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91.
Lola Djurdjević Gordana GajićOlga Kostić Snežana JarićMarija Pavlović Miroslava MitrovićPavle Pavlović 《Flora》2012
The seasonal dynamics of total phenolics and phenolic acids in the stems of the global invader Conyza canadensis, from March (young plants in the form of rosettes) to September (fruit abscission and the beginning of plant decline), and in sandy soil were monitored monthly in non-native areas. The highest amount of total free phenolics was found in its tissues (31,000 μg g−1) during the flowering and fruiting time (August). Bound phenolics peaked (up to 8443 μg g−1) during shoot elongation and intensive plant growth (May–June) and in September. In the stems, bound phenolic acids (p-coumaric, ferulic, p-hydroxybenzoic, vanillic and syringic) have a maximum twice, in May and in August, with ferulic acid predominating (up to 951.6 μg g−1). Free phenolic acids in the plant's tissue peaked in May (plant elongation). In the soil under C. canadensis, the amount of bound phenolics decreased between March and June, before increasing up to the full bloom phase of the plants (August). The amount of bound phenolic acids was several times greater than that of free ones, with maximum values in August. C. canadensis is a highly important source of phenolics in the ruderal phytocoenosis in new areas. In order to better explain the mechanisms of the spread and domination of invasive plants in non-native areas, in which allelopathy plays a decisive role, it is necessary to measure the production of allelochemicals in tissue and their accumulation in soil at the shortest possible intervals and link this with the phases of plant development. 相似文献
92.
In this issue of Cell, Sparrow et?al. propose a new mechanism for sporadically occurring congenital scoliosis in which Notch signaling and hypoxia converge in the embryo on somite patterning via the segmentation clock. This interaction between hypoxia and a predisposed genetic background might underlie other birth defects with incomplete penetrance. 相似文献
93.
Lola Lledo 《Botanical journal of the Linnean Society. Linnean Society of London》2012,170(4):643-643
94.
Stéphane Debove Jean-Baptiste André Nicolas Baumard 《Proceedings. Biological sciences / The Royal Society》2015,282(1808)
Many studies demonstrate that partner choice has played an important role in the evolution of human cooperation, but little work has tested its impact on the evolution of human fairness. In experiments involving divisions of money, people become either over-generous or over-selfish when they are in competition to be chosen as cooperative partners. Hence, it is difficult to see how partner choice could result in the evolution of fair, equal divisions. Here, we show that this puzzle can be solved if we consider the outside options on which partner choice operates. We conduct a behavioural experiment, run agent-based simulations and analyse a game-theoretic model to understand how outside options affect partner choice and fairness. All support the conclusion that partner choice leads to fairness only when individuals have equal outside options. We discuss how this condition has been met in our evolutionary history, and the implications of these findings for our understanding of other aspects of fairness less specific than preferences for equal divisions of resources. 相似文献
95.
The expression of the maize polyubiquitin gene promoter UBI1 in rice cells has been used to study the involvement of ubiquitin in cell protection responses to dehydration caused by osmotic, saline or freezing stress. The effect of these stresses on UBI1 activity was investigated by the use of stably transformed rice calli (UBI1:GUS), as well as by transient expression experiments performed with cell lines with high or low tolerance to each type of stress. The theoretical analysis of the UBI1 promoter shows several putative stress-regulated boxes that could account for the stress-related UBI1 induction pattern described in this work. We suggest that the study of the differential UBI1 promoter-driven expression in rice cell lines with different level of tolerance to stress might be useful to elucidate complex signal transduction pathways in response to dehydration stresses in monocots. 相似文献
96.
Despite copper ions being crucial in proteins participating in plant processes such as electron transport, free-radical elimination and hormone perception and signaling, very little is known about copper inward transport across plant membranes. In this work, a five-member family (COPT1–5) of putative Arabidopsis copper transporters is described. We ascertain the ability of these proteins to functionally complement and transport copper in the corresponding Saccharomyces cerevisiae high-affinity copper transport mutant. The specific expression pattern of the Arabidopsis COPT1–5 mRNA in different tissues was analyzed by RT-PCR. Although all members are ubiquitously expressed, differences in their relative abundance in roots, leaves, stem and flowers have been observed. Moreover, steady-state COPT1 and COPT2 mRNA levels, the members that are most efficacious in complementing the S. cerevisiae high-affinity copper transport mutant, are down-regulated under copper excess, consistent with a role for these proteins in copper transport in Arabidopsis cells. 相似文献
97.
Citron kinase is a cell cycle-dependent,nuclear protein required for G2/M transition of hepatocytes 总被引:5,自引:0,他引:5
Citron Kinase (Citron-K) is a cell cycle-dependent protein regulating the G(2)/M transition in hepatocytes. Synchronization studies demonstrated that expression of the Citron-K protein starts at the late S and/or the early G(2) phase after that of cyclin B1. Expression of Citron-K is developmentally regulated. Levels of Citron-K mRNA and protein are highest in embryonic liver and gradually decrease after birth. Citron-K exists in interphase nuclei and begins to disperse into the cytoplasm at prophase. It concentrates at the cleavage furrow and midbody during anaphase, telophase, and cytokinesis, implicating a role in the control of cytokinesis. However, studies with knockouts show that Citron-K is not essential for cytokinesis in hepatocytes. Instead, loss of Citron-K causes a significant increase of G(2) tetraploid nuclei in one-week-old rat and mouse liver. In addition, Citron-K deficiency triggers apoptosis in a small subset of embryonic liver cells. In summary, our data demonstrate that Citron-K has a distinct cell cycle-dependent expression pattern and cellular localization as a downstream target of Rho-GTPase and functions in the control of G(2)/M transition in the hepatocyte cell cycle. 相似文献
98.
To determine whether the efficacy of entry and action of antisense oligonucleotides (AS-ODN) on hematopoietic stem cells in vitro could be improved by the addition of polyethylene glycol (PEG), a molecule of PEG was bound to AS- or sense-acetylcholinesterase (AS-ACHE or S-ACHE). The introduction of 0.1-0.5 microM PEG-AS-ACHE or 0.5 microM AS-ACHE into methylcellulose bone marrow (BM) cultures produced a doubling in number of colony-forming unit-granulocyte-erythrocyte-macrophage-megakaryocyte (CFU-GEMM) and a 5-fold increase in cell number of the PEG-ODN. Further increase in concentration of the PEG-ODN reduced colony numbers. PEG-AS-ACHE induced higher colony numbers and greatly increased megakaryocyte (MK) formation when compared with PEG and AS-ACHE added separately to the culture. In addition, differentials of the CFU-GEMMs indicated there was a direct relationship between MK number and PEG-AS-ACHE concentration. Under these culture conditions, 5 microM PEG alone gave control values of CFU-GEMM. On addition of FITC-PEG-AS-ACHE to the cell cultures, using confocal microscopy, the nuclei of both early and mature MKs were labeled specifically, whereas all other cellular nuclei were negative to the stain. The use of PEG-AS-ODN, affording specific delivery of AS-ODN to target cells, increased cell proliferation, and enhanced ODN uptake, may be of potential importance in stem cell expansion for BM transplantation and gene therapy. 相似文献
99.
Emerging data suggest that the mechanisms regulating plant copper homeostasis could be implicated in stress and senescence signal transduction pathways. To gain insight into copper-modulated patterns of gene expression, copper-treated Arabidopsis thaliana (L.) Heynh. plants were analysed by mRNA differential display. The experimental conditions were selected using aggregation of ribulose-1,5-bisphosphate carboxylase-oxygenase (Rubisco) as a molecular sensor to monitor copper-induced oxidative stress. Two copper-induced messengers encoding a vegetative storage protein (VSP2) were isolated by this technique. Both clones differed in the length of their 3'-untranslated region according to the presence of two polyadenylation signals in this region. VSP2 expression was further studied under natural senescence and various conditions causing oxidative stress, such as ozone exposure, paraquat and H2O2 treatments. The expression of other messengers related to copper homeostasis and detoxification processes was followed in parallel to that of VSP2. Here, we describe specific gene-expression responses to copper treatment, and present arguments connecting copper homeostasis, senescence and antioxidative responses in plants. Our results are consistent with the role of VSPs as temporary nitrogen-storage proteins which accumulate if nutrients are abundant, either in developing organs or in cotyledons and mature leaves subjected to generalized protein mobilization, such as those conditions created under severe oxidative stress. 相似文献
100.
Weiss L Abdul-Hai A Shufaro Y Reich S Slavin S 《Cancer immunology, immunotherapy : CII》2002,51(11-12):596-602
The effect of linomide, an immunomodulatory drug, on natural killer (NK) cells and T cell-dependent immune responses following syngeneic or allogeneic bone marrow transplantation (BMT) was investigated in BALB/c mice inoculated with B-cell leukemia (BCL1). Linomide given in the drinking water had no impact on graft survival or graft versus leukemia (GVL) effects. Although linomide regulates anti-self reactivity in mice with experimental and spontaneous autoimmune disorders, the anti-tumor effects induced by allogeneic donor lymphocytes were not affected. This indicates that different mechanisms regulate anti-self and anti-leukemia effects. Alternatively, linomide might affect the homing of self-reactive lymphocytes to specific target organs in autoimmune disorders, although the homing process may not be relevant to the control of leukemia by alloreactive lymphocytes. 相似文献