as wel! as the role of JA and its conjugates in removal of dormancy in apple seeds are discussed.     

Effects of cadmium,copper, and zinc on growth and thiol content of aquatic hyphomycetes

The effects of cadmium, copper, and zinc on the growth of ten strains ofaquatic hyphomycetes were investigated. On a solid medium, Cd and Cu reducedradial growth of most strains by 50% at concentrations between150–400 µM; in a liquid medium, the strains were more sensitive.The inhibitory effects of zinc were much less severe. Two isolates(Articulospora tetracladia and Tetracladium marchalianum) from a copper-minestream were more resistant against copper than conspecific strains from anon-polluted stream. Heliscus lugdunensis and Varicosporium elodeaeresponded to Cd exposure, but not to Cu or Zn exposure, by increasedsynthesis of SH-containing compounds. Glutathione levels showed a unimodalresponse to increasing Cd and Zn exposure. With copper, glutathionedecreased at intermediate levels of contamination. In the presence of Cd, H. lugdunensis synthesized several unknown sulfur-rich substances that wereabsent or produced at reduced rates in control cultures.     

Occurrence of the plant growth regulator jasmonic acid in plants

The natural occurrence of jasmonic acid and its methyl ester in plants has been studied using different methods such as GC, GC-MS, HPLC, radioimmunoassay, and bioassay. Jasmonic acid was detected in several Leguminosae plants and a number of species belonging to nine other Angiospermae families. Highest amounts occurred in fruit parts, especially the immature pericarp, but it was found also in flowers and vegetative plant parts, e.g. leaves, stems, and germs. Young apple fruits contain both jasmonic acid and methyl jasmonate, and in Douglas fir, the only Gymnospermae species studied, only the methyl ester could be detected. Jasmonic acid is discussed as an endogenous plant growth regulator widely distributed in higher plants.     

Kinetics of phospholipid exchange between bilayer membranes

In an accompanying publication by Duckwitz-Peterlein, Eilenberger and Overath ((1977) Biochim. Biophys. Acta 469, 311–325) it is shown that the exchange of lipid molecules between negatively charged vesicles consisting of total phospholipid extracts from Escherichia coli occurs by the transfer of single lipid monomers or small micelles through the water. Here a kinetic interpretation is presented in terms of a rate constant, $\text{k}{}_{\mathrm{?}}$, for the escape of lipid molecules from the vesicle bilayer into the water. The evaluated rate constants are $\text{k}{}_{\mathrm{?}}{}^{\mathrm{<mtext>P</mtext>}}\text{= (0.86 ± 0.05) · 10}{}^{\mathrm{?5}}\text{s}{}^{\mathrm{?1}}$ and $\text{k}{}_{\mathrm{?}}{}^{\mathrm{<mtext>E</mtext>}}\text{= (1.09 ± 0.13) · 10}{}^{\mathrm{?6}}\text{s}{}^{\mathrm{?1}}$ for phospholipid molecules with $\text{trans-}\text{Δ}{}^9\text{-hexadecenoate}$ and $\text{trans-}\text{Δ}{}^9\text{-octadecenoate}$, respectively, as the predominant acyl chain component. The rate constants are discussed in terms of the acyl chain and polar head group composition of the lipids.     

Endosome-lysosome fusion at low temperature

Based on an initial study (Dunn, W. A., Hubbard, A. L., and Aronson, Jr., N. N. (1980) J. Biol. Chem. 255, 5971-5978), low temperature is often used to selectively inhibit fusion between endosomes and lysosomes. Here we have tried to characterize the nature of this inhibition. In addition to endocytic contents markers, we have used a covalent membrane marker to measure the interaction between endosomes and lysosomes over extended periods of time at low temperature. Mouse macrophage cells (P388D1) and human skin fibroblasts were enzymatically labeled with radioactive galactose to provide a covalent marker for plasma-membrane glycoconjugates. Subsequent endocytic membrane traffic for 24 h at 16 degrees C resulted in a significant transfer of membrane marker, as well as of endocytic contents marker, to high density lysosomes, as observed by subcellular fractionation. The kinetics of this transfer have been analyzed for macrophages using the membrane marker, horseradish peroxidase as fluid-phase, and iodinated acetyl low density lipoprotein as receptor-mediated endocytic contents marker. Transfer to lysosomes occurred only about 6 h after application of the respective marker at 16 degrees C. When transfer to lysosomes was initiated by 15 min preincubation at 37 degrees C, subsequent cooling to 16 degrees C did not inhibit ongoing transfer which continued with the same kinetics as when observed after the lag phase. These results show that low temperature delays an unidentified pre-fusion step, but does not inhibit endosome-lysosome fusion as such.