Einfluß des Phasenstatus der Vorkulturzellen auf die Ascosporenbildung von Saccharomyces cerevisiae

Summary Cells from three growth phases were examined for their ability to sporulate: cells from a) phase II (first phase of exponential growth with glucose as carbon source), b) phase III (second lag-phase during adaptation to oxidative metabolism), and c) phase IV (second phase of almost exponential growth with ethanol as carbon source). 1. Cells from phase III showed the best sporulation ability because they reached the highest percentage of asci and also of 4-spored asci. 2. Cells of phase II exhibited the highest and those of phase IV the lowest rate of sporulation (Fig. 3). 3. The longer the cells remained in the presporulation medium the more abbreviated was the time in the sporulation culture before the first asci appeared, and this abbreviation was just equal to the time of elongation in the preculture. This clearly demonstrates the different degree of respiratory adaptation. — After transfer to the sporulation medium O₂-consumption arose to a steep maximum within the first 10 hours followed by medium values which dropped again rapidly at the onset of ascospore formation (Fig. 4). Only during the time of high and medium O₂-consumption there was an increase in dry weight reflecting the assimilation of acetate. In cells of phase II compared with those of phase IV this assimilation of acetate showed the same delay as the onset of sporulation, whereas full capacity of respiration was reached much sooner.     

Function, mechanism and evolution of the moubatin-clade of soft tick lipocalins

The "moubatin-clade" of soft tick lipocalins, although monophyletic, shows clear signs of paralogy as indicated by the various functions associated with this protein family. This includes anti-platelet (moubatin), anti-complement (OMCI) and toxic (TSGP2) activities in the vertebrate host. In order to understand the evolution of function and how it relates to the various paralogs in this clade, we characterized a number of different proteins in regard to undefined function and mechanism. By utilizing gain-of-function for TSGP2 and loss-of-function for TSGP3, we show that inhibition of collagen-induced platelet aggregation by moubatin and TSGP3 is due to scavenging of thromboxane A(2). Moubatin, TSGP2 and TSGP3 are also able to bind leukotriene B(4) with high affinity. TSGP2 and TSGP3, but not moubatin, binds complement C5, with kinetics that indicates that conformation change occurs during interaction. A conserved loop and histidine residue in the sequences of OMCI, TSGP2 and TSGP3 are implicated in the interaction with complement C5. The data presented suggest that the ancestral function evolved in this clade was aimed at inhibition of vasoconstriction, platelet aggregation and neutrophil aggregation, primarily by scavenging of thromboxane A(2) and leukotriene B(4). C5 complement targeting activity evolved within this clade, probably within the Old World Ornithodorinae. The moubatin-clade itself most probably derived from the related histamine and serotonin-binding lipocalin sub-family that is conserved within the Argasidae.     

Putting the P in Ptilotus: a phosphorus-accumulating herb native to Australia

Background and Aims

Ptilotus polystachyus (green mulla mulla; ptilotus) is a short-lived perennial herb that occurs widely in Australia in arid and semi-arid regions with nutrient poor soils. As this species shows potential for domestication, its response to addition of phosphorus (P) and nitrogen (N) was compared to a variety of the domesticated exotic perennial pasture herb Cichorium intybus (chicory), ‘Puna’.

Methods

Pots were filled with 3 kg of an extremely nutrient-deficient sterilized field soil that contained 3 mg kg⁻¹ mineral N and 2 mg kg⁻¹ bicarbonate-extractable P. The growth and P and N accumulation of ptilotus and chicory in response to seven rates of readily available phosphorus (0–300 mg P pot⁻¹) and nitrogen (N) (0–270 mg N pot⁻¹) was examined.

Key Results

Ptilotus grew extremely well under low P conditions: shoot dry weights were 23, 6 and 1·7 times greater than for chicory at the three lowest levels of P addition, 0, 15 and 30 mg P pot⁻¹, respectively. Ptilotus could not downregulate P uptake. Concentrations of P in shoots approached 4 % of dry weight and cryo-scanning electron microscopy and X-ray microanalysis showed 35–196 mm of P in cell vacuoles in a range of tissues from young leaves. Ptilotus had a remarkable tolerance of high P concentrations in shoots. While chicory exhibited symptoms of P toxicity at the highest rate of P addition (300 mg P pot⁻¹), no symptoms were present for ptilotus. The two species responded in a similar manner to addition of N.

Conclusions

In comparison to chicory, ptilotus demonstrated an impressive ability to grow well under conditions of low and high P availability. Further study of the mechanisms of P uptake and tolerance in ptilotus is warranted.Key words: Phosphorus, nitrogen, hyperaccumulation, X-ray microanalysis, cell vacuole, Australian native plant, toxicity, domestication, phytoremediation, Ptilotus polystachyus, Cichorium intybus