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941.
Michael J. Andres Eric E. Pulis Stephen S. Curran Robin M. Overstreet 《Parasitology international》2018,67(6):805-815
Megasolena mikra sp. nov. is described from the queen angelfish, Holacanthus ciliaris (Linnaeus), off Florida, USA. The new species can be differentiated from all other species of Megasolena Linton, 1910 except Megasolena littoralis Muñoz, George-Nascimento, and Bray, 2017 in possessing testes that are smaller in diameter than the ovary. The new species can be differentiated from M. littoralis in lacking tegumental spines and possessing oral sucker papillae. Molecular data are provided for two species each of Cadenatella Dollfus, 1946, Hapladena Linton, 1910, and Megasolena Linton, 1910. Bayesian inference analysis of concatenated internal transcribed spacer region-2 (ITS2) and partial 28S rDNA sequences of 50 haploporoids revealed 1) a monophyletic Atractotrematidae Yamaguti, 1939 sister to the rest of the haploporoids tested; 2) a paraphyletic Megasoleninae Manter, 1935 – if Hapladena is included; and 3) a monophyletic Cadenatellinae Gibson and Bray, 1982 sister to the ‘mugilid’ haploporids. The ‘mugilid’ haploporids formed a monophyletic clade consisting of the subfamilies Chalcinotrematinae Overstreet and Curran, 2005, Forticulcitinae Blasco-Costa, Balbuena, Kostadinova, and Olson, 2009, Haploporinae Nicoll, 1914, and Waretrematinae Srivastava, 1937. Based on our analysis we restrict the Megasoleninae to include Megasolena, Vitellibaculum Montgomery, 1957, and Metamegasolena Yamaguti, 1970, all of which have species with two testes. To accommodate the former megasolenine taxa with a single testis, we erect the Hapladeninae subf. nov. for species in Hapladena and tentatively, Myodera Montgomery, 1957. Our results further support that haploporoids had a common marine ancestor with two testes, and that members of the Haploporoidea Nicoll, 1914 underwent diversification following a shift from a primarily marine life history with eupercarian hosts to a more euryhaline one with diadromous hosts (namely mullet). 相似文献
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Zarah?PattisonEmail authorView authors OrcID profile Robin?Whytock Nigel?Willby 《Biological invasions》2018,20(5):1189-1198
Riparian zones are formed by interactions between fluvio-geomorphological processes, such as sediment deposition, and biota, such as vegetation. Establishment of invasive alien plant (IAP) species along rivers may influence vegetation dynamics, evidenced as higher seasonal or inter-annual fluctuations in native plant diversity when IAP cover is high. This could impact the overall functioning of riparian ecosystems. Conversely, fine sediment deposited in riparian zones after floods may replenish propagule banks, thus supporting recruitment of native species. The interactive effects of invasion and fine sediment deposition have hitherto, however, been ignored. Vegetation surveys across rivers varying in flow regime were carried out over 2 years to assess changes in community composition and diversity. Artificial turf mats were used to quantify over-winter sediment deposition. The viable propagule bank in soil and freshly deposited sediment was then quantified by germination trials. Structural Equation Models were used to assess causal pathways between environmental variables, IAPs and native vegetation. Greater variation in flow increased the cover of IAPs along riverbanks. An increased in high flow events and sediment deposition were positively associated with the diversity of propagules deposited. However, greater diversity of propagules did not result in a more diverse plant community at invaded sites, as greater cover of IAPs in summer reduced native plant diversity. Seasonal turnover in the above-ground vegetation was also accentuated at previously invaded sites, suggesting that a legacy of increased competition in previous years, not recent sediment deposition, drives above-ground vegetation structure at invaded sites. The interaction between fluvial disturbance via sediment deposition and invasion pressure is of growing importance in the management of riparian habitats. Our results suggest that invasion can uncouple the processes that contribute to resilience in dynamic habitats making already invaded habitats vulnerable to further invasions. 相似文献
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Ying Wang Brian D. Carter Susan M. Gapstur Marjorie L. McCullough Mia M. Gaudet Victoria L. Stevens 《Metabolomics : Official journal of the Metabolomic Society》2018,14(10):129
Introduction
Processing delays after blood collection is a common pre-analytical condition in large epidemiologic studies. It is critical to evaluate the suitability of blood samples with processing delays for metabolomics analysis as it is a potential source of variation that could attenuate associations between metabolites and disease outcomes.Objectives
We aimed to evaluate the reproducibility of metabolites over extended processing delays up to 48 h. We also aimed to test the reproducibility of the metabolomics platform.Methods
Blood samples were collected from 18 healthy volunteers. Blood was stored in the refrigerator and processed for plasma at 0, 15, 30, and 48 h after collection. Plasma samples were metabolically profiled using an untargeted, ultrahigh performance liquid chromatography–tandem mass spectrometry (UPLC–MS/MS) platform. Reproducibility of 1012 metabolites over processing delays and reproducibility of the platform were determined by intraclass correlation coefficients (ICCs) with variance components estimated from mixed-effects models.Results
The majority of metabolites (approximately 70% of 1012) were highly reproducible (ICCs?≥?0.75) over 15-, 30- or 48-h processing delays. Nucleotides, energy-related metabolites, peptides, and carbohydrates were most affected by processing delays. The platform was highly reproducible with a median technical ICC of 0.84 (interquartile range 0.68–0.93).Conclusion
Most metabolites measured by the UPLC–MS/MS platform show acceptable reproducibility up to 48-h processing delays. Metabolites of certain pathways need to be interpreted cautiously in relation to outcomes in epidemiologic studies with prolonged processing delays.945.
Strategies to assess and optimize stability of endogenous amines during cerebrospinal fluid sampling
Marek J. Noga Ronald Zielman Robin M. van Dongen Sabine Bos Amy Harms Gisela M. Terwindt Arn M. J. M. van den Maagdenberg Thomas Hankemeier Michel D. Ferrari 《Metabolomics : Official journal of the Metabolomic Society》2018,14(4):44
Introduction
Metabolic profiling of cerebrospinal fluid (CSF) is a promising technique for studying brain diseases. Measurements should reflect the in vivo situation, so ex vivo metabolism should be avoided.Objective
To investigate the effects of temperature (room temperature vs. 4 °C), centrifugation and ethanol, as anti-enzymatic additive during CSF sampling on concentrations of glutamic acid, glutamine and other endogenous amines.Methods
CSF samples from 21 individuals were processed using five different protocols. Isotopically-labeled alanine, isoleucine, glutamine, glutamic acid and dopamine were added prior to sampling to trace any degradation. Metabolomics analysis of endogenous amines, isotopically-labeled compounds and degradation products was performed with a validated LC–MS method.Results
Thirty-six endogenous amines were quantified. There were no statistically significant differences between sampling protocols for 31 out of 36 amines. For GABA there was primarily an effect of temperature (higher concentrations at room temperature than at 4 °C) and a small effect of ethanol (lower concentrations if added) due to possible degradation. O-phosphoethanolamine concentrations were also lower when ethanol was added. Degradation of isotopically-labeled compounds (e.g. glutamine to glutamic acid) was minor with no differences between protocols.Conclusion
Most amines can be considered stable during sampling, provided that samples are cooled immediately to 4 °C, centrifuged, and stored at ??80 °C within 2 h. The effect of ethanol addition for more unstable metabolites needs further investigation. This was the first time that labeled compounds were used to monitor ex vivo metabolism during sampling. This is a useful strategy to study the stability of other metabolites of interest.946.
Courtney P. Leisner John P. Hamilton Emily Crisovan Norma C. Manrique‐Carpintero Alexandre P. Marand Linsey Newton Gina M. Pham Jiming Jiang David S. Douches Shelley H. Jansky C. Robin Buell 《The Plant journal : for cell and molecular biology》2018,94(3):562-570
Cultivated potato (Solanum tuberosum L.) is a highly heterozygous autotetraploid that presents challenges in genome analyses and breeding. Wild potato species serve as a resource for the introgression of important agronomic traits into cultivated potato. One key species is Solanum chacoense and the diploid, inbred clone M6, which is self‐compatible and has desirable tuber market quality and disease resistance traits. Sequencing and assembly of the genome of the M6 clone of S. chacoense generated an assembly of 825 767 562 bp in 8260 scaffolds with an N50 scaffold size of 713 602 bp. Pseudomolecule construction anchored 508 Mb of the genome assembly into 12 chromosomes. Genome annotation yielded 49 124 high‐confidence gene models representing 37 740 genes. Comparative analyses of the M6 genome with six other Solanaceae species revealed a core set of 158 367 Solanaceae genes and 1897 genes unique to three potato species. Analysis of single nucleotide polymorphisms across the M6 genome revealed enhanced residual heterozygosity on chromosomes 4, 8 and 9 relative to the other chromosomes. Access to the M6 genome provides a resource for identification of key genes for important agronomic traits and aids in genome‐enabled development of inbred diploid potatoes with the potential to accelerate potato breeding. 相似文献
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