Spanish salt lakes: Their chemistry and biota

A large number of small saline lakes are distributed throughout Spain. Four main lake districts occur from sea level to 1000 m.a.s.l. Most lakes are temporary because of the arid conditions in the Spanish endorheic areas. Many lakes are situated in Tertiary depressions in NE. and S. Spain. Lake basins were formed in karstic areas by hydrologic and aeolian erosion. Saline lakes in NE. Spain occupy areas isolated between river basins. The major ions encountered in these lakes are usually sodium-chloride and magnesium-sulphate; sodium carbonate or sodium-sulphate rich waters also occur.The biota of Spanish salt lakes is related to that of a larger biogeographical region which includes the Mediterranean countries. The main types of salt lakes in Spain include: (1) temporarily mineralized but not highly saline lakes, salinity is less than 7 g l^-1. Chara canescens, C. aspera, Zanichellia palustris, Daphnia atkinsoni, Mixodiaptomus incrassatus and Arctodiaptomus wierzejskii are the most characteristic organisms. (2) Temporary salt lakes, salinity fluctuates between 7 and 300 g l^-1. Chara galioides, Lamprothamnion papulosum, Daphnia mediterranea, Arctodiaptomus salinus and Cletocamptus retrogressus are the most common species. (3) Permanent salt lakes, Ruppia maritima, Najas marina and Artemia salina are the characteristic organisms.     

Characterization of recombination-deficient mutants of Bacillus subtilis

An isogenic set of "prophage-free," DNA repair-proficient and -deficient strains of Bacillus subtilis were characterized phenotypically. The mutant strains were provisionally classified into four categories on the basis of their sensitivity to DNA-damaging agents, their ability to release phage after lysogenization followed by damage to chromosomal DNA, and their impairment in genetic exchange. The properties of double Rec- mutants showed that recF and addA belong to different epistatic groups, whereas recF, recL, and recH fall into the same group. More than one pathway for genetic exchange might be operative in B. subtilis.     

Demonstration of the simultaneous activation of Ca2+-independent and Ca2+-dependent ATPases from rat skeletal muscle microsomes

The activation of the Ca2+-independent (basal) ATPase from rat skeletal muscle microsomes is demonstrated in the presence of enough Ca2+ to provide the simultaneous activation of the (Ca2+ + Mg2+)-ATPase. It was achieved taking advantage of the delayed inorganic phosphate (Pi) release due to the formation of a phosphoenzyme complex during the Ca2+-dependent enzymatic cycle, which is evidenced in fast experiments. The microsomes were immobilized on a filter and perfused at constant flow with an incubation medium which was briefly interrupted with a pulse of appropriate reactants to activate the ATPases, at 2 degrees C. Successive samples were collected after passing through the filter, at approx. 0.1 s intervals. The Pi effluent profile coincides with the pattern of the pulse when it activates only the Ca2+-independent ATPase, it appears delayed when the pulse activates only extra Pi production by the (Ca2+ + Mg2+)-ATPase, and it includes a rapid and a delayed component when both Ca2+-independent and Ca2+-dependent ATPases are activated simultaneously by the pulse.     

Bordetella pertussis adenylate cyclase. Purification, characterization, and radioimmunoassay

The extracellular adenylate cyclase of Bordetella pertussis was purified either as a free enzyme or as a complex with calmodulin. The purified enzyme has a specific activity of 1600 mumol of cAMP min-1 X mg-1 and exists under two molecular forms of 45 and 43 kDa which are apparently structurally related. Calmodulin increased considerably the resistance of adenylate cyclase to inactivation by trypsin. Although trypsin cleaved the adenylate cyclase-calmodulin complex, the digested fragments remained associated by noncovalent interactions in an active conformation. Specific mouse anti-adenylate cyclase antibodies inhibit adenylate cyclase activity and were used to develop a specific radioimmunoassay that allows detection of as little as 5 ng of adenylate cyclase in culture supernatants.     

Mouse immunoglobulin gene rearrangements. The sequence of a nonexpressed lambda 3-chain gene

A functionally defective lambda 3-immunoglobulin chain gene has been cloned from plasmacytoma HOPC-1 (gamma 2b, lambda 1). The lambda 3 gene resulted from the juxtaposition of the germline V lambda 1 sequence with a J lambda 3 C lambda 3 gene segment. DNA sequencing of the rearranged V lambda 1 J lambda 3 exon showed the presence of a single base pair deletion at the site of V-J joining. The alteration in the reading frame caused by this deletion generated a stop codon at the 3' end of J lambda 3, thus rendering this gene nonfunctional for light chain production. In addition, a one-point mutation in the J lambda 3-C lambda 3 intron distinguishes the rearranged gene from the unrearranged counterpart. The implications that this rearrangement has in terms of the mechanism of somatic mutations and of selective proliferation of B cells mediated by antigen stimulation are discussed.     

Transport of ethanol in baker’s yeast

Ethanol is transported into various strains of baker's yeast by simple diffusion (no effect of inhibitors and a linear concentration dependence of the initial rate of uptake and final distribution in cells). It distributes itself in 96.6 +/- 16.2% of intracellular water.     

Occurrence of oscillations in ATP synthesis and hydrolysis in chromatophores of Rhodospirillum rubrum

The conditions under which an oscillatory behaviour is observed during net hydrolysis or synthesis of ATP in chromatophores of Rhodospirillum rubrum FR1 are described. In the case of ATPase the oscillations are observed at low temperature (ca. 11°C) in the dark after an initial transient behaviour. These oscillations are attenuated or disappear by the addition of an uncoupler.Oscillations are also observed during ATP synthesis. At 3°C the oscillations appear spontaneously if photophosphorylation is measured during a sufficiently long time. At 30°C the mere intercalation of a dark period also at 30°C is sufficient to trigger the oscillations in the following light period.Abbreviations Bchl Bacteriochlorophyll - FCCP carbonyl cyanide p-trifluoromethoxyphenyl hydrazone - PMS phenazine methosulfate - TMPD, N,N,N,N tetramethyl-1,4-phenylenediamine Dedicated to Prof. Dr. Gerhart Drews as a homage for his permanent example as hard worker and careful scientist and also for his remarkable human quality     

The genus Mixodiaptomus Kiefer, 1932 (Copepoda,Diaptomidae) in Spain

The distribution of the Calanoid genus Mixodiaptomus was studied in a large number of pools and small lakes scattered over Spain. Four species occur: M. incrassatus, M. kupelwieseri, M. ortizi and M. laciniatus, the latter in 2 subspecies (M. laciniatus laciniatus and M. laciniatus atlantis). M. ortizi is described as a new species. M. laciniatus lives in mountains, while all other species occur in the plains. M. incrassatus is found all over the country, M. kupelwieseri only in the eastern part of Catalonia, M. laciniatus atlantis in Andalucia and M. ortizi in the central lands called Mesetas. All live in little mineralized waters and only M. incrassatus and M. laciniatus atlantis occur in clayey waters.     

Zur Mauser spanischer Weiden- und Haussperlinge (Passer hispaniolensis unddomesticus)

Zusammenfassung Die Mauserperiode westspanischer Weidensperlinge(Passer hispaniolensis) und Haussperlinge(P. domesticus) reicht von Ende Juli bis Ende September/Anfang Oktober. Beim Weidensperling endet der Federwechsel im Durchschnitt etwa fünf Tage früher als beim Haussperling. Es gibt keine Geschlechtsunterschiede in der Chronologie der Mauser beim Weidensperling. Ad. beider Arten mausern schneller und synchronisierter als juv., die ihr Gefieder um so rascher erneuern, je später sie mit der Mauser begonnen haben. Die Handschwingenmauser dauert etwa 66 Tage beim Weidensperling und 69 Tage beim Haussperling. Beide Arten brauchen ca. 3 weitere Tage für die Verhornung der 5. und 6. Armschwingen. Die ad. beider Arten und die juv. Weidensperlinge beginnen die Mauser im Durchschnitt am selben Tag (24. Juli), die juv. Haussperlinge später (29. Juli). Der Mauserverlauf und die Beziehungen zwischen den verschiedenen Federreihen sind bei beiden Arten identisch. Die Synchronisation der Mauser ist beim Weidensperling höher. Brut und Mauserperiode überschneiden sich beim Haussperling; beim Weidensperling, bei dem noch kurze Wanderungen gleich nach der Fortpflanzungsperiode und vor der Mauser erfolgen, nicht. Das frühere und höher synchronisierte Mauserende beim Weidensperling scheint eine Anpassung an die stärkere Zugtendenz zu sein.

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On the moult of Spanish Sparrows(Passer hispaniolensis) and House Sparrows(Passer domesticus) in Iberia

Summary The moulting period of Spanish sparrows(Passer hispaniolensis) and House Sparrows(Passer domesticus) in Western Spain extends from late July to late September/early October. House Sparrows finish moulting on average some five days later than Spanish Sparrows. There are no sexual differences in the moulting chronology of adult Spanish Sparrows. Ad. of both species moult faster and better synchronized. The speed of moulting is also higher in later moulting juveniles. The estimated durations of wing feather replacement were 66 days for the Spanish Sparrow and 69 days for the House Sparrow. Some three more days are needed to complete the growth of the 5th and 6th secondary remiges in both species. Adults of both species and juvenile Spanish Sparrows start moulting on average on the same date: 24th July; juvenile House Sparrows start moulting on 29th July. The sequence of moult and the relations between different feather tracts are identical in both species. The synchronization of the moult is higher in the Spanish Sparrow. Breeding and moulting seasons slightly overlap in the House Sparrow, but not in the Spanish Sparrow. In this species the time lapse between both periods allows the birds to wander to suitable areas, where they moult. The earlier ending and higher synchronization of the moult in the Spanish Sparrow is related to its higher migratory tendency.