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51.
One of the most controversially discussed topics in current biodiversity-ecosystem function research is the transfer of results from experimental and theoretical studies to natural ecosystems. At the same time, monitoring data on biodiversity are requested as key indicators for the state of an ecosystem in most environmental evaluation frameworks. We analyse two monitoring data sets comprising information on abundance and biomass of macrozoobenthos communities in the German Wadden Sea in order to evaluate how much information monitoring data on biodiversity provide concerning ecosystem functioning and what implications this information (or the lack thereof) has for future monitoring programmes. Our results show a positive correlation between number of species of macrozoobenthos and its standing stock. Despite differences in overall biomass and individual size in different functional groups, this correlation remained consistent for different feeding guilds and therefore is likely to be independent of certain species traits. Moreover, functional turnover analyses indicate that increasing species richness is needed to maintain biomass levels over increasing periods of time. Whereas our data thus corroborate predictions from theory, we could not determine any causal relationships, because monitoring data commonly include only vague proxies for very few functional parameters, in our case standing biomass as a proxy for production. As to the use of diversity as an indicator for ecosystem functioning, we advise that management decisions are to be based on verified causal relationships and therefore strongly suggest the general incorporation of unambiguous proxies for functional parameters in the measuring campaigns of monitoring programmes. 相似文献
52.
Ilona Schonn Jana Hennesen Dorothee C. Dartsch 《Apoptosis : an international journal on programmed cell death》2010,15(2):162-172
The topoisomerase IIα inhibitor etoposide is a ‘broad spectrum’ anticancer agent and a potent inducer of DNA double strand breaks. DNA damage response of mammalian cells usually involves cell cycle arrest and DNA repair or, if unsuccessful, cell death. We investigated these processes in the human colon cancer cell line HT-29 treated with three different etoposide regimens mimicking clinically relevant plasma concentrations of cancer patients. Each involved a period of drug-free incubation following etoposide exposure to imitate the decline of plasma levels between the cycles of chemotherapy. We found a massive induction of double strand breaks that were rapidly and nearly completely fixed long before the majority of cells underwent apoptosis or necrosis. An even greater percentage of cells lost clonogenicity. The occurrence of double strand breaks was accompanied by a decrease in the levels of Ku70, Ku86 and DNA-PKcs as well as an increase in the level of Rad51 protein. Twenty-four hours after the first contact with etoposide we found a pronounced G2/M arrest, regardless of the duration of drug exposure, the level of double strand breaks and the extent of their repair. During the subsequent drug-free incubation period, the loss of clonogenicity correlated well with the preceding G2/M arrest as well as with the amount of cell death found several days after exposure. However, it correlated neither with early apoptosis or necrosis nor with any of the other investigated parameters. These results suggest that the G2/M arrest is an important determinant in the cytostatic action of etoposide and that the removal of DNA double strand breaks is not sufficient to ensure cell survival. 相似文献
53.
Spatial heterogeneity in species composition constrains plant community responses to herbivory and fertilisation 下载免费PDF全文
Dorothee Hodapp Elizabeth T. Borer W. Stanley Harpole Eric M. Lind Eric W. Seabloom Peter B. Adler Juan Alberti Carlos A. Arnillas Jonathan D. Bakker Lori Biederman Marc Cadotte Elsa E. Cleland Scott Collins Philip A. Fay Jennifer Firn Nicole Hagenah Yann Hautier Oscar Iribarne Johannes M. H. Knops Rebecca L. McCulley Andrew MacDougall Joslin L. Moore John W. Morgan Brent Mortensen Kimberly J. La Pierre Anita C. Risch Martin Schütz Pablo Peri Carly J. Stevens Justin Wright Helmut Hillebrand 《Ecology letters》2018,21(9):1364-1371
Environmental change can result in substantial shifts in community composition. The associated immigration and extinction events are likely constrained by the spatial distribution of species. Still, studies on environmental change typically quantify biotic responses at single spatial (time series within a single plot) or temporal (spatial beta diversity at single time points) scales, ignoring their potential interdependence. Here, we use data from a global network of grassland experiments to determine how turnover responses to two major forms of environmental change – fertilisation and herbivore loss – are affected by species pool size and spatial compositional heterogeneity. Fertilisation led to higher rates of local extinction, whereas turnover in herbivore exclusion plots was driven by species replacement. Overall, sites with more spatially heterogeneous composition showed significantly higher rates of annual turnover, independent of species pool size and treatment. Taking into account spatial biodiversity aspects will therefore improve our understanding of consequences of global and anthropogenic change on community dynamics. 相似文献
54.
Caspar Langenbach Holger Schultheiss Martin Rosendahl Nadine Tresch Uwe Conrath Katharina Goellner 《Plant biotechnology journal》2016,14(2):699-708
Fungal pathogens pose a major challenge to global crop production. Crop varieties that resist disease present the best defence and offer an alternative to chemical fungicides. Exploiting durable nonhost resistance (NHR) for crop protection often requires identification and transfer of NHR‐linked genes to the target crop. Here, we identify genes associated with NHR of Arabidopsis thaliana to Phakopsora pachyrhizi, the causative agent of the devastating fungal disease called Asian soybean rust. We transfer selected Arabidopsis NHR‐linked genes to the soybean host and discover enhanced resistance to rust disease in some transgenic soybean lines in the greenhouse. Interspecies NHR gene transfer thus presents a promising strategy for genetically engineered control of crop diseases. 相似文献
55.
56.
Peter C. Huszthy Tsanan Giroglou Oleg Tsinkalovsky Philipp Euskirchen Kai Ove Skaftnesmo Rolf Bjerkvig Dorothee von Laer Hrvoje Miletic 《PloS one》2009,4(7)
Background
Glioblastoma is the most frequent and most malignant primary brain tumor with a poor prognosis. The translation of therapeutic strategies for glioblastoma from the experimental phase into the clinic has been limited by insufficient animal models, which lack important features of human tumors. Lentiviral gene therapy is an attractive therapeutic option for human glioblastoma, which we validated in a clinically relevant animal model.Methodology/Principal Findings
We used a rodent xenograft model that recapitulates the invasive and angiogenic features of human glioblastoma to analyze the transduction pattern and therapeutic efficacy of lentiviral pseudotyped vectors. Both, lymphocytic choriomeningitis virus glycoprotein (LCMV-GP) and vesicular stomatitis virus glycoprotein (VSV-G) pseudotyped lentiviral vectors very efficiently transduced human glioblastoma cells in vitro and in vivo. In contrast, pseudotyped gammaretroviral vectors, similar to those evaluated for clinical therapy of glioblastoma, showed inefficient gene transfer in vitro and in vivo. Both pseudotyped lentiviral vectors transduced cancer stem-like cells characterized by their CD133-, nestin- and SOX2-expression, the ability to form spheroids in neural stem cell medium and to express astrocytic and neuronal differentiation markers under serum conditions. In a therapeutic approach using the suicide gene herpes simplex virus thymidine kinase (HSV-1-tk) fused to eGFP, both lentiviral vectors mediated a complete remission of solid tumors as seen on MRI resulting in a highly significant survival benefit (p<0.001) compared to control groups. In all recurrent tumors, surviving eGFP-positive tumor cells were found, advocating prodrug application for several cycles to even enhance and prolong the therapeutic effect.Conclusions/Significance
In conclusion, lentiviral pseudotyped vectors are promising candidates for gene therapy of glioma in patients. The inefficient gene delivery by gammaretroviral vectors is in line with the results obtained in clinical therapy for GBM and thus confirms the high reproducibility of the invasive glioma animal model for translational research. 相似文献57.
We characterized the Arabidopsis orthologue of the human nuclear import receptor transportin1 (TRN1). Like the human receptor, Arabidopsis TRN1 recognizes nuclear import signals on proteins that are different from the classical basic nuclear localization signals. The M9 domain of human heterogeneous nuclear ribonucleoprotein A1 (hnRNP A1) is the prototype of such signals. We show that AtTRN1 binds to similar domains in hnRNP-like proteins from plants. AtTRN1 also interacts with human hnRNP A1 and with yeast Nab2p, two classical import cargo proteins of transportin in these organisms. Like all nuclear transport receptors of the importin-beta family, AtTRN1 binds to the regulatory GTPase Ran from Arabidopsis. We demonstrated that the amino terminus of AtTRN1 is necessary for this interaction. Recombinant AtTRN1 conferred nuclear import of fluorescently labelled BSA-M9 peptide conjugates in permeabilized HeLa cells, functionally replacing human TRN1 in these in vitro nuclear import assays. We identified three plant substrate proteins that interact with AtTRN1 and contain M9-like domains: a novel Arabidopsis hnRNP that shows high similarity to human hnRNP A1 and two small RNA-binding proteins from Arabidopsis, AtGRP7 and AtGRP8. Nuclear import activity of the M9-like domains of these plant proteins was demonstrated in vivo by their ability to confer partial nuclear re-localisation of a GFP fusion protein containing a nuclear export signal. In addition, fluorescently labelled AtGRP7 was specifically imported into nuclei of permeabilized HeLa cells by Arabidopsis AtTRN1 and human TRN1. These results suggest that the transportin-mediated nuclear import pathway is highly conserved between man, yeast and plants. 相似文献
58.
Andreas Christian Dorothee Koberg Holger Preuschoft 《Pal?ontologische Zeitschrift》1996,70(3-4):591-601
The pelvis ofPlateosaurus is examined from a biomechanical point of view. The shape of the acetabulum in particular is analysed in order to determine the range of possible directions of the forces exchanged between femur and pelvis. These forces must have been more or less confined to a sagittal plane. From a quasi-static analysis under consideration of the major hip muscles ofPlateosaurus, a nearly but not fully extended posture of the hindlimbs can be deduced. The hip joints ofPlateosaurus and probably of some other dinosaurs with a narrow biacetabular width were balanced rather by adducting than by abducting muscles. 相似文献
59.
Deckbar D Jeggo PA Löbrich M 《Critical reviews in biochemistry and molecular biology》2011,46(4):271-283
The DNA damage response pathways involve processes of double-strand break (DSB) repair and cell cycle checkpoint control to prevent or limit entry into S phase or mitosis in the presence of unrepaired damage. Checkpoints can function to permanently remove damaged cells from the actively proliferating population but can also halt the cell cycle temporarily to provide time for the repair of DSBs. Although efficient in their ability to limit genomic instability, checkpoints are not foolproof but carry inherent limitations. Recent work has demonstrated that the G1/S checkpoint is slowly activated and allows cells to enter S phase in the presence of unrepaired DSBs for about 4-6?h post irradiation. During this time, only a slowing but not abolition of S-phase entry is observed. The G2/M checkpoint, in contrast, is quickly activated but only responds to a level of 10-20 DSBs such that cells with a low number of DSBs do not initiate the checkpoint or terminate arrest before repair is complete. Here, we discuss the limitations of these checkpoints in the context of the current knowledge of the factors involved. We suggest that the time needed to fully activate G1/S arrest reflects the existence of a restriction point in G1-phase progression. This point has previously been defined as the point when mitogen starvation fails to prevent cells from entering S phase. However, cells that passed the restriction point can respond to DSBs, albeit with reduced efficiency. 相似文献
60.
Dorothee Staiger 《当今生物学》2016,46(5):275-277