Ecophenotypic strategies of dalmanellid brachiopods

General ecophenotypic patterns, of particular interest when they apply to all, or most, taxa of the group concerned, can never be demonstrated until after monophyletic taxa have been recognized, that is, until after the initial stages of phylogeny construction have been carried out. In criticizing certain dalmanellid phylogenies, and based in large part on a study of five 'species subgroups'. Hurst & Watkins (1978; Geologica et Palaeontologica 12 ) postulate ecophenotypic patterns for Isorthis , and Hurst (1978; Palaeontology 21 ) postulates general patterns of ecophenotypic variation for dalmanellid brachiopods. These patterns may be invalid for four reasons: (1) Univariate and 'bivariate' statistical analysis of the samples used to define the five subgroups reveals no significant differences between subgroups, or vertical trends, for the very morphological characters claimed to exhibit the ecophenotypic patterns; (2) Hurst & Watkins' discriminant function analysis contains procedural errors and its results are ambiguous; (3) several of the five subgroups represent mixtures of unrelated taxa; (4) in recognizing the alleged patterns, Hurst & Watkins ignored contrary evidence from many taxa (and from many dalmanellid studies). □ Brachiopoda, Dalmanellidae, Silurian, ecology, evolution, systematics.     

The isolation and characterization of TabR bacteria: Hosts that restrict bacteriophage T4 rII mutants

Summary We have isolated mutants of Escherichia coli B (called TabR) that restrict the growth of bacteriophage T4 rII mutants at high temperature. TabR strains lysed very rapidly after infection with rII mutants, and no progeny phage were produced. T4⁺-infected TabR cells also lysed quickly, but the cells remained intact long enough to give a small burst. We have selected pseudorevertants of rII deletion mutants that grow on TabR at high temperature; tk (thymidine kinase) is a component of one class of these pseudorevertants.T4 strains harboring mutations in genes 12, 16, 25, 34, 36, 45 and 63 were also specifically restricted on TabR strains at high temperature. Bacteriophages T2, T4, T5, T6, and T7 grew normally on TabR, while , 80, and P1 failed to grow at any temperature. The most restrictive TabR strains were auxotrophic for methionine at high temperature, and most spontaneous Met⁺ revertants had also lost the ability to restrict rII mutants, suggesting that the TabR phenotype and methionine auxotrophy result from the same mutation.Although the mechanism by which TabR strains exert their restriction has not been determined, one model is described. The potential uses of these and similar strains is discussed.     

Metabolism of Radiolabeled β-Guaiacyl Ether-Linked Lignin Dimeric Compounds by Phanerochaete chrysosporium

Phanerochaete chrysosporium metabolized the radiolabeled lignin model compounds [γ-¹⁴C]guaiacylglycerol-β-guaiacyl ether and [4-methoxy-¹⁴C]veratrylglycerol-β-guaiacyl ether (VI) to ¹⁴CO₂ in stationary and in shaking cultures. ¹⁴CO₂ evolution was greater in stationary culture. ¹⁴CO₂ evolution from [γ-¹⁴C]guaiacyl-glycerol-β-guaiacyl ether and [4-methoxy-¹⁴C]veratrylglycerol-β-guaiacyl ether in stationary cultures was two- to threefold greater when 100% O₂ rather than air (21% O₂) was the gas phase above the cultures. ¹⁴CO₂ evolution from the metabolism of the substrates occurred only as the culture entered the stationary phase of growth. The presence of substrate levels of nitrogen in the medium suppressed ¹⁴CO₂ evolution from both substrates in stationary cultures. [¹⁴C]veratryl alcohol and 4-ethoxy-3-methoxybenzyl alcohol were formed as products of the metabolism of VI and 4-ethoxy-3-methoxyphenylglycerol-β-guaiacyl ether, respectively.     

Fibronectin–collagen binding and requirement during cellular adhesion

Fibronectin isolated from human plasma and from the extracellular matrices of cell monolayers mediates the attachment in vitro and spreading of trypsin-treated cells on a collagen substratum. Fibronectin-dependent kinetics of cellular attachment to collagen were studied for several adherent cell types. It was shown that trypsin-treated human umbilical-cord cells, mouse sarcoma CMT81 cells, endothelial cells, and human fibroblasts from a patient with Glanzmann's disease were completely dependent on fibronectin for their attachment to collagen, whereas guinea-pig and monkey smooth-muscle cells and chick-embryo secondary fibroblasts displayed varying degrees of dependence on fibronectin for their attachment. Radiolabelled human plasma fibronectin possessed similar affinity for collagen types I, II and III from a variety of sources. The fibronectin bound equally well to the collagens with or without prior urea treatment. However, in the fibronectin-mediated adhesion assay using PyBHK fibroblasts, a greater number of cells adhered and more spreading was observed on urea-treated collagen. Fibronectin extracted from the extracellular matrix of chick-embryo fibroblasts and that purified from human plasma demonstrated very similar kinetics of complexing to collagencoated tissue-culture dishes. Fibronectin from both sources bound to collagen in the presence of 0.05–4.0m-NaCl and over the pH range 2.6–10.6. The binding was inhibited when fibronectin was incubated with 40–80% ethylene glycol, the ionic detergents sodium dodecyl sulphate and deoxycholate, and the non-ionic detergents Nonidet P-40, Tween 80 and Triton X-100, all at a concentration of 0.1%. From these results we proposed that fibronectin–collagen complexing is mainly attributable to hydrophobic interactions.     

REGIONAL BRAIN LEVELS OF γ-HYDROXYBUTYRATE IN HUNTINGTON''S DISEASE

A highly sensitive electron capture gas chromatographic method was developed for quantitation of γ-hydroxybutyrate (GHB) in tissue. This method involves an improved, extraction and purification procedure and a one-step derivatization of GHB to the methyl ester-O-heptafluorobutyrate. As low as 5 ng of GHB in tissue was accurately quantitated by this method. By means of this improved method, endogenous levels of GHB in several regions of brains obtained post-mortem from patients with Huntington's disease were determined, and compared with brain samples obtained post-mortem from non-neurological controls. The levels of GHB found in the caudate and substantia nigra obtained from Huntington's patients were significantly higher than the GHB levels found in similar regions of brain obtained from a non-neurological control group. The content of GABA in the same choreic and control brain samples was also determined. No significant correlation between changes in GHB and GABA levels was observed although there was a trend towards an inverse relationship. The high level of GHR in Huntington's disease may be related to the decrease in succinate:oxidoreductase (EC 1.3.99.1) activity reported by Stahl & Swanson (1974). In two subjects (one control and one Huntington patient) the zonal distribution of GHB in substantia nigra was also determined. The zona reticulata from choreic brain contained a substantially higher level of GHB, whereas the zona compacta contained an amount similar to the level found in control brain.     

THE ORIGINS OF ADAPTIVE INTERSPECIFIC TERRITORIALISM

1. In order to understand fully the evolution of a behavioural trait one must not only consider whether it is adaptive in its present environment but also whether it originated as an adaptation to existing selective forces or as a fortuitous consequence of selection for a different role in other environments (i.e., as a pre-adaptation) or of selection for different traits (e.g., as a pleiotropic effect). In this paper interspecific territorialism is examined in species of humming-birds, sun-birds, tropical reef fishes, stingless bees, stomatopods, crayfish, and limpets as a means of determining its adaptiveness and its origins. 2. Humming-birds form complex assemblages with species sorted out among the available resources. Dominant species establish feeding territories where flowers provide sufficient nectar. A few large, dominant species, usually uncommon, are marauders on others' territories. Subordinate species establish territories where flowers are more dispersed or produce less nectar, or they fly a circuit from nectar source to nectar source when flowers are even more dispersed, a foraging pattern called ‘traplining’, or they steal nectar from the territorial species by being inconspicuous while foraging. Two species, Amazilia saucerottei and Selasphorus sasin, subordinate in one-to-one encounters, are able to take over rich resources by establishing several small territories within a territory of a dominant and forcing it to forage elsewhere. 3. Among humming-birds, territorial individuals attacked not only subordinate competitors but marauding humming-birds and some insects, which stayed in the territory and foraged at will, and seemingly inappropriate targets, such as non-competitors. This suggests that the stimulus for aggression is ‘any flying organism near the food resources’, regardless of its appearance. The behaviour rather than the identity of the intruder is the stimulus. 4. Sun-birds resemble humming-birds to the extent that dominants establish territories on rich nectar sources and subordinates establish territories on less rich nectar sources or steal from the territories of dominants. The diversity of foraging patterns is not so great as in humming-birds, perhaps because so few species of sun-birds have been studied. However, the advantage of territorialism has been measured in the sun-bird Nectarinia reichenowi. Individuals with territories lose much less nectar to competitors than do those without territories. 5. Field work on three species of tropical reef fishes involved a single aggressive species whose individuals attacked a wide range of species intruding on their territories. The stimulus for aggression in Pomacentrus jenkinsi seemed to be an “object moving through [its] territory”. As suggested for humming-birds, the stimulus is the behaviour rather than the identity of the intruder. 6. The relationships found in stingless bees, stomatopods, crayfish, and limpets are simpler. The dominant and subordinate species divide the resources in their habitat, the dominants' aggression preventing the subordinates from using resources that were otherwise available to them. 7. A general pattern emerges. Mutual interspecific territorialism occurs between species that (i) have different geographic ranges, (ii) occupy different habitats, or (iii) use different resources within the same habitat. Examples of two species holding separate territories on the same resources within the same habitat are rare and occur when the dominant species is rare relative to the available resources. These observations are contrary to the usual view that interspecific territorialism is an adaptation that permits co-existence of potential competitors within the same habitat. 8. Interspecific territorialism is sometimes adaptive and sometimes maladaptive, depending upon the species and the situation. 9. The general pattern of occurrence of the behaviour and the general nature of the stimulus for aggression, i.e., the behaviour rather than the identity of the intruder, suggest that interspecific territoriality is a fortuitous consequence of selection for intraspecific territorialism, the latter being not only an adaptation to the presence of conspecific competitors but a pre-adaptation to the presence of competitors of other species, should they occur.     

Immunologic studies on hamsters infected with Entamoeba histolytica.

The serologic and cell-mediated immune responses of hamsters exposed to 2 strains of Entamoeba histolytica (HM-1 and HM-19) were evaluated by a series of in vitro tests. The pathogenicity of the 2 strains was evaluated in terms of their ability to produce liver abscesses and spleen enlargement. Antibody response was evaluated by the indirect hemagglutination test. The cellular immune response was assayed by increased DNA synthesis by lymphocytes and migration inhibition of macrophages.     

Glutamic acid decarboxylase activity in striatal slices: Persistent increase following depolarization

When slices prepared from rat corpus striatum were preincubated for 15 min in potassium-enriched Krebs Ringer-Phosphate medium (K⁺-KRP), the activity of glutamic acid decarboxylase measured upon reincubation in normal Krebs-Ringer-Phosphate (KRP) was doubled as compared to GAD activity in slices preincubated in normal KRP. Similarly, when striatal slices were preincubated in KRP containing 100 μM veratridine, GAD activity upon reincubation in normal KRP was increased 66% as compared to activity in slices preincubated in normal KRP. The observed increase in GAD activity was not a function of alterations in glutamate uptake by the slices. These results suggest that GABAergic neurons may regulate transmitter synthesis during the process of depolarization by increasing GAD activity.