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151.
We used a cooperative pulling task to examine proximate aspects of cooperation in captive brown capuchin monkeys, Cebus apella. Specifically, our goal was to determine whether capuchins can learn the contingency between their partner's participation in a task and its successful completion. We examined whether the monkeys visually monitored their partners and adjusted pulling behaviour according to their partner's presence. Results on five same-sex pairs of adults indicate that (1) elimination of visual contact between partners significantly decreased success, (2) subjects glanced at their partners significantly more in cooperative tests than in control tests in which no partner-assistance was needed, and (3) they pulled at significantly higher rates when their partner was present rather than absent. Therefore, in contrast to a previous report by Chalmeau et al. (1997, Animal Behaviour, 54, 1215-1225), cooperating capuchins do seem able to take the role of their partner into account. However, the type of task used may be an important factor affecting the level of coordination achieved. Copyright 2000 The Association for the Study of Animal Behaviour. 相似文献
152.
153.
Molecular dynamics simulations of the 136 unique tetranucleotide sequences of DNA oligonucleotides. I. Research design and results on d(CpG) steps 下载免费PDF全文
Beveridge DL Barreiro G Byun KS Case DA Cheatham TE Dixit SB Giudice E Lankas F Lavery R Maddocks JH Osman R Seibert E Sklenar H Stoll G Thayer KM Varnai P Young MA 《Biophysical journal》2004,87(6):3799-3813
We describe herein a computationally intensive project aimed at carrying out molecular dynamics (MD) simulations including water and counterions on B-DNA oligomers containing all 136 unique tetranucleotide base sequences. This initiative was undertaken by an international collaborative effort involving nine research groups, the "Ascona B-DNA Consortium" (ABC). Calculations were carried out on the 136 cases imbedded in 39 DNA oligomers with repeating tetranucleotide sequences, capped on both ends by GC pairs and each having a total length of 15 nucleotide pairs. All MD simulations were carried out using a well-defined protocol, the AMBER suite of programs, and the parm94 force field. Phase I of the ABC project involves a total of approximately 0.6 mus of simulation for systems containing approximately 24,000 atoms. The resulting trajectories involve 600,000 coordinate sets and represent approximately 400 gigabytes of data. In this article, the research design, details of the simulation protocol, informatics issues, and the organization of the results into a web-accessible database are described. Preliminary results from 15-ns MD trajectories are presented for the d(CpG) step in its 10 unique sequence contexts, and issues of stability and convergence, the extent of quasiergodic problems, and the possibility of long-lived conformational substates are discussed. 相似文献
154.
Arg-14 loop of site 3 anemone toxins: effects of glycine replacement on toxin affinity 总被引:1,自引:0,他引:1
Anthopleurin B (ApB) is a high-affinity sea anemone neurotoxin that interacts with voltage-sensitive sodium (Na(V)) channels, causing a delay in channel inactivation. The solution structures of all known anemone toxins having this activity include a poorly defined region encompassing ApB residues 8-17, which we call the Arg-14 loop. We propose that the inherent mobility of the Arg-14 loop is necessary for the toxins' ability to maintain a high-affinity channel complex throughout the continual conformational transitions experienced by the channel during its functional cycle. We have previously shown that Arg-12, located in this loop, and Leu-18, which is adjacent, are important for ApB activity. Here, we characterized the role of two glycines located within the loop (Gly-10 and Gly-15) and an additional glycine positioned immediately C-terminal to it (Gly-20). We used site-directed replacement by alanine to assess the functional contribution to toxin binding of each of these residues singly and in combination. Gly-20 was found to be an essential toxin folding determinant; Gly-10 and Gly-15 were important for determining toxin affinity. Compared to wild-type toxin, the G10A and G15A toxins displayed significantly higher K(D) values for both cardiac (Na(V)1.5) and neuronal (Na(V)1.2) channels, although both demonstrated greater isoform discrimination for Na(V)1.5 than did wild-type ApB. For both G10A and G15A, significant Na(V) isoform differences were evident for on- and off-rates, with the most dramatic effect of a single mutation being the 467-fold reduction in the on-rate for G10A binding to Na(V)1.2, suggestive of a more accommodating binding site on Na(V)1.5 as compared to Na(V)1.2. Because alanine replacement of glycines is known to be associated with reduced backbone freedom, these results suggest an essential role for Arg-14 loop flexibility in toxin function, although a direct steric effect of the mutant methyl group cannot be excluded. 相似文献
155.
Antal TK Krendeleva TE Laurinavichene TV Makarova VV Ghirardi ML Rubin AB Tsygankov AA Seibert M 《Biochimica et biophysica acta》2003,1607(2-3):153-160
Chlamydomonas reinhardtii cultures, deprived of inorganic sulfur, undergo dramatic changes during adaptation to the nutrient stress [Biotechnol. Bioeng. 78 (2002) 731]. When the capacity for Photosystem II (PSII) O(2) evolution decreases below that of respiration, the culture becomes anaerobic [Plant Physiol. 122 (2000) 127]. We demonstrate that (a) the photochemical activity of PSII, monitored by in situ fluorescence, also decreases slowly during the aerobic period; (b) at the exact time of anaerobiosis, the remaining PSII activity is rapidly down regulated; and (c) electron transfer from PSII to PSI abruptly decreases at that point. Shortly thereafter, the PSII photochemical activity is partially restored, and H(2) production starts. Hydrogen production, which lasts for 3-4 days, is catalyzed by an anaerobically induced, reversible hydrogenase. While most of the reductants used directly for H(2) gas photoproduction come from water, the remaining electrons must come from endogenous substrate degradation through the NAD(P)H plastoquinone (PQ) oxido-reductase pathway. We propose that the induced hydrogenase activity provides a sink for electrons in the absence of other alternative pathways, and its operation allows the partial oxidation of intermediate photosynthetic carriers, including the PQ pool, between PSII and PSI. We conclude that the reduced state of this pool, which controls PSII photochemical activity, is one of the main factors regulating H(2) production under sulfur-deprived conditions. Residual O(2) evolved under these conditions is probably consumed mostly by the aerobic oxidation of storage products linked to mitochondrial respiratory processes involving both the cytochrome oxidase and the alternative oxidase. These functions maintain the intracellular anaerobic conditions required to keep the hydrogenase enzyme in the active, induced form. 相似文献
156.
Guanine-uracil (G.U) wobble base-pairs are a detrimental lesion in DNA. Previous investigations have shown that such wobble base-pairs are more prone to base-opening than the normal G.C base-pairs. To investigate the sequence-dependence of base-pair opening we have performed 5ns molecular dynamics simulations on G.U wobble base-pairs in two different sequence contexts, TGT/AUA and CGC/GUG. Furthermore, we have investigated the effect of replacing the guanine base in each sequence with a fluorescent guanine analogue, 6-methylisoxanthopterin (6MI). Our results indicate that each sequence opens spontaneously towards the major groove in the course of the simulations. The TGT/AUA sequence has a greater proportion of structures in the open state than the CGC/GUG sequence. Incorporation of 6MI yields wobble base-pairs that open more readily than their guanine counterparts. In order of increasing open population, the sequences are ordered as CGC相似文献
157.
Accumulation of ferrous iron in Chlamydomonas reinhardtii. Influence of CO2 and anaerobic induction of the reversible hydrogenase 总被引:2,自引:0,他引:2
Semin BK Davletshina LN Novakova AA Kiseleva TY Lanchinskaya VY Aleksandrov AY Seifulina N Ivanov II Seibert M Rubin AB 《Plant physiology》2003,131(4):1756-1764
The green alga, Chlamydomonas reinhardtii, can photoproduce molecular H(2) via ferredoxin and the reversible [Fe]hydrogenase enzyme under anaerobic conditions. Recently, a novel approach for sustained H(2) gas photoproduction was discovered in cell cultures subjected to S-deprived conditions (A. Melis, L. Zhang, M. Forestier, M.L. Ghirardi, M. Seibert [2000] Plant Physiol 122: 127-135). The close relationship between S and Fe in the H(2)-production process is of interest because Fe-S clusters are constituents of both ferredoxin and hydrogenase. In this study, we used M?ssbauer spectroscopy to examine both the uptake of Fe by the alga at different CO(2) concentrations during growth and the influence of anaerobiosis on the accumulation of Fe. Algal cells grown in media with (57)Fe(III) at elevated (3%, v/v) CO(2) concentration exhibit elevated levels of Fe and have two comparable pools of the ion: (a) Fe(III) with M?ssbauer parameters of quadrupole splitting = 0.65 mm s(-1) and isomeric shift = 0.46 mm s(-1) and (b) Fe(II) with quadrupole splitting = 3.1 mm s(-1) and isomeric shift = 1.36 mm s(-1). Disruption of the cells and use of the specific Fe chelator, bathophenanthroline, have demonstrated that the Fe(II) pool is located inside the cell. The amount of Fe(III) in the cells increases with the age of the algal culture, whereas the amount of Fe(II) remains constant on a chlorophyll basis. Growing the algae under atmospheric CO(2) (limiting) conditions, compared with 3% (v/v) CO(2), resulted in a decrease in the intracellular Fe(II) content by a factor of 3. Incubating C. reinhardtii cells, grown at atmospheric CO(2) for 3 h in the dark under anaerobic conditions, not only induced hydrogenase activity but also increased the Fe(II) content in the cells up to the saturation level observed in cells grown aerobically at high CO(2). This result is novel and suggests a correlation between the amount of Fe(II) cations stored in the cells, the CO(2) concentration, and anaerobiosis. A comparison of Fe-uptake results with a cyanobacterium, yeast, and algae suggests that the intracellular Fe(II) pool in C. reinhardtii may reside in the cell vacuole. 相似文献
158.
Neurotoxins have served as invaluable agents for identification, purification, and functional characterization of voltage-gated ion channels. Multiple classes of these toxins, which target voltage- gated Na+ channels via high-affinity binding to distinct but allosterically coupled sites, have been identified. The toxins are chemically diverse, including guanidinium heterocycles, a variety of structurally unrelated alkaloids, and multiple families of nonhomologous polypeptides having either related or distinct functions. This review describes the biochemistry and pharmacology of these agents, and summarizes the structure-function relationships underlying their interaction with molecular targets. In addition, we explore recent advances in the use of these toxins as molecular scaffolding agents, drugs, and insecticides. 相似文献
159.
Kosourov S Makarova V Fedorov AS Tsygankov A Seibert M Ghirardi ML 《Photosynthesis research》2005,85(3):295-305
Sulfur deprivation of algal cultures selectively and partially inactivates photosystem II (PSII)-catalyzed O2 evolution, induces anaerobiosis and hydrogenase expression, and results in sustained H2 photoproduction for several days. We show that re-addition of limiting amounts of sulfate (1–10 μM final concentration) to the cultures during the H2-production phase temporarily reactivates PSII photochemical and O2-evolution activity and re-establishes higher rates of electron transport through the photosynthetic electron transport chain. The reactivation of PSII occurs by de novo D1 protein synthesis, but does not result in the re-establishment of aerobic conditions in the reactor, detectable by dissolved-O2 sensors. However, concomitant H2 photoproduction is inhibited, possibly due to excessive intra-cellular levels of photosynthetically-evolved O2. The partial recovery of electron transport rates correlates with the re-oxidation of the plastoquinone (PQ) pool, as observed by pulse-amplitude modulated (PAM) and fluorescence-induction measurements. These results show that the presence of a more oxidized PQ pool releases some of the down-regulation of electron transport caused by the anaerobic conditions. 相似文献
160.
Stabilization of Isolated Photosystem II Reaction Center Complex in the Dark and in the Light Using Polyethylene Glycol and an Oxygen-Scrubbing System 总被引:1,自引:0,他引:1 下载免费PDF全文
The photosystem II reaction center as isolated (O Nanba, K Satoh [1987] Proc Natl Acad Sci USA 84: 109-112) is quite dilute and very unstable. Precipitating the complex with polyethylene glycol and resuspending it in buffer without detergent concentrates the reaction center and greatly improves its stability at 4°C in the dark as judged by light-induced electron transport activity. Furthermore, a procedure was developed to minimize photodestruction of polyethylene-glycol-concentrated material at room temperature in the light. The ability to stabilize the photosystem II reaction center should facilitate future photophysical, biochemical, and structural studies of the complex. 相似文献