No evolution,no heredity,just development—Julius Schaxel and the end of the Evo–Devo agenda in Jena, 1906–1933: a case study

Julius Schaxel is an almost forgotten figure in the history of early twentieth century biology. By focusing on his life and work, I would like to illustrate several central developments in that period of history of biology. Julius Schaxel was an early representative and organizer of theoretical biology, discussing and criticizing both Wilhelm Roux’s mechanism and Hans Driesch’s vitalism. In addition to his theoretical work, Schaxel also did experimental research on developmental issues to support his critique. In this paper, special emphasis is made on the negotiating practice of Schaxel, which he used to establish a new area of biological research and a new audience for that area. In contrast to these new fields, Schaxel can be also portrayed as the endpoint of a research tradition investigating ontogeny and phylogeny together, which today is called Evo–Devo. Following Garland Allen’s dialectical processes that led to the decline of the Evo–Devo research agenda, Schaxel’s example is used to investigate these processes.     

活化石植物——亟待拯救,保护和研究

本文讨论了活化石植物的概念,提出了确定活化石植物的４个条件或指标。作者认为：在当前的生物多样性保护工作中,对活化石植物的拯救、保护和研究是刻不容缓的事。     

桫椤生态系统生物量与生产力

 活化石植物是最接近于化石物种的现存相似种, 并且具有一定的生态学保守性。利用活化石植物生态系统来估算陆地生态系统碳固存能力的进化趋势是一种有效的手段。该研究中利用标准地-标准木法调查了活化石物种树蕨桫椤(Alsophila spinulosa)生态系统的生物量和生产力。与现存的裸子植物为优势种的生态系统和被子植物为优势种的生态系统相比, 桫椤的生物量(36.151±8.159 Mg C•hm^–2)和生产力(2.535±0.174 Mg C•hm^–2•a^–1)都比较小。与植物化石调查方法相比, 活化石生态系统生物量和生产力数据在描述古生态系统碳固存能力进化趋势方面提供了一种有意义的手段, 并且有助于进一步的理解全球碳平衡演变的过程。     

Total enzymatic synthesis of cholecystokinin CCK-5

Summary. This paper describes the enzymatic synthesis of the C-terminal fragment H-Gly-Trp-Met-Asp-Phe-NH₂ of cholecystokinin. Immobilized enzymes were used for the formation of all peptide bonds except thermolysin. Beginning the synthesis with phenylacetyl (PhAc) glycine carboxamidomethyl ester (OCam) and H-Trp-OMe by using immobilized papain as biocatalyst in buffered ethyl acetate, the dipeptide methyl ester was then coupled directly with Met-OEt·HCl by -chymotrypsin/Celite 545 in a solvent free system. For the 3+2 coupling PhAc-Gly-Trp-Met-OEt had to be converted into its OCam ester.The other fragment H-Asp(OMe)-Phe-NH₂ resulted from the coupling of Cbo-Asp(OMe)-OH with H-Phe-NH₂·HCl and thermolysin as catalyst, followed by catalytic hydrogenation.Finally PhAc-Gly-Trp-Met-Asp-Phe-NH₂ was obtained in a smooth reaction from PhAc-Gly-Trp-Met-OCam and H-Asp(OMe)-Phe-NH₂ with -chymotrypsin/Celite 545 in acetonitrile, followed by basic hydrolysis of the -methyl ester. The PhAc-group is removed with penicillin G amidase and CCK-5 is obtained in an overall isolated yield of 19.6%.     

Combining capture–recapture data and pedigree information to assess heritability of demographic parameters in the wild

Quantitative genetic analyses have been increasingly used to estimate the genetic basis of life‐history traits in natural populations. Imperfect detection of individuals is inherent to studies that monitor populations in the wild, yet it is seldom accounted for by quantitative genetic studies, perhaps leading to flawed inference. To facilitate the inclusion of imperfect detection of individuals in such studies, we develop a method to estimate additive genetic variance and assess heritability for binary traits such as survival, using capture–recapture (CR) data. Our approach combines mixed‐effects CR models with a threshold model to incorporate discrete data in a standard ‘animal model’ approach. We employ Markov chain Monte Carlo sampling in a Bayesian framework to estimate model parameters. We illustrate our approach using data from a wild population of blue tits (Cyanistes caeruleus) and present the first estimate of heritability of adult survival in the wild. In agreement with the prediction that selection should deplete additive genetic variance in fitness, we found that survival had low heritability. Because the detection process is incorporated, capture–recapture animal models (CRAM) provide unbiased quantitative genetics analyses of longitudinal data collected in the wild.     

Tumor necrosis factor-alpha in serum of macaques during SIVmac251 acute infection

TNF secretion was explored in sera during acute SIV-infection of cynomolgus macaques. A peak of TNF was detected in sera of animals in concomitance with SIV replication. Likewise, AZT treatment delayed and reduced peaks of viral replication and TNF production. Thus, SIVmac251-infected monkey could be an excellent model to explore the interdigitation existing between HIV and TNF in acute and chronic infection and to develop new therapeutic strategies that target the production of this cytokine or its inductive effects.     

Morphinome – proteome of the nervous system after morphine treatment

Summary. Proteome is a natural consequence of the post-genome era when the HUGO project (Human Genome Organization) has almost been completed. Here, a specifically aimed proteome in drug dependence – morphinome, is described, including tasks, strategies and pitfalls of the methodology.     

Nitric oxide is not involved in the control of vasopressin release during acute forced swimming in rats

Summary. Neurons of the hypothalamo-neurohypophyseal system (HNS) are known to contain high amounts of neuronal nitric oxide (NO) synthase (nNOS). NO produced by those neurons is commonly supposed to be involved as modulator in the release of the two nonapeptides vasopressin (AVP) and oxytocin into the blood stream. Previous studies showed that forced swimming fails to increase the release of AVP into the blood stream while its secretion into the hypothalamus is triggered. We investigated here whether hypothalamically acting NO contributes to the control of the AVP release into blood under forced swimming conditions. Intracerebral microdialysis and in situ hybridization were employed to analyze the activity of the nitrergic system within the supraoptic nucleus (SON), the hypothalamic origin of the HNS. A 10-min forced swimming session failed to significantly alter the local NO release as indicated both by nitrite and, the main by-product of NO synthesis, citrulline levels in microdialysis samples collected from the SON. Microdialysis administration of NO directly into the SON increased the concentration of AVP in plasma samples collected during simultaneous forced swimming. In an additional experiment the effect of the defined stressor exposure on the concentration of mRNA coding for nNOS within the SON was investigated by in situ hybridization. Forced swimming increased the expression of nNOS mRNA at two and four hours after onset of the stressor compared to untreated controls. Taken together, our results imply that NO within the SON does not contribute to the regulation of the secretory activity of HNS neurons during acute forced swimming. Increased nNOS mRNA in the SON after forced swimming and the increase in AVP release in the presence of exogenous NO under forced swimming points to a possible role of NO in the regulation of the HNS under repeated stressor exposure.Current address: Departments of Behavioral Neuroscience and Neurology, Oregon Health & Science University, Portland, OR 97239, U.S.A.     

Biochemical mechanisms for a possible involvement of the transglutaminase activity in the pathogenesis of the polyglutamine diseases: Minireview article

Summary. Transglutaminases are a family of enzymes which show the common capacity to catalyse the cross-linking of protein substrates. Some members of this family of enzymes are also capable to catalyse other chemical reactions for the cell life. The distribution and the role of these enzymes have been studied in numerous cell types and tissues, but only recently their expression and functions started to be investigated in the Nervous System. One of the main biochemical properties of the Transglutaminase enzymes is to form large protein aggregates that are insoluble in all known protein detergents. Recently, the Transglutaminase activity has been hypothesised to be involved in the pathogenetic mechanisms responsible for the formation of cellular inclusions present in the Corea Major and in other polyglutamine diseases. In this review we describe the biochemical mechanisms by which the Transglutaminases could play a critical role in the physiopathology of the polyglutamine diseases.     

Mesoscopic dynamics of colloids simulated with dissipative particle dynamics and fluid particle model

We report results of numerical simulations of complex fluids, using a combination of discrete-particle methods. Our molecular modeling repertoire comprises three simulation techniques: molecular dynamics (MD), dissipative particle dynamics (DPD), and the fluid particle model (FPM). This type of model can depict multi-resolution molecular structures (see the Figure) found in complex fluids ranging from single micelle, colloidal crystals, large-scale colloidal aggregates up to the mesoscale processes of hydrodynamical instabilities in the bulk of colloidal suspensions. We can simulate different colloidal structures in which the colloidal beds are of comparable size to the solvent particles. This undertaking is accomplished with a two-level discrete particle model consisting of the MD paradigm with a Lennard-Jones (L-J) type potential for defining the colloidal particle system and DPD or FPM for modeling the solvent. We observe the spontaneous emergence of spherical or rod-like micelles and their crystallization in stable hexagonal or worm-like structures, respectively. The ordered arrays obtained by using the particle model are similar to the 2D colloidal crystals observed in laboratory experiments. The micelle shape and its hydrophobic or hydrophilic character depend on the ratio between the scaling factors of the interactions between colloid–colloid to colloid–solvent. Unlike the miscellar arrays, the colloidal aggregates involve the colloid–solvent interactions prescribed by the DPD forces. Different from the assumption of equilibrium growth, the two-level particle model can display much more realistic molecular physics, which allows for the simulation of aggregation for various types of colloids and solvent liquids over a very broad range of conditions. We discuss the potential prospects of combining MD, DPD, and FPM techniques in a single three-level model. Finally, we present results from large-scale simulation of the Rayleigh–Taylor instability and dispersion of colloidal slab in 2D and 3D. Electronic supplementary material to this paper can be obtained by using the Springer LINK server located at http://dx.doi.org/10.1007/s00894-001-0068-3.Electronic Supplementary Material available.