43,077 research outputs found
The cumulative impacts of climate change and fishing on marine communities
Doctoral thesis (PhD) – Nord University, 2014publishedVersio
Erratum to: Effect of moderate red wine intake on cardiac prognosis after recent acute myocardial infarction of subjects with Type 2 diabetes mellitus (Diabetic Medicine, (2006), 23, 9, (974-981), 10.1111/j.1464-5491.2006.01886.x)
In an article by Marfella et al, the author name C. Saron is incorrect and should be listed as C. Sardu. Therefore the correct author list is: R. Marfella, F. Cacciapuoti, M. Siniscalchi, F. C. Sasso, F. Marchese, F. Cinone, E. Musacchio, M. A. Marfella, L. Ruggiero, G. Chiorazzo, D. Liberti, G. Chiorazzo, G. F. Nicoletti, C. Sardu, F. D'Andrea, C. Ammendola, M. Verza and L. Coppola.In an article by Marfella et al, the author name C. Saron is incorrect and should be listed as C. Sardu. Therefore the correct author list is: R. Marfella, F. Cacciapuoti, M. Siniscalchi, F. C. Sasso, F. Marchese, F. Cinone, E. Musacchio, M. A. Marfella, L. Ruggiero, G. Chiorazzo, D. Liberti, G. Chiorazzo, G. F. Nicoletti, C. Sardu, F. D'Andrea, C. Ammendola, M. Verza and L. Coppola
[Memo from Lieutenant Colonel M. F. Hass, Civil Affairs Division, with amendments to an evacuation proposal]
A memorandum sent form Lieutenant General M. F. Hass, Civil Affairs Division, which has two corrections from a an evacuation proposal originally sent on May 13, 1942. The correction changes the destination to the Merced Assembly Center.The War Relocation Authority (WRA), together with the Wartime Civil Control Administration (WCCA), the Civil Affairs Division (CAD) and the Office of the Commanding General (OFG) of the Western Defense Command (WDC) operated together to segregate and house some 110,000 men women and children from 1942 to 1945. The collection contains documents and photographs relating to the establishment and administrative workings of the (WDC), the (WRA) and the (WCCA) for the year 1942
ATM and the DNA damage response - Workshop on ataxia-telangiectasia and related syndromes
Corrigendum to “Presence and function of kisspeptin/KISS1R system in swine ovarian follicles” (Theriogenology (2018) 115 (1–8), (S0093691X1830147X), (10.1016/j.theriogenology.2018.04.006))
The authors regret the following changes to the author group G. Basinia, F. Grassellia, S. Bussolatia, R. Ciccimarraa, M. Maranesib, A. Bufalarib, C. Dall'Agliob, F. Parilloc,#, M. Zeranib,c,*. a Dipartimento di Scienze Mediche Veterinarie, Università di Parma, 43126 Parma, Italy. b Dipartimento di Medicina Veterinaria, Università di Perugia, 06126 Perugia Italy. c Scuola di Bioscienze e Medicina Veterinaria, Università di Camerino, 62024 Matelica Italy. # Deceased. * Corresponding author: tel.: +39 0755857642; fax +39 0755857654. E-mail address: [email protected] (M. Zerani). And to the acknowledgements and figures
[Memo from Lieutenant Colonel M. F. Hass, Civil Affairs Division, with amendments to an evacuation proposal]
A memorandum sent form Lieutenant General M. F. Hass, Civil Affairs Division, which has two corrections from a an evacuation proposal originally sent on May 11, 1942. The first correction changes the number of evacuees to 275 people, and the second correction changes the destination to Tanforan Assembly Center.The War Relocation Authority (WRA), together with the Wartime Civil Control Administration (WCCA), the Civil Affairs Division (CAD) and the Office of the Commanding General (OFG) of the Western Defense Command (WDC) operated together to segregate and house some 110,000 men women and children from 1942 to 1945. The collection contains documents and photographs relating to the establishment and administrative workings of the (WDC), the (WRA) and the (WCCA) for the year 1942
A Phylogenetic Analysis Of Molecular And Morphological Data Reveals A Paraphyletic Poecilanthe (leguminosae, Papilionoideae)
Separate and combined Maximum Likelihood and Bayesian analyses of the papilionoid legume genus Poecilanthe sensu lato (Leguminosae) and other Genistoid genera were performed using molecular (nuclear ribosomal and chloroplast matK) and morphological data. The data are in excellent agreement that Poecilanthe is paraphyletic with respect to other genera of the tribe Brongniartieae. Each of the three independent lineages of Poecilanthe sensu lato combines a morphological, geographical, and ecological distinction. They will be ranked at the genus level and Poecilanthe sensu stricto is recircumscribed to encompass the extra-Amazonian species that occur in highly seasonal dry forests.39411421149Arroyo, M.T.K., The systematics of the legume genus harpalyce (leguminosae: Lotoideae (1976) Memoirs of the New York Botanical Garden, 26, pp. 1-80Bailey, C.D., Carr, T.G., Harris, S.A., Hughes, C.E., Characterization of angiosperm nrdna polymorphism, paralogy, and pseudogenes (2003) Molecular Phylogenetics and Evolution, 29, pp. 435-455Bentham, G., Synopsis of dalbergieae, a tribe of leguminosae (1860) Journal of the Proceedings of the Linnean Society. Botany, 4, pp. 1-34. , SupplBentham, G., Dalbergieae and sophoreae (1862) Flora Brasiliensis, 15, pp. 217-324. , part 1. eds. C. F. P. Von Martius, A. W. Eichler, and I. Urban. Monachii, Lipsiae: Frid. FleischerBoatwright, J.S., Savolainen, V., Van Wyk, B.E., Schutte-Vlok, A.L., Forest, F., Bank Der M.Van, Systematic position of the anomalous genus cadia and the phylogeny of the tribe podalyrieae (fabaceae (2008) Systematic Botany, 33, pp. 133-147Bruneau, A., Mercure, M., Lewis, G.P., Herendeen, P.S., Phylogenetic patterns and diversification in the caesalpinioid legumes (2008) Botany, 86, pp. 697-718Cardoso, D., De Lima, H.C., Rodrigues, R.S., De Queiroz, L.P., Pennington, R.T., Lavin, M., The realignment of acosmium sensu stricto with the dalbergioid clade (leguminosae, papilionoideae) reveals a proneness for independent evolution of radial floral symmetry among early branching papilionoid legumes (2012) Taxon, 61, pp. 1057-1073Cardoso, D., De Queiroz, L.P., Pennington, R.T., De Lima, H.C., Fonty, E., Wojciechowski, M.F., Lavin, M., Revisiting the phylogeny of papilionoid legumes: New insights from comprehensively sampled early-branching lineages (2012) American Journal of Botany, p. 99. , 1991-2013Crisp, M.D., Gilmore, S., Van Wyk, B., Molecular phylogeny of the genistoid tribes of papilionoid legumes (2000) Advances in Legume Systematics, Part 9, pp. 249-276. , eds. P. S. Herendeen and A. Bruneau. Kew: Royal Botanic GardensDarriba, D., Taboada, G.L., Doallo, R., Posada, D., Jmodeltest 2: More models, new heuristics and parallel computing (2012) Nature Methods, 9, p. 772Delgado-Salinas, A., Turley, T., Richman, A., Lavin, M., Phylogenetic analysis of the cultivated and wild species of phaseolus (fabaceae (1999) Systematic Botany, 24, pp. 438-460Delgado-Salinas, A., Bibler, R., Lavin, M., Phylogeny of the genus phaseolus (leguminosae): A recent diversification in an ancient landscape (2006) Systematic Botany, 31, pp. 779-791Doyle, J.J., Chappill, J.A., Bailey, C.D., Kajita, T., Towards a comprehensive phylogeny of legumes: Evidence from rbcL sequences and non-molecular data (2000) Advances in Legume Systematics, Part 9, pp. 1-20. , eds. P. S. Herendeen and A. Bruneau. Kew: Royal Botanic GardensDrummond, A.J., Suchard, M.A., Xie, D., Rambaut, A., Bayesian phylogenetics with beauti and the beast 17 (2012) Molecular Biology and Evolution, 29, pp. 1969-1973Ducke, A., Reunion mensuelle des naturalists du museus (1932) Bulletin du Museum D'Historie Naturelle. ParisSér., 2 (4), pp. 733-734Ducke, A., As leguminosas de pernambuco e paraíba (1953) Memorias Do Instituto Oswaldo Cruz, 51, pp. 446-461Edgar, R.C., Muscle: Multiple sequence alignment with high accuracy and high throughput (2004) Nucleic Acids Research, 32, pp. 1792-1797Felsenstein, J., Confidence limits on phylogenies: An approach using the bootstrap (1985) Evolution, 39, pp. 783-791Geesink, R., Tephrosieae (benth) hutch (1981) Advances in Legume Systematics, Part 1, pp. 245-260. , eds. R. M. Polhill and P. H. Raven. Kew: Royal Botanic GardensGeesink, R., (1984) Scala Milletiearum A Survey of the Genera of the Tribe Millettieae (Leguminosae, Papilionoideae) with Methodological Considerations, , Leiden Botanical Series 8. Leiden: E. J. Brill/Leiden University PressGreinwald, R., Bachmann, P., Lewis, G.P., Witte, L., Czygan, F.C., Alkaloids of the genus poecilanthe (leguminosae: Papilionoideae (1995) Biochemical Systematics and Ecology, 23, pp. 547-553Hijmans, R.J., Cameron, S.E., Parra, J.L., Jones, P.G., Jarvis, A., Very high resolution interpolated climate surfaces for global land areas (2005) International Journal of Climatology, 25, pp. 1965-1978Hijmans, R.J., Van Etten, J., (2014) Raster: Geographic Data Analysis and Modeling, , version 2.2-31 (cran.r-project.org/web/packages/raster/Hu, J.M., Lavin, M., Wojciechowski, M.F., Sanderson, M., Phylogenetic systematics of the tribe millettieae (leguminosae) based on chloroplast trnk/matk sequences and its implications for evolutionary patterns in papilionoideae (2000) American Journal of Botany, 87, pp. 418-430Hu, J.M., Lavin, M., Wojciechowski, M.F., Sanderson, M., Phylogenetic analysis of nuclear ribosomal its/5.8s sequences in the tribe millettieae (fabaceae): Poecilanthe-cyclolobium, the core millettieae, and the callerya group (2002) Systematic Botany, 27, pp. 722-733Huber, J., Materiaes para a flora amazônica vii (1909) Boletim Do Museu Paraense de História Natural e Ethnographia, 5, pp. 294-412Hughes, C.E., Bailey, C.D., Krosnick, S., Luckow, M.A., Relationships among genera of the informal dichrostachys and leucaena groups (mimosoideae) inferred from nuclear ribosomal its sequences (2003) Advances in Legume Systematics, Part 10, pp. 221-238. , eds. B. B. Klitgaard and A. Bruneau. Kew: Royal Botanic GardensHughes, C.E., Eastwood, R.J., Bailey, C.D., From famine to feast? Selecting nuclear dna sequence loci for plant species-level phylogeny reconstruction philosophical transactions of the royal society of london series b (2006) Biological Sciences, 361, pp. 211-225Kirkbride, J.H., Gunn, C.R., Weitzman, A.L., Fruits and seeds of genera in the subfamily faboideae (fabaceae) u s department agriculture (2003) Technical Bulletin, 1890, p. 212. , 1 1Klitgaard, B.B., (1995) Systematics of Platymiscium (Leguminosae: Papilionoideae: Dalbergieae): Taxonomy, Morphology, Ontogeny and Phylogeny, , Ph. D. thesis (). Aarhus: University of AarhusLavin, M., A cladistic analysis of the tribe robinieae (papilionoideae, leguminosae (1987) Advances in Legume Systematics, Part 3, pp. 31-64. , ed. C. H. Stirton. Kew: Royal Botanic GardensLavin, M., Eshbaugh, E., Hu, J.M., Mathews, S., Sharrock, R.A., Monophyletic subgroups of the tribe millettieae (leguminosae) as revealed by phytochrome nucleotide sequence data (1998) American Journal of Botany, 85, pp. 412-433Lavin, M., Herendeen, P.S., Wojciechowski, M.F., Evolutionary rates analysis of leguminosae implicates a rapid diversification of lineages during the tertiary (2005) Systematic Biology, 54, pp. 575-594Lewis, G.P., Schrire, B., MacKinder, B., Lock, M., (2005) Legumes of the World, , Kew: Royal Botanic GardensLewis, P.O., A likelihood approach to estimating phylogeny from discrete morphological character data (2001) Systematic Biology, 50, pp. 913-925Lima, H.C., Diplotropis benth leguminosae-faboideae) - Estudo dos táxons infragenéricos (1985) Acta Amazonica, 15, pp. 61-75Maddison, W.P., Maddison, D.R., (2008) Mesquite: A Modular System for Evolutionary Analysis, , http://mesquiteproject.org, Version 2.5McMahon, M., Hufford, L., Phylogeny of amorpheae (fabaceae: Papilionoideae (2004) American Journal of Botany, 91, pp. 1219-1230Meireles, J.E., (2013) Poecilanthe and Ormosia: In Lista de Espécies da Flora Do Brasil, , http://floradobrasil.jbrj.gov.br/jabot/floradobrasil/FB23126, Jardim Botânico do Rio de JaneiroMeireles, J.E., Tozzi, A.M.G.A., A synopsis of poecilanthe (leguminosae, papilionoideae, brongniartieae (2007) Rodriguésia, 58, pp. 255-264Meireles, J.E., Tozzi, A.M.G.A., Seed and embryo morphology of poecilanthe (leguminosae, papilionoideae, brongniartieae (2008) Botanical Journal of the Linnean Society, 158, pp. 249-256Meireles, J.E., De Lima, H.C., A new species of poecilanthe (leguminosae, papilionoideae, brongniartieae) from southeastern brazil (2013) Phytotaxa, 116, pp. 57-60Oliveira-Filho, A.T., Cardoso, D., Schrire, B.D., Lewis, G.P., Pennington, R.T., Brummer, T.J., Rotella, J., Lavin, M., Stability structures tropical woody plant diversity more than seasonality: Insights into the ecology of high legume-succulent-plant biodiversity (2013) South African Journal of Botany, 89, pp. 42-57Pennington, R.T., Lavin, M., Ireland, H., Klitgaard, B., Preston, J., Hu., J.M., Phylogenetic relationships of basal papilionoid legumes based upon sequences of the chloroplast trnL intron (2001) Systematic Botany, 26, pp. 537-556Pennington, R.T., Lavin, M., Oliveira-Filho, A., Woody plant diversity, evolution, and ecology in the tropics: Perspectives from seasonally dry tropical forests (2009) Annual Review of Ecology Evolution and Systematics, 40, pp. 437-457Queiroz, L.P., Lewis, G.P., Wojciechowski, M., Tabaroa, a new genus of leguminosae tribe brongniartieae from brazil (2010) Kew Bulletin, 65, pp. 189-203Rambaut, A., Drummond, A., (2008) Tracer v 1.5, , http://tree.bio.ed.ac.uk/software/tracer/Ronquist, F., Teslenko, M., Mark Der P.Van, Ayres, D.L., Darling, A., Höhna, S., Larget, B., Mrbayes 32: Efficient bayesian phylogenetic inference and model choice across a large model space (2012) Systematic Biology, 61, pp. 539-542Ross, J.H., Crisp, M.D., Brongniartieae (2005) Legumes of the World, pp. 252-259. , eds. 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Campinas Brazil Universidade Estadual de CampinasRudd, V.E., The american species of ormosia (leguminosae contributions to the u s (1965) National Herbarium, 32, pp. 279-384Sanderson, M.T., Doyle, J.J., Reconstruction of organismal and gene phylogenies from data on multigene families: Concerted evolution, homoplasy and confidence (1992) Systematic Biology, 41, pp. 4-17Särkinen, T., Iganci, J.R.V., Linares-Palomino, R., Simon, M.F., Prado, D.E., Forgotten forests-issues and prospects in biome mapping using seasonally dry tropical forests as a case study (2011) BMC Ecology, 11, p. 27Tompson, I.R., Ladiges, P.Y., Ross, J.H., Phylogenetic studies of the tribe brongniartieae (fabaceae) using nuclear dna (its-1) and morphological data (2001) Systematic Botany, 23, pp. 557-570Torke, B.M., Schaal, B.A., Molecular phylogenetics of the species rich neotropical genus swartzia (leguminosae, papilionoideae) and related genera of the swartzioid clade (2008) American Journal of Botany, 95, pp. 215-228Warwick, M.C., Pennington, R.T., Revision of cyclolobium (leguminosae-papilionoideae (2002) Edinburgh Journal of Botany, 59, pp. 247-257Wilgenbusch, J.C., Warren, D.L., Swofford, D.L., (2004) AWTY: A System for Graphical Exploration of MCMC Convergence in Bayesian Phylogenetic Inference, , http://ceb.csit.fsu.edu/awtyWojciechowski, M.F., Lavin, M., Sanderson, M.J., A phylogeny of legumes (leguminosae) based on analysis of the plastid matk gene resolves many well-supported subclades within the family (2004) American Journal of Botany, 91, pp. 1846-1862Zwickl, D., (2008) Garli 20 Program distributed by the author, , www.nescent.org/wggarli/MainPage, available a
[Memo from Lietnenant Colonel M. F. Hass, Civil Affairs Division, regarding the destination for Exclusion Order No. 98]
A one page memo from Lieutenant Colonel M. F. Hass, Civil Affairs Division, that declares the destination for evacuees affected by Exclusion Order No. 98. The evacuees from all three movements were sent to the Portaln Assembly Center in Oregon.The War Relocation Authority (WRA), together with the Wartime Civil Control Administration (WCCA), the Civil Affairs Division (CAD) and the Office of the Commanding General (OFG) of the Western Defense Command (WDC) operated together to segregate and house some 110,000 men women and children from 1942 to 1945. The collection contains documents and photographs relating to the establishment and administrative workings of the (WDC), the (WRA) and the (WCCA) for the year 1942
Human seminal fluid as a source of prostate cancer-specific microRNA biomarkers
Research letterLuke A Selth, Matthew J Roberts, Clement W K Chow, Villis R Marshall, Suhail A R Doi, Andrew D Vincent, Lisa M Butler, Martin F Lavin, Wayne D Tilley and Robert A Gardine
Nicotinic acetylcholine receptors in rat forebrain that bind ¹⁸F-nifene: relating PET imaging, autoradiography, and behavior
Nicotinic acetylcholine receptors (nAChRs) in the brain are important for cognitive function; however, their specific role in relevant brain regions remains unclear. In this study, we used the novel compound ¹⁸F-nifene to examine the distribution of nAChRs in the rat forebrain, and for individual animals related the results to behavioral performance on an auditory-cognitive task. We first show negligible binding of ¹⁸F-nifene in mice lacking the β2 nAChR subunit, consistent with previous findings that ¹⁸F-nifene binds to α4β2* nAChRs. We then examined the distribution of ¹⁸F-nifene in rat using three methods: in vivo PET, ex vivo PET and autoradiography. Generally, ¹⁸F-nifene labeled forebrain regions known to contain nAChRs, and the three methods produced similar relative binding among regions. Importantly, ¹⁸F-nifene also labeled some white matter (myelinated axon) tracts, most prominently in the temporal subcortical region that contains the auditory thalamocortical pathway. Finally, we related ¹⁸F-nifene binding in several forebrain regions to each animal's performance on an auditory-cued, active avoidance task. The strongest correlations with performance after 14 days training were found for ¹⁸F-nifene binding in the temporal subcortical white matter, subiculum, and medial frontal cortex (correlation coefficients, r > 0.8); there was no correlation with binding in the auditory thalamus or auditory cortex. These findings suggest that individual performance is linked to nicotinic functions in specific brain regions, and further support a role for nAChRs in sensory-cognitive function.Peer reviewedAuthor's Manuscript is also available open access in PubMed Central: http://www.ncbi.nlm.nih.gov/pmc/articles/PMC3292694.This is the peer reviewed version of the following article: Bieszczad, K. M., Kant, R., Constantinescu, C. C., Pandey, S. K., Kawai, H. D., Metherate, R., Weinberger, N. M. and Mukherjee, J. (2012), Nicotinic acetylcholine receptors in rat forebrain that bind 18F-nifene: Relating PET imaging, autoradiography, and behavior. Synapse, 66: 418–434. doi: 10.1002/syn.21530, which has been published in final form at http://dx.doi.org/10.1002/syn.21530. This article may be used for non-commercial purposes in accordance with Wiley Terms and Conditions for Self-Archiving
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