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101.
Geoffrey M. White 《American anthropologist》2003,105(1):164-167
Represented Communities: Fiji and World Decolonization. John D. Kelly and Martha Kaplan. Chicago: University of Chicago Press, 2001. 243 pp.
Cultural Memory: Reconfiguring History and Identity in the Postcolonial Pacific. Jeannerte Marie Mageo. Honolulu: University of Hawai'i Press, 2001. 222 pp.
In Colonial New Guinea: Anthropological Perspectives. Naomi M. McPherson. ed. Pittsburgh: University of Pittsburgh Press, 2001. 264 pp. 相似文献
Cultural Memory: Reconfiguring History and Identity in the Postcolonial Pacific. Jeannerte Marie Mageo. Honolulu: University of Hawai'i Press, 2001. 222 pp.
In Colonial New Guinea: Anthropological Perspectives. Naomi M. McPherson. ed. Pittsburgh: University of Pittsburgh Press, 2001. 264 pp. 相似文献
102.
Electron microscopy, in conjunction with X-ray microanalysis, was used to investigate the effects of exposure to cadmium on the elemental composition of the macroalgaUlva lactuca. The cell wall was the only region of the cell to show any marked change in chemical composition as a result of exposure to cadmium, with less calcium evident in cadmium-treated thallus compared with untreated thalli. The cell wall ofU. lactuca is a complex structure made up of polysaccharides consisting of many-branched chains composed mostly of rhamnose and galactose subunits. Some of the hydroxyl groups on the subunits are substituted by sulphate groups. Borate is associated with the rhamnose subunits, which contain no sulphate groups, and calcium binds to borate, cross-linking the rhamnose groups. The borate-calcium complex adds rigidity to the cell wall; the replacement of calcium by cadmium will, therefore, influence the rigidity of the thallus. The ecological significance of this work is discussed with respect to the ability of the alga to withstand grazing or emersion. 相似文献
103.
104.
Mark A. Brown Alan Carne Geoffrey K. Chambers 《Comparative biochemistry and physiology. Part B, Biochemistry & molecular biology》1996,113(4):731-736
α2-Macroglobulin (α2-M), a large molecular mass proteinase-binding protein, was identified in plasma from tuatara (Sphenodon), a rare reptile endemic to New Zealand. In this genus, α2-M constitutes 11–13% of total plasma protein (∼2.2–3.9 mg/ml). Analysis of blood samples collected at approximately monthly intervals from individual tuatara indicated that the plasma level of α2-M remains fairly constant. The subunits of tuatara α2-M have an apparent molecular mass of ∼160 kDa as determined by SDS-polyacrylamide gel electrophoresis and the intact protein is an oligomer that contains inter-chain disulfide bonds. N-terminal sequence analyses of tuatara α2-M revealed a distinct similarity to α-macroglobulins of other vertebrates and that at least two types of α2-M subunits are present in plasma of tuatara. 相似文献
105.
Collings David A.; Wasteneys Geoffrey O.; Williamson Richard E. 《Plant & cell physiology》1995,36(5):765-772
The cortical cytoplasm of the alga Nitella contains reticulateactin that does not survive perfusion fixation with glutaraldehydeunless prestabilized with the cross-linker 3-maleimidobenzoyl-N-hydroxysuccinimidester (MBS). Cytochalasin D remodels thiscortical actin into short rods which are more stable, survivingaldehyde fixation without MBS pre-treatment. The overall alignmentof these actin rods correlates with that of cortical microtubules(transverse in young cells, random in old cells) but probablydoes not involve one-to-one correspondence. The time course,dose dependence and reversibility of these structural changesbroadly resemble those for streaming inhibition by cytochalasinbut the cortical actin responds to concentrations that do notslow streaming. Because the structural changes concern the corticaland not the subcortical actin, they seem unlikely to directlyinhibit streaming. Formation of cortical rods is not a responseto streaming inhibition per se since it does not occur whentwo other inhibitors of streaming (2,4-dinitrophenol (DNP) andNethyl maleimide (NEM)) are used. NEM, however, resembles MBSin stabilizing the reticulate form of cortical actin even thoughit cannot cross link.
1Address from July 1995; Department of Biology, Faculty of Science,Osaka University, Machikaneyama 1-1, Tayonaka, Osaka, 560 Japan. 相似文献
106.
Geoffrey Fryer 《Hydrobiologia》1995,307(1-3):57-68
The distinctness of the Anomopoda and the polyphyletic nature of the so-called Cladocera are emphasized.An attempt is made to reconstruct the ancestral anomopod, which probably lived in Palaeozoic times. This task is facilitated by the availability of detailed information on extant forms, which includes functional as well as purely morphological considerations and enables us to understand the means whereby complex mechanisms were transformed during evolution. Comparative studies on the ecology and habits of extant forms also throw light on the probable way of life of the ancestral anomopod.Adaptive radiation within the Anomopoda is briefly surveyed and an outline of the suggested phylogeny of the order is indicated.Institute of Environmental and Biological Sciences, University of Lancaster 相似文献
107.
Effect of inhA and katG on isoniazid resistance and virulence of Mycobacterium bovis 总被引:10,自引:1,他引:9
Theresa M. Wilson Geoffrey W. de Lisle Desmond M. Collins 《Molecular microbiology》1995,15(6):1009-1015
Isoniazid (INH) resistance of the Mycobacterium tuberculosis Complex (MtbC) is associated with both loss of catalase activity and mutation of the inhA gene. However, the relative contributions of these changes to resistance and to the loss of virulence for guinea-pigs is unknown. In this study, a virulent strain of Mycobacterium bovis, a member of the MtbC., was exposed to increasing concentrations of INH. Two INH-resistant strains were produced which had lost catalase activity. Strain WAg405, which had a higher resistance to INH, also had a mutation in the inhA gene. This demonstrated that loss of catalase activity and mutation of inhA had a cumulative effect on INH resistance. When a functional katG gene was integrated into the genome of WAg405 the INH resistance was greatly reduced. This indicated that most of the resistance had been caused by loss of catalase activity. While the parent INH-sensitive strain was virulent for guinea-pigs, the INH-resistant strains were significantly less virulent. Integration of a functional katG gene into the most resistant strain restored full virulence. This clearly established that katG is a virulence factor for M. bovis and that mutation of the inhA gene has no effect on virulence. 相似文献
108.
Peter B. Høj Geoffrey B. Fincher 《The Plant journal : for cell and molecular biology》1995,7(3):367-379
The evolutionary relationships of two classes of plant β-glucan endohydrolases have been examined by comparison of their substrate specificities, their three-dimensional conformations and the structural features of their corresponding genes. These comparative studies provide compelling evidence that the (1→3)-β-glucanases and (1→3,1→4)-β-glucanases from higher plants share a common ancestry and, in all likelihood, that the (1→3,1→4)-β-glucanases diverged from the (1→3)-β-glucanases during the appearance of the graminaceous monocotyledons. The evolution of (1→3,1→4)-β-glucanases from (1→3)-β-glucanases does not appear to have invoked ‘modular’ mechanisms of change, such as those caused by exon shuffling or recombination. Instead, the shift in specificity has been acquired through a limited number of point mutations that have resulted in amino acid substitutions along the substrate-binding cleft. This is consistent with current theories that the evolution of new enzymic activity is often achieved through duplication of the gene encoding an existing enzyme which is capable of performing the required chemistry, in this case the hydrolysis of a glycosidic linkage, followed by the mutational alteration and fine-tuning of substrate specificity. The evolution of a new specificity has enabled a dramatic shift in the functional capabilities of the enzymes. (1→3)-β-Glucanases that play a major role, inter alia, in the protection of the plant against pathogenic microorganisms through their ability to hydrolyse the (1→3)-β-glucans of fungal cell walls, appear to have been recruited to generate (1→3,1→4)-β-glucanases, which quite specifically hydrolyse plant cell wall (1→3,1→4)-β-glucans in the graminaecous monocotyledons during normal wall metabolism. Thus, one class of β-glucan endohydrolase can degrade β-glucans in fungal walls, while the other hydrolyses structurally distinct β-glucans of plant cell walls. Detailed information on the three-dimensional structures of the enzymes and the identification of catalytic amino acids now present opportunities to explore the precise molecular and atomic details of substrate-binding, catalytic mechanisms and the sequence of molecular events that resulted in the evolution of the substrate specificities of the two classes of enzyme. 相似文献
109.
Secondary substrate utilization of methylene chloride by an isolated strain of Pseudomonas sp 总被引:2,自引:0,他引:2
L T LaPat-Polasko P L McCarty A J Zehnder 《Applied and environmental microbiology》1984,47(4):825-830
Secondary substrate utilization of methylene chloride was analyzed by using Pseudomonas sp. strain LP. Both batch and continuously fed reactors demonstrated that this strain was capable of simultaneously consuming two substrates at different concentrations: the primary substrate at the higher concentration (milligrams per liter) and the secondary substrate at the lower concentration (micrograms per liter). The rate of methylene chloride utilization at trace concentrations was greater in the presence of the primary substrate, acetate, than without it. However, when the substrate roles were changed, the acetate secondary substrate utilization rate was less when methylene chloride was present. Thus, substrate interactions are important in the kinetics of secondary substrate utilization. Pseudomonas sp. strain LP showed a preference toward degrading methylene chloride over acetate, whether it was the primary or secondary substrate, providing it was below an inhibitory concentration of ca. 10 mg/liter. 相似文献
110.
Several cytochromes c2 from the Rhodospirillaceae show a pH dependence of redox potential in the physiological pH range which can be described by equations involving an ionisation in the oxidised form (pKo) and one in the reduced form (pKr). These cytochromes fall into one of two groups according to the degree of separation of pKo and pKr. In group A, represented here by the Rhodomicrobium vannielii cytochrome c2, the separation is approx. one pH unit and the ionisation is that of a haem propionic acid. Members of this group are unique among both cytochromes c2 and mitochondrial cytochromes c in lacking the conserved residue Arg-38. We propose that the role of Arg-38 is to lower the pK of the nearby propionic acid, so that it lies out of the physiological pH range. Substitution of this residue by an uncharged amino acid leads to a raised pK for the propionic acid. In group B, represented here by Rhodopseudomonas viridis cytochrome c2, the separation between pKo and pKr is approx. 0.4 pH unit and the ionisable group is a histidine at position 39. This was established by NMR spectroscopy and confirmed by chemical modification. Only a few other members of the cytochrome c2/mitochondrial cytochrome c family have a histidine at this position and of these, both Crithidia cytochrome c-557 and yeast cytochrome c were found to have a pH-dependent redox potential similar to that of Rps. viridis cytochrome c2. Using Coulomb's law, it was found that the energy required to separate pKo and pKr could be accounted for by simple electrostatic interactions between the haem iron and the ionisable group. 相似文献