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I. I. LEVIN P. ZWIERS S. L. DEEM E. A. GEEST J. M. HIGASHIGUCHI T. A. IEZHOVA G. JIMÉNEZ‐UZCÁTEGUI D. H. KIM J. P. MORTON N. G. PERLUT R. B. RENFREW E. H. R. SARI G. VALKIUNAS P. G. Parker 《Conservation biology》2013,27(6):1366-1377
Haemosporidian parasites in the genus Plasmodium were recently detected through molecular screening in the Galapagos Penguin (Spheniscus mendiculus). We summarized results of an archipelago‐wide screen of 3726 endemic birds representing 22 species for Plasmodium spp. through a combination of molecular and microscopy techniques. Three additional Plasmodium lineages were present in Galapagos. Lineage A–infected penguins, Yellow Warblers (Setophaga petechia aureola), and one Medium Ground Finch (Geospiza fortis) was detected at multiple sites in multiple years. The other 3 lineages were each detected at one site and at one time; apparently, they were transient infections of parasites not established on the archipelago. No gametocytes were found in blood smears of infected individuals; thus, endemic Galapagos birds may be dead‐end hosts for these Plasmodium lineages. Determining when and how parasites and pathogens arrive in Galapagos is key to developing conservation strategies to prevent and mitigate the effects of introduced diseases. To assess the potential for Plasmodium parasites to arrive via migratory birds, we analyzed blood samples from 438 North American breeding Bobolinks (Dolichonyx oryzivorus), the only songbird that regularly migrates through Galapagos. Two of the ephemeral Plasmodium lineages (B and C) found in Galapagos birds matched parasite sequences from Bobolinks. Although this is not confirmation that Bobolinks are responsible for introducing these lineages, evidence points to higher potential arrival rates of avian pathogens than previously thought. Linajes Múltiples de Parásitos de Malaria Aviar (Plasmodium) en las Islas Galápagos y Evidencia de su Arribo por Medio de Aves Migratorias 相似文献
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Rahman A Seth D Mukhopadhyaya SK Brahmachary RL Ulrichs C Goswami A 《Die Naturwissenschaften》2009,96(1):31-38
Cellular interactions with engineered nanoparticles (NPs) are dependent on many properties, inherent to the nanoparticle (viz.
size, shape, surface characteristics, degradation, agglomeration/dispersal, and charge, etc.). Modification of the surface
reactivity via surface functionalization of the nanoparticles to be targeted seems to be important. Utilization of different
surface functionalization methods of nanoparticles is an emerging field of basic and applied nanotechnology. It is well known
that many disease-causing organisms induce host lipids and if deprived, their growth is inhibited in vivo. Amorphous nanosilica
(ANS) and amorphous microsilica with nanopores (AMS) were prepared by a combination of wet chemistry and high-energy ball
milling. Lipophilic moieties were attached to both ANS and AMS via chemical surface functionalization method. Lipophilic ANS
and AMS were found to inhibit the growth of Bombyx mori nuclear polyhedrosis virus (BmNPV) and chicken malarial parasites via absorption of silkworm hemolymph and chicken serum
lipids/lipoproteins, respectively, in vivo. Therefore, intelligent surface functionalization of NP is an important concept,
and its application in curing chicken malaria and BmNPV is presented here. Surface functionalization method reported in this
paper might serve as a valuable technology for treating many diseases where pathogens induce host lipid. 相似文献
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