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Des Spence 《BMJ (Clinical research ed.)》2008,336(7641):450
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Simone Des Roches Jack Torresdal Travis W. Morgan Luke J. Harmon Erica B. Rosenblum 《Biological journal of the Linnean Society. Linnean Society of London》2014,111(1):169-182
Determining which traits enable organisms to colonize and persist in new environments is key to understanding adaptation and ecological speciation. New environments can present novel selective pressures on colonists' morphology, behaviour, and performance, collectively referred to as ecomorphology. To investigate ecomorphological change during adaptation and incipient ecological speciation, we measured differences in morphology (body shape and size), behaviour (startle response), and performance (sprint speed) in three New Mexican lizard species: Holbrookia maculata, Sceloporus undulatus, and Aspidoscelis inornata. Each species is represented by dark morphs, cryptic on the brown adobe soils of the Chihuahuan Desert, and white morphs, cryptic on the gypsum substrate of White Sands. For each species, we then determined the effects of morphology and startle response on sprint speed on matched and mismatched substrate. For two of the three species, white morphs had larger body size and longer limbs. However, we found no statistical evidence that these morphological differences affected sprint speed. Colour morphs also exhibited different escape responses on the two substrates: in all species, dark morphs were less likely to immediately sprint from a simulated predator on white sand. As a result, escape response had a significant effect on sprint speed for two of the three species. Not surprisingly, all lizards sprinted faster on dark soil, which was probably due to the lizards' more immediate escape response and the higher compaction of dark soil. The relationship between escape response and sprint performance across the dark soil and white sand habitats suggests that behavioural differences may be an important component of adaptation and speciation in new environments. © 2013 The Linnean Society of London, Biological Journal of the Linnean Society, 2014, 111 , 169–182. 相似文献
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C3 shunt activation in human serum chelated with EGTA 总被引:55,自引:0,他引:55
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Biogeochemical transformations occurring in the anoxic zones of stratified sedimentary microbial communities can profoundly influence the isotopic and organic signatures preserved in the fossil record. Accordingly, we have determined carbon isotope discrimination that is associated with both heterotrophic and lithotrophic growth of pure cultures of sulfate-reducing bacteria (SRB). For heterotrophic-growth experiments, substrate consumption was monitored to completion. Sealed vessels containing SRB cultures were harvested at different time intervals, and δ13C values were determined for gaseous CO2, organic substrates, and products such as biomass. For three of the four SRB, carbon isotope effects between the substrates, acetate or lactate and CO2, and the cell biomass were small, ranging from 0 to 2‰. However, for Desulfotomaculum acetoxidans, the carbon incorporated into biomass was isotopically heavier than the available substrates by 8 to 9‰. SRB grown lithoautotrophically consumed less than 3% of the available CO2 and exhibited substantial discrimination (calculated as isotope fractionation factors [α]), as follows: for Desulfobacterium autotrophicum, α values ranged from 1.0100 to 1.0123; for Desulfobacter hydrogenophilus, the α value was 0.0138, and for Desulfotomaculum acetoxidans, the α value was 1.0310. Mixotrophic growth of Desulfovibrio desulfuricans on acetate and CO2 resulted in biomass with a δ13C composition intermediate to that of the substrates. The extent of fractionation depended on which enzymatic pathways were used, the direction in which the pathways operated, and the growth rate, but fractionation was not dependent on the growth phase. To the extent that environmental conditions affect the availability of organic substrates (e.g., acetate) and reducing power (e.g., H2), ecological forces can also influence carbon isotope discrimination by SRB. 相似文献
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Carroll J Field D O'Connor PM Cotter PD Coffey A Hill C Ross RP O'Mahony J 《Bioengineered bugs》2010,1(6):408-412
Nisin A is the most widely characterized lantibiotic investigated to date. It represents one of the many antimicrobial peptides which have been the focus of much interest as potential therapeutic agents. This has resulted in the search for novel lantibiotics and more commonly, the engineering of novel variants from existing peptides with a view to increasing their activity, stability and solubility.The aim of this study was to compare the activities of nisin A and novel bioengineered hinge derivatives, nisin S, nisin T and nisin V. The microtitre alamar blue assay (MABA) was employed to identify the enhanced activity of these novel variants against M. tuberculosis (H37Ra), M. kansasii (CIT11/06), M. avium subsp. hominissuis (CIT05/03) and M. avium subsp. paratuberculosis (MAP) (ATCC 19698). All variants displayed greater anti-mycobacterial activity than nisin A. Nisin S was the most potent variant against M. tuberculosis, M. kansasii and M. avium subsp. hominissuis, retarding growth by a maximum of 29% when compared with nisin A. Sub-species variations of inhibition were also observed with nisin S reducing growth of Mycobacterium avium subsp. hominissuis by 28% and Mycobacterium avium subsp. paratuberculosis by 19% and nisin T contrastingly reducing growth of MAP by 27% and MAC by 16%.Nisin S, nisin T and nisin V are potent novel anti-mycobacterial compounds, which have the capacity to be further modified, potentially generating compounds with additional beneficial characteristics. This is the first report to demonstrate an enhancement of efficacy by any bioengineered bacteriocin against mycobacteria. 相似文献
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Nitrogen monoxide (NO) is a vital effector and messenger molecule that plays roles in a variety of biological processes. Many of the functions of NO are mediated by its high affinity for iron (Fe) in the active centres of proteins. Indeed, NO possesses a rich coordination chemistry with this metal and the formation of dinitrosyl–dithiolato–Fe complexes (DNICs) is well known to occur intracellularly. In mammals, NO produced by activated macrophages acts as a cytotoxic effector against tumour cells by binding and releasing cancer cell Fe that is vital for proliferation. Glucose metabolism and the subsequent generation of glutathione (GSH) are critical for NO-mediated Fe efflux and this process occurs by active transport. Our previous studies showed that GSH is required for Fe mobilisation from tumour cells and we hypothesized it was effluxed with Fe as a dinitrosyl–diglutathionyl–Fe complex (DNDGIC). It is well known that Fe and GSH release from cells induces apoptosis, a crucial property for a cytotoxic effector like NO. Furthermore, NO-mediated Fe release is mediated from cells expressing the GSH transporter, multi-drug resistance protein 1 (MRP1). Interestingly, the glutathione-S-transferase (GST) enzymes act to bind DNDGICs with high affinity and some members of the GST family act as storage intermediates for these complexes. Since the GST enzymes and MRP1 form a coordinated system for removing toxic substances from cells, it is possible to hypothesize these molecules regulate NO levels by binding and transporting DNDGICs. 相似文献