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271.
Contrasting demographic history and gene flow patterns of two mangrove species on either side of the Central American Isthmus
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Ivania Cerón‐Souza Elena G. Gonzalez Andrea E. Schwarzbach Dayana E. Salas‐Leiva Elsie Rivera‐Ocasio Nelson Toro‐Perea Eldredge Bermingham W. Owen McMillan 《Ecology and evolution》2015,5(16):3486-3499
Comparative phylogeography offers a unique opportunity to understand the interplay between past environmental events and life‐history traits on diversification of unrelated but co‐distributed species. Here, we examined the effects of the quaternary climate fluctuations and palaeomarine currents and present‐day marine currents on the extant patterns of genetic diversity in the two most conspicuous mangrove species of the Neotropics. The black (Avicennia germinans, Avicenniaceae) and the red (Rhizophora mangle, Rhizophoraceae) mangroves have similar geographic ranges but are very distantly related and show striking differences on their life‐history traits. We sampled 18 Atlantic and 26 Pacific locations for A. germinans (N = 292) and R. mangle (N = 422). We performed coalescence simulations using microsatellite diversity to test for evidence of population change associated with quaternary climate fluctuations. In addition, we examined whether patterns of genetic variation were consistent with the directions of major marine (historical and present day) currents in the region. Our demographic analysis was grounded within a phylogeographic framework provided by the sequence analysis of two chloroplasts and one flanking microsatellite region in a subsample of individuals. The two mangrove species shared similar biogeographic histories including: (1) strong genetic breaks between Atlantic and Pacific ocean basins associated with the final closure of the Central American Isthmus (CAI), (2) evidence for simultaneous population declines between the mid‐Pleistocene and early Holocene, (3) asymmetric historical migration with higher gene flow from the Atlantic to the Pacific oceans following the direction of the palaeomarine current, and (4) contemporary gene flow between West Africa and South America following the major Atlantic Ocean currents. Despite the remarkable differences in life‐history traits of mangrove species, which should have had a strong influence on seed dispersal capability and, thus, population connectivity, we found that vicariant events, climate fluctuations and marine currents have shaped the distribution of genetic diversity in strikingly similar ways. 相似文献
272.
Loss of genetic diversity is thought to lead to increased risk of extinction in endangered populations due to decreasing fitness of homozygous individuals. Here, we evaluated the presence of inbreeding depression in a long‐lived seabird, the European shag (Phalacrocorax aristotelis), after a severe decline in population size by nearly 70%. During three reproductive seasons, 85 breeders were captured and genotyped at seven microsatellite loci. Nest sites were monitored during the breeding season to estimate reproductive success as the number of chicks surviving to full‐size‐grown per nest. Captured birds were tagged with a ring with an individual code, and resighting data were collected during 7‐year period. We found a strong effect of multilocus heterozygosity on female reproductive performance, and a significant, although weaker, effect on breeder survival. However, our matrix population model suggests that this relatively small effect of genetic diversity on breeder survival may have a profound effect on fitness. This highlights the importance of integrating life history consequences in HFC studies. Importantly, heterozygosity was correlated across loci, suggesting that genomewide effects, rather than single loci, are responsible for the observed HFCs. Overall, the HFCs are a worrying symptom of genetic erosion in this declining population. Many long‐lived species are prone to extinction, and future studies should evaluate the magnitude of fitness impact of genetic deterioration on key population parameters, such as survival of breeders. 相似文献
273.
Jeffrey L. Urbauer Aaron B. Cowley Hayley P. Broussard Henry T. Niedermaier Ramona J. Bieber Urbauer 《Proteins》2015,83(6):1137-1150
In Pseudomonas aeruginosa, the algH gene regulates the cellular concentrations of a number of enzymes and the production of several virulence factors, and is suggested to serve a global regulatory function. The precise mechanism by which the algH gene product, the AlgH protein, functions is unknown. The same is true for AlgH family members from other bacteria. In order to lay the groundwork for understanding the physical underpinnings of AlgH function, we examined the structure and physical properties of AlgH in solution. Under reducing conditions, results of NMR, electrophoretic mobility, and sedimentation equilibrium experiments indicate AlgH is predominantly monomeric and monodisperse in solution. Under nonreducing conditions intra and intermolecular disulfide bonds form, the latter promoting AlgH oligomerization. The high‐resolution solution structure of AlgH reveals alpha/beta‐sandwich architecture fashioned from ten beta strands and seven alpha helices. Comparison with available structures of orthologues indicates conservation of overall structural topology. The region of the protein most strongly conserved structurally also shows the highest amino acid sequence conservation and, as revealed by hydrogen‐deuterium exchange studies, is also the most stable. In this region, evolutionary trace analysis identifies two clusters of amino acid residues with the highest evolutionary importance relative to all other AlgH residues. These frame a partially solvent exposed shallow hydrophobic cleft, perhaps identifying a site for intermolecular interactions. The results establish a physical foundation for understanding the structure and function of AlgH and AlgH family proteins and should be of general importance for further investigations of these and related proteins. Proteins 2015; 83:1137–1150. © 2015 Wiley Periodicals, Inc. 相似文献
274.
Joanna Pieprzyk Agnieszka ZbelaMichał Jakób Andrzej OżyharMarek Orłowski 《Biochimica et Biophysica Acta - Proteins and Proteomics》2014,1844(6):1153-1166
The mosquito Aedes aegypti is the principal vector of dengue, one of the most devastating arthropod-borne viral infections in humans. The isoform specific A/B region, called the N-terminal domain (NTD), is hypervariable in sequence and length and is poorly conserved within the Ultraspiracle (Usp) family. The Usp protein together with ecdysteroid receptor (EcR) forms a heterodimeric complex. Up until now, there has been little data on the molecular properties of the isolated Usp-NTD. Here, we describe the biochemical and biophysical properties of the recombinant NTD of the Usp isoform B (aaUsp-NTD) from A. aegypti. These results, in combination with in silico bioinformatics approaches, indicate that aaUsp-NTD exhibits properties of an intrinsically disordered protein (IDP). We also present the first experimental evidence describing the dimerization propensity of the isolated NTD of Usp. These characteristics also appear for other members of the Usp family in different species, for example, in the Usp-NTD from Drosophila melanogaster and Bombyx mori. However, aaUsp-NTD exhibits the strongest homodimerization potential. We postulate that the unique dimerization of the NTD might be important for Usp function by providing an additional platform for interactions, in addition to the nuclear receptor superfamily dimerization via DNA binding domains and ligand binding domains that has already been extensively documented. Furthermore, the unique NTD–NTD interaction that was observed might contribute new insight into the dimerization propensities of nuclear receptors. 相似文献
275.
Hideki Nagasaki Takako Mochizuki Yuichi Kodama Satoshi Saruhashi Shota Morizaki Hideaki Sugawara Hajime Ohyanagi Nori Kurata Kousaku Okubo Toshihisa Takagi Eli Kaminuma Yasukazu Nakamura 《DNA research》2013,20(4):383-390
High-performance next-generation sequencing (NGS) technologies are advancing genomics and molecular biological research. However, the immense amount of sequence data requires computational skills and suitable hardware resources that are a challenge to molecular biologists. The DNA Data Bank of Japan (DDBJ) of the National Institute of Genetics (NIG) has initiated a cloud computing-based analytical pipeline, the DDBJ Read Annotation Pipeline (DDBJ Pipeline), for a high-throughput annotation of NGS reads. The DDBJ Pipeline offers a user-friendly graphical web interface and processes massive NGS datasets using decentralized processing by NIG supercomputers currently free of charge. The proposed pipeline consists of two analysis components: basic analysis for reference genome mapping and de novo assembly and subsequent high-level analysis of structural and functional annotations. Users may smoothly switch between the two components in the pipeline, facilitating web-based operations on a supercomputer for high-throughput data analysis. Moreover, public NGS reads of the DDBJ Sequence Read Archive located on the same supercomputer can be imported into the pipeline through the input of only an accession number. This proposed pipeline will facilitate research by utilizing unified analytical workflows applied to the NGS data. The DDBJ Pipeline is accessible at http://p.ddbj.nig.ac.jp/. 相似文献
276.
Although a series of biomarkers are widely used for the estimation of oxidative damage to biomolecules, validations of the analytical methods have seldom been presented. Formal validation, that is the study of the analytical performances of a method, is however recognized as the best safeguard against the generation and publication of data with low reliability. Classical validation parameters were investigated for the determination of an oxidative stress biomarker, 8-oxo-7,8-dihydro-2′-deoxyguanosine (8-oxo-dG) in cellular DNA, by high-performance liquid chromatography coupled to amperometric detection (HPLC-EC); this modified base is increasingly considered as a marker of oxidative damage to DNA, but many questions are still raised on the analytical methods in use. Upon a rigorous statistical evaluation of the quality criteria currently required for assays in biological media, including selectivity, linearity, accuracy, repeatability, sensitivity, limits of detection and quantification, ruggedness and storage at different stop points in the procedure, the HPLC-EC assay method is found mostly reliable.The present validation attempt demonstrates that (i) the HPLC-EC assay of 8-oxo-dG provides consistent data allowing to reliably detect an increase of this biomarker in cellular DNA; (ii) a harsh oxidative stress does not hinder the enzymatic digestion of DNA by nuclease P1; and (iii) the analytical results must be expressed relative to the internal standard dG which significantly improves both repeatability and sensitivity. Whereas the described assay minimizes the artifactual production of the analyte from processing and storage, this cannot be totally ruled out; the true 8-oxo-dG base levels still lack a definitive assay method, which remains a considerable analytical challenge and the object of controversy. 相似文献
277.
278.
Spyridon Konstantinidis Simyee Kong Nigel Titchener‐Hooker 《Biotechnology and bioengineering》2013,110(7):1924-1935
In recent years, high throughput screening (HTS) studies have been increasingly employed as an integral element of bioprocess development activities. These studies are often limited by an analytical bottleneck; they generate multiple samples for analysis and the available analytical methods cannot always cope with the added analytical burden. A potential solution to this challenge is offered by the deployment of appropriate analytics. This article outlines features of analytical methods that affect their fit to high throughput (HT) applications. These are discussed for a range of analytics frequently used in bioprocess development studies of monoclonal antibodies. It then outlines how these features need to be considered in order to classify analytical methods in terms of their particular application in high throughput scenarios. Biotechnol. Bioeng. 2013; 110: 1924–1935. © 2013 Wiley Periodicals, Inc. 相似文献
279.
Richard B. Gillis Arthur J. Rowe Gary G. Adams Stephen E. Harding 《Biotechnology & genetic engineering reviews》2013,29(2):142-157
This short review considers the range of modern techniques for the hydrodynamic characterisation of macromolecules – particularly large glycosylated systems used in the food, biopharma and healthcare industries. The range or polydispersity of molecular weights and conformations presents special challenges compared to proteins. The review is aimed, without going into any great theoretical or methodological depth, to help the Industrial Biotechnologist choose the appropriate methodology or combination of methodologies for providing the detail he/she needs for particular applications. 相似文献
280.
Christian Löw Per Moberg Esben M. Quistgaard Marie Hedrén Fatma Guettou Jens Frauenfeld Lars Haneskog Pär Nordlund 《Biochimica et Biophysica Acta (BBA)/General Subjects》2013