To investigate the relationship between early nutritional experience, ontogeny of the small intestinal functions and predisposition to obesity development, the following experimental models of male Sprague-Dawley rats were used: 1) rats in which the quantity of nutrition was manipulated from birth to weaning (day 30) by adjusting the number of pups in the nest to 4 (SL), 10 (NL) and 16 pups (LL) and 2) littermates of SL, NL and LL rats fed either a standard or a hypercaloric diet from days 80 to 135 of age. The overfed SL pups were overweight after day 15 and became permanently obese, whereas the underfed smaller LL pups, due to accelerated growth and enhanced food intake from day 30 to day 35, attained a body fat level that did not differ from normally fed NL rats. Moreover, a significantly increased duodenal and jejunal alkaline phosphatase (AP) activity was found in SL and LL rats and these acquired somatic and intestinal characteristics persisted from weaning throughout life. Eight weeks of high-energy diet feeding elicited a similar pattern of intestinal response in SL and LL rats that was clearly different from NL rats. Despite energy overconsumption in these three groups, both SL and LL rats still displayed enhanced AP activity and showed a significant increase in protein/DNA ratio accompanied with a significant body fat accretion. These results indicate that the postnatally acquired small intestinal changes induced by over- and undernutrition could be involved in the similar predisposition to obesity risk in later life when caloric density of the diet is raised., Š. Možeš, Z. Šefčíková, Ľ. Lenhardt., and Obsahuje bibliografii a bibliografické odkazy
Functional responses at each developmental stage of predators and intraspecific competition associated with direct interactions among them provide insights into developing biological control strategies for pests. The functional responses of Harmonia axyridis (Pallas) at each developmental stage of Melanaphis sacchari (Zehntner) and intraspecific competition among predators were evaluated under laboratory conditions. The results showed that all stages of H. axyridis displayed a type II functional response to M. sacchari. Based on Holling's disc equation, the instantaneous searching rates were highest (a) and handling time was shortest (Th) of fourth instar larvae (a = 0.8818; Th = 3.9 min) and female adults (a = 0.9881; Th = 3.0 min) at larval and adult stages, respectively. The coefficients of mutual interference (m) assessed by the intraspecific competition equation were higher for fourth instar larvae (m = 0.4764) and female adults (m = 0.4183). The present study indicates that fourth instar and female adult were more effective stages of H. axyridis in the context of biological control but suitable predator densities need to be considered before natural enemy release., Pengxiang Wu, Jing Zhang, Muhammad Haseeb, Shuo Yan, Lambert Kanga, Runzhi Zhang., and Obsahuje bibliografii
Conifer bark beetles are well known to be associated with fungal complexes, which consist of pathogenic ophiostomatoid fungi as well as obligate saprotroph species. However, there is little information on fungi associated with Ips acuminatus in central and eastern Europe. The aim of the study was to investigate the composition of the fungal communities associated with the pine engraver beetle, I. acuminatus, in the forest-steppe zone in Ukraine and to evaluate the pathogenicity of six associated ophiostomatoid species by inoculating three-year-old Scots pine seedlings with these fungi. In total, 384 adult beetles were collected from under the bark of declining and dead Scots pine trees at two different sites. Fungal culturing from 192 beetles resulted in 447 cultures and direct sequencing of ITS rRNA from 192 beetles in 496 high-quality sequences. Identification of the above revealed that the overall fungal community was composed of 60 species. Among these, the most common were Entomocorticium sp. (24.5%), Diplodia pinea (24.0%), Ophiostoma ips (16.7%), Sydowia polyspora (15.1%), Graphilbum cf rectangulosporium (15.1%), Ophiostoma minus (13.8%) and Cladosporium pini-ponderosae (13.0%). Pathogenicity tests were done using six species of ophiostomatoid fungi, which were inoculated into Scots pine seedlings. All ophiostomatoid fungi tested successfully infected seedlings of Scots pine with varying degrees of virulence. Ophiostoma minus was the only fungus that caused dieback in inoculated seedlings. It is concluded that I. acuminatus vectors a species-rich fungal community including pathogens such as D. pinea and O. minus. The fungal community reported in the present study is different from that reported in other regions of Europe. Pathogenicity tests showed that O. minus was the most virulent causing dieback in seedlings of Scots pine, while other fungi tested appeared to be only slightly pathogenic or completely non-pathogenic., Kateryna Davydenko, Rimvydas Vasaitis, Audrius Menkis., and Obsahuje bibliografii
Fusilade (fluazifop-p-butyl) is one of the herbicides that inhibit acetyl-CoA carboxylase. The exogenous effect of 30, 60, and 90 ppm fusilade on peanut (Arachis hypogaea L. cv. Giza 5) leaves was studied. With increasing fusilade concentration, the peanut leaf chlorosis appeared after 7-10 d. Declined leaf pigment contents confirmed the leaf chlorosis. Electron microscopic observation of the fusilade-treated (FT) leaves revealed disorganization in the ultrastructure of mesophyll cell chloroplasts. An increase of plastoglobuli occurrence within chloroplasts and degenerated grana thylakoids were observed in FT leaves. Fusilade treatments induced mainly the enhancement of malondialdehyde content and the activities of peroxidases (guaiacol and ascorbate). On contrary, a decrease in H2O2 content, catalase and superoxide dismutase activities was recorded. Enhancements of the guaiacol and ascorbate peroxidase activities were associated with the decreasing H2O2 content in the FT leaves. Hydrogen peroxide seems not to be involved in the oxidative stress of FT leaves. In the FT leaves, the oxidative stress confirmed by chlorophyll degradation and lipid peroxidation might be caused by the other reactive oxygen species probably due to the decrease of superoxide dismutase activity., K. A. Fayez, D. E. M. Radwan, A. K. Mohamed, A. M. Abdelrahman., and Obsahuje bibliografii
Článek přináší přehled současných znalostí o fylogenezi mnohobuněčných živočichů, tak jak vycházejí ze současného fylogenomického výzkumu. Zvláštní pozornost je věnována skupinám s konfliktním postavením (Ctenophora, Xenacoelomorpha, Bryozoa) a skupinám, o jejichž postavení dosud nevíme téměř nic (Dendrogramma, Dicyemida, Orthonectida)., We present an overview of current knowledge on the phylogeny of multicellular animals, based on current phylogenomic research. This overview pays special attention to groups with uncertain positions (Ctenophora, Xenacoelomorpha, Bryozoa) and groups whose position is still largely unknown (Dendrogramma, Dicyemida, Orthonectida)., and Jan Zrzavý.
Both molecular and palaeoecological methods enable us to study past changes in plant distribution. The results of recent phylogeographical studies have demonstrated that Central Europe was not only at a crossroads of postglacial migration routes, but also an area where many species might have survived during glacial periods. and Tomáš Fér, Karol Marhold.
Od dob, kdy Galileo Galilei položil základy matematického popisu přirozených procesů, musela fyzika projít ještě složitou cestu, než zacílila se vší vážností a energií tento popis na živé organismy. Neobyčejně smělý rozvrh Reného Descarta, jehož matematicky chápaná rozprostraněnost zahrnovala i živé organismy jakožto mechanismy podléhající stejným zákonům jako cokoli neživého, ovšem nenabízel žádnou cestu, jak fyziku systematicky provozovat. Tuto cestu vytyčil až Isaac Newton. Jeho program průzkumu fyzikální reality je však založen na zkoumání pohybů a hledání sil, které tyto pohyby odchylují od pohybu rovnoměrného a přímočarého. V tomto pojetí se tak živé organismy jeví jako prakticky nepřístupné nějakému fyzikálnímu průzkumu. Pojem pohybu chápaného jako geometrická trajektorie zde ztrácí svůj zásadní význam (je řada jiných podstatných "pohybů", jako růst či rozmanité změny vnitřní struktury) a pojem síly se stává problematickým (jaké "síly" zastaví pohybující se myš?). Až ve dvacátém století se fyzika začala vážně a systematicky zabývat i živými strukturami. Bylo to zejména díky rozvoji termodynamiky, molekulární fyziky, počítačových simulací a vysoce sofistikovaných experimentálních a zobrazovacích metod., The paper deals with living matter (living tissues and individual cells) from the point of view of physics. It passes through several upůto-date approaches that are clearly physical. Starting with thermodynamics that brings us to study the free-energy dependence on microscopic parameters of living tissues, we continue with special mechanical properties of living cells and the important role of pre-stress in their "skeleton". We mention the "tensegrity approach" and review briefly the approach in which a cell is understood as a soft glassy material. Then we discuss problems of description and experimental identification of properties of living tissues and present an example outlining a pure mechanical explanation how smooth muscle cells may efficiently control mechanical behaviour of the whole tissue. The concluding discussion tries to elucidate the role of physics in understanding the secret of life., Miroslav Holeček, Petra Kochová, Zbyněk Tonar., and Obsahuje bibliografii
Leaf gas exchange of terrestrial and epiphytic orchids from the Atlantic Rainforest in northeast Brazil was investigated under artificial growth conditions. The terrestrial orchids showed higher values of all photosynthetic parameters in comparison to epiphytic ones. There was a close relationship between PN and gs for both terrestrial and epiphytic orchids. Taken together, our results demonstrated that the photosynthetic parameters were related to the specific growth habits of the orchids under study., M. V. Pires ... [et al.]., and Obsahuje bibliografii