Effects of competition and shading in planktonic communities

A model for several algal species which compete both for light and for nutrients, and which are also subject to settling and diffusion, is considered. The settling speeds and diffusion coefficients are assumed to be small, in a sense to be made precise later, and a singular perturbation argument is used. In certain cases vertical segregation of the algal species is observed, and the mechanism for this is interpreted biologically.Supported by the Danish Natural Science Research Council (Grant No. 11-8321)     

An efficient enzymatic preparation of 4(S)-hydroxy-1 (R)-acetoxy-cyclopent-2-ene by using new yeast isolate

Summary The Enzymatic enantioselective hydrolysis of prochiral 1,4-cyclopent-2-ene diacetate (3) was carried out using yeast and fungal cultures from inhouse culture collection. Of all the cultures tested, the yeast sp. NCIM 3574 gave 4 (S)-hydroxy-1 (R)- acetoxy-cyclopent-2-ene (4b) in high optical yields (99% ee).     

Separation of a complete set of basic, diastereomeric pentapeptides by reversed-phase ion-pair chromatography

The resolving power of liquid chromatography systems containing 1-pentane sulfonate, previously used to analyze basic hydrophilic peptides related to substrates of cAMP-dependent protein kinase, has been studied with respect to diastereomeric peptides. A set of peptides comprising RRASV and its five diastereomers containing one D-amino acid were used as model compounds. Complete resolution of all the peptides could be accomplished both with ethanol and acetonitrile as organic modifiers. The separation of the various peptides within the set turned out to be only modestly changed under the conditions investigated. These new results clearly demonstrate the potential of the chromatography systems studied.     

Estrogen induces normal murine CD5+ B cells to produce autoantibodies

Females have better humoral immune responses and are more susceptible to autoimmune diseases than males. Normal female mice (C57BL/6J, C3H/HeJ, and NZW) have significantly increased spontaneous autoimmune plaque-forming cells (APFC) to mouse erythrocytes pretreated with bromelain (Br-ME) in spleen, peritoneal exudate cell, and bone marrow compared to their male counterparts. A minor subpopulation of B cells, CD5+ B, is thought to produce this autoantibody. As determined by dual color flow cytometry, increased APFC to Br-ME in females is not due to quantitative increase of CD5+ B cells. Rather, it is due to increased numbers or percentages) of CD5+ B cells producing these autoantibodies, because CD5+ B cells from females produced greater numbers of APFC to Br-ME than equal numbers of cells derived from males. The increased autoantibody production in females can be attributed to the effect of estrogen on the immune response because this hormone markedly augments APFC to Br-ME in intact or orchidectomized males. Male hormone had little effect. Importantly, estrogen did not increase the numbers of B or CD5+ B cells but augmented the ability of B cells to produce this response. This was verified when a T cell-depleted B cell fraction or fluorescence-activated cell sorter purified CD5+ B cells from estrogen-treated mice proved more efficient in the production of APFC to Br-ME. These results suggest that the number of CD5+ B cells committed to produce autoantibodies to Br-ME is increased under the influence of estrogen. This is the first demonstration that estrogen can augment the production of natural autoantibodies in normal mice. The overall augmented humoral immune responses in females and the B cell hyperactivity in female predominant autoimmune diseases appears to be due to estrogen.     

Daily fluctuations of titratable acidity, content of organic acids (malate and citrate) and soluble sugars of varieties and wild relatives of Ananas comosus L. growing under natural tropical conditions

The genus Ananas has its centre of origin in northern South America. In this area, several varieties of Ananas comosus are widely cultivated, and a number of wild species are found growing under variable conditions of light intensity, soil fertility and water availability. Here we report detailed daily courses of titratable acidity, and malate, citrate and free-sugars content of several cultivated varieties of A. comosus and of A. ananassoides, a closely related species growing on granitic rock-outcrops in southern Venezuela. Day-night oscillations of both malate and citrate were detected in plants growing under full sun, but malate was by far the most important organic anion associated with CAM performance in ail populations sampled. Fructose was the dominant compound in the neutral fraction, but only sucrose showed a consistent inverse relation with the cycle of titratable acidity. The diel oscillations of free sugars measured were not always enough to account for the amount of organic anions accumulated during the night. Plants cultivated under shady conditions always showed a lower night-time increase in titratable acidity and organic acids, and also smaller oscillations in the amount of free sugars than sun exposed plants. In all populations growing under full sun, osmolality increased during the night, but it was not always possible to explain these changes on the basis of variations in molar concentrations of organic acids and sugars. Besides, no diel variations in the cations K⁺, Ca²⁺ and Mg²⁺ were detected. K⁺ was always the dominant cation (K/Ca ratios ～ 19), while Mg²⁺ was always higher than Ca²⁺ (Mg/Ca ～ 2).