Testing the success of palaeontological methods in the delimitation of clam shrimp (Crustacea,Branchiopoda) on extant species

Fossil spinicaudatan taxonomy heavily relies on carapace features (size, shape, ornamentation) and palaeontologists have greatly refined methods to study and describe carapace variability. Whether carapace features alone are sufficient for distinguishing between species of a single genus has remained untested. In our study, we tested common palaeontological methods on 481 individuals of the extant Australian genus Ozestheria that have been previously assigned to ten species based on genetic analysis. All species are morphologically distinct based on geometric morphometrics (p ≤ 0.001), but they occupy overlapping regions in Ozestheria morphospace. Linear discriminant analysis of Fourier shape coefficients reaches a mean model performance of 93.8% correctly classified individuals over all possible 45 pairwise species comparisons. This can be further increased by combining the size and shape datasets. Nine of the ten examined species are clearly sexually dimorphic but male and female morphologies strongly overlap within species with little influence on model performance. Ornamentation is commonly species-diagnostic; seven ornamentation types are distinguished of which six are species-specific while one is shared by four species. A transformation of main ornamental features (e.g. from punctate to smooth) can occur among closely related species suggesting short evolutionary timescales. Our overall results support the taxonomic value of carapace features, which should also receive greater attention in the taxonomy of extant species. The extensive variation in carapace shape and ornamentation is noteworthy and several species would probably have been assigned to different genera or families if these had been fossils, bearing implications for the systematics of fossil Spinicaudata.     

Sensitivity of a two-dimensional biomorphoelastic model for post-burn contraction

We consider a two-dimensional biomorphoelastic model describing post-burn scar contraction. This model describes skin displacement and the development of the effective Eulerian strain in the tissue. Besides these mechanical components, signaling molecules, fibroblasts, myofibroblasts, and collagen also play a significant role in the model. We perform a sensitivity analysis for the independent parameters of the model and focus on the effects on features of the relative surface area and the total strain energy density. We conclude that the most sensitive parameters are the Poisson’s ratio, the equilibrium collagen concentration, the contraction inhibitor constant, and the myofibroblast apoptosis rate. Next to these insights, we perform a sensitivity analysis where the proliferation rates of fibroblasts and myofibroblasts are not the same. The impact of this model adaptation is significant.

     

Die Feinstruktur der Schweineaorta beim experimentellen Lathyrismus

Zusammenfassung Die Veränderungen der Aortenfeinstruktur, welche eine Vergiftung mit-Amino-Propio-Nitril (Lathyrusfaktor) bei jungen Schweinen hervorruft, werden beschrieben.Der Benninghoffsche Spannapparat der Media wird frühzeitig durch eine Lösung der muskulo-elastischen Kontinuität gelockert. Im Vordergrunde der morphologischen Veränderungen stehen dann Zerfallserscheinungen der elastischen Substanz, welche zu einer Desintegration der elastischen Lamellen sowie der elastischen interlamellären Schrägverbinder führen und endlich eine völlige Strukturauflösung der ganzen Mediaorganisation mit herdförmigen Totalnekrosen zur Folge haben. Das mit dem Mediafasersystem strukturell und funktioneil eng verbundene kollagen-elastische Fasergitter der Intima zerfällt; die subendotheliale Intima wird dabei hochgradig aufgetrieben durch eine Einlagerung von Ödemflüssigkeit und wahrscheinlich auch Blutserum. Die feinnetzig-zweiphasige Normaldarstellung der Grundsubstanz geht verloren. Die Feinstruktur der Kollagenfibrillen bleibt unverändert; es wird darauf hingewiesen, daß trotzdem eine schwere Schädigung auch des Kollagens anzunehmen ist. Die Mediamuskelzellen wandeln sich weitgehend in Fibroblasten um; die Langhans-Zellen der Intima werden in gleicher Weise aktiviert. Zellnekrosen treten in der Media nur dann auf, wenn sekundär die subakute Aortenwandverdickung eine Mangelsituation für den Zelleigenstoffwechsel hervorruft.In der Umgebung der Vasa vasorum kommt es zu kleinen Blutungen, die mit Fortschreiten der Mediazerstörung in große, dissezierende Blutungen übergehen können. Der wahrscheinlich durch die Elastizitätsverminderung der Media eingeleitete Mechanismus der Gefäßrupturierung wird beschrieben und mit dem vonGöre und vonDoerr vermuteten Mechanismus der Bildung von Aneurysmata dissecantia der menschlichen Aorta in Parallele gesetzt.Mit Unterstützung durch die Deutsche Forschungsgemeinschaft. — FräuleinElke CarStensen schulden wir Dank für unermüdliche, gewissenhafte und geschickte technische Mitarbeit.     

Studies on the catalytic mechanism of H2-forming methylenetetrahydromethanopterin dehydrogenase: para-ortho H2 conversion rates in H2O and D2O

H₂–forming N ⁵,N ¹⁰ –methylenetetrahydromethanopterin dehydrogenase is a novel type of hydrogenase that contains neither nickel nor iron-sulfur clusters. Evidence has been presented that the reaction mechanism catalyzed by the enzyme is very similar to that of the formation of carbocations and H₂ from alkanes under superacidic conditions. We present here further results in support of this mechanism. It was found that the purified enzyme per se did not catalyze the conversion of para H₂ to ortho H₂, a reaction catalyzed by all other hydrogenases known to date. However, it catalyzed the conversion in the presence of the substrate N ⁵,N ¹⁰ –methenyltetrahydromethanopterin (CH≡H₄MPT⁺), indicating that for heterolytic cleavage of H₂ the enzyme-CH≡H₄MPT⁺ complex is required. In D₂O, the formation of HD and D₂ from H₂ rather than a para–ortho H₂ conversion was observed, indicating that after heterolytic cleavage of H₂ the dissociation of the proton from the enzyme-substrate complex is fast relative to the re-formation of free H₂.     

Oligodeoxynucleotides enhance lipopolysaccharide-stimulated synthesis of tumor necrosis factor: dependence on phosphorothioate modification and reversal by heparin.

BACKGROUND: Specific inhibition of target proteins by antisense oligodeoxynucleotides is an extensively studied experimental approach. This technique is currently being tested in clinical trials applying phosphorothioate-modified oligonucleotides as therapeutic agents. These polyanionic molecules, however, may also exert non-antisense-mediated effects. MATERIALS AND METHODS: We examined the influence of oligonucleotides on lipopolysaccharide (LPS)-stimulated tumor necrosis factor alpha (TNF alpha) synthesis in freshly isolated human peripheral blood mononuclear cells. Oligonucleotides (18 mer) with different degrees of phosphorothioate modification were studied. RESULTS: The addition of phosphorothioate oligonucleotides (5 microM) caused amplification of TNF synthesis of up to 410% compared with the control with LPS alone. Without LPS stimulation, phosphorothioate oligonucleotides did not induce TNF production. We demonstrate that the enhancement of LPS-stimulated TNF production by phosphorothioate oligonucleotides does not rely on the intracellular presence of oligonucleotides and is not mediated by LPS contamination. Partially phosphorothioate-modified oligonucleotides and unmodified oligonucleotides did not increase TNF synthesis. High concentrations of the polyanion heparin reversed the oligonucleotide-induced enhancement of TNF synthesis. CONCLUSIONS: The data suggest that amplification of TNF synthesis may be caused by binding of the polyanionic phosphorothioate oligonucleotide to cationic sites on the cell surface. Such binding sites have been proposed for polyanionic glycoaminoglycans of the extracellular matrix, which have also been described to augment LPS-stimulated TNF synthesis. The present results are relevant to all in vitro studies attempting to influence protein synthesis in monocytes by using phosphorothioate oligonucleotides. The significance of our findings for in vivo applications of phosphorothioates in situations where there is a stimulus for TNF synthesis, such as in sepsis, should be elucidated.     

Enhanced stability in vivo of a thermodynamically stable mutant form of yeast iso-1-cytochrome c

Previous work has established that the N57I amino acid replacement in iso-1-cytochrome c from the yeast Saccharomyces cerevisiae causes an unprecedented increase in thermodynamic stability of the protein in vitro, whereas the N57G replacement diminishes stability. Spectrophotometric measurements of intact cells revealed that the N57I iso-l-cytochrome c is present at higher than normal levels in vivo. Although iso-1-cytochrome c turnover is negligible during aerobic growth, transfer of fully derepressed, aerobically grown cells to anaerobic growth conditions leads to reduction in the levels of all of the cytochromes. Pulsechase experiments carried out under these anaerobic conditions demonstrated that the N57I iso-l-cytochrome c has a longer half-life than the normal protein. This is the first report of enhanced stability in vivo of a mutant form of a protein that has an enhanced thermodynamic stability in vitro. Although the N57I protein concentration is higher than the normal level, reduced growth in lactate medium indicated that the specific activity of this iso-l-cytochrome c in vivo is diminished relative to wild-type. On the other hand, the level of the thermodynamically labile N57G iso-1-cytochrome c was below normal. The in vivo levels of the N57I and N57G iso-l-cytochrome c suggest that proteins in the mitochondrial intermembrane space can be subjected to degradation, and that this degradation may play a role in controlling their normal levels.     

The NADP-linked glyceraldehyde-3-phosphate dehydrogenases of Anabaena variabilis and Synechocystis PCC 6803, which lack one of the cysteines found in the higher plant enzyme,are not reductively activated

Light activation of NADP-linked glyceraldehyde-3-P dehydrogenase involves reductive cleavage of a disulfide bond. We have proposed that the inactivating disulfide locks the two domains of the enzyme, preventing catalysis, and we have tentatively identified the two critical cysteine residues in the chloroplast enzyme (D. Li, F.J. Stevens, M. Schiffer and L.E. Anderson (1994) Biophys J. 67: 29–35). We reasoned that if activation of this enzyme involves these cysteines that enzymes lacking one or both should be active in the dark and insensitive to reductants. One of these cysteines is present in the enzymes from Anabaena variabilis and Synechocystis PCC 6803 but the other is not. Consistent with the proposed mechanism, glyceraldehyde-3-P dehydrogenase is not affected by DTT-treatment in extracts of either of these cyanobacteria. Fructosebisphosphatase is DTT-activated in extracts of both of these cyanobacteria and glucose-6-P dehydrogenase is inactivated in Synechocystis, as in higher plant chloroplasts. Apparently reductive modulation is possible in these cyanobacteria but glyceraldehyde-3-P dehydrogenase is not light activated.