Literatur: microP

Hintergrund

Literatur

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Felder, K. M., Carranza, P. M., Gehrig, P. M., Roschitzki, B., Barkow-Oesterreicher, S., Hoelzle, K., Riedel, K., Kube, M., Hoelzle, L. E. (2012): Insights into the gene expression profile of uncultivable hemotrophic Mycoplasma suis during acute infection, obtained using proteome analysis. Journal of Bacteriology 194, 1505-1514.

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Götz, A. A., Stefanski, V. (2007): Psychosocial maternal stress during pregnancy affects serum corticosterone, blood immune parameters and anxiety behaviour in adult male rat offspring. Physiology & Behavior 90, 108-115.

Greiner, R. (2007): In: B. L. Turner; A. E. Richardson and E. J. Mullaney, Ed.^Eds. Inositol phosphates in the Soil-Plant-Animal System: Phytate-degrading enzymes: Regulation of synthesis in microorganisms and plants. CABI Publishing: Wallingford, 2007; pp 62-97.

Greiner, S., Stefanski, V., Dehnhard, M., Voigt, C. C. (2010): Plasma testosterone levels decrease after activation of skin immune system in a free-ranging mammal. General and Comparative Endocrinology 168, 466-473.

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Hilbi, H. (2006): Modulation of phosphoinositide metabolism by pathogenic bacteria. Cellular Microbiology 8, 1697-1706.

Hittmeier, L. J., Grapes, L., Lensing, R. L., Rothschild, M. F., Stahl, C. H. (2006): Genetic background influences metabolic response to dietary phosphorus restriction. The Journal of Nutritional Biochemistry 17, 385-395.

Hoelzle, K., Peter, S., Sidler, M., Kramer, M., Wittenbrink, M., Felder, K., Hoelzle, L. (2010): Inorganic pyrophosphatase in uncultivable hemotrophic mycoplasmas: identification and properties of the enzyme from Mycoplasma suis. BMC Microbiology 10, 194.

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Jokinen, E. I., Vielma, J., Aaltonen, T. M., Koskela, J. (2003): The effect of dietary phosphorus deficiency on the immune responses of European whitefish (Coregonus lavaretus L.). Fish and Shellfish Immunology 15, 159-168.

Kayang, B., Fillon, V., Inoue-Murayama, M., Miwa, M., Leroux, S., Feve, K., Monvoisin, J.-L., Pitel, F., Vignoles, M., Mouilhayrat, C., Beaumont, C., Ito, S. i., Minvielle, F., Vignal, A. (2006): Integrated maps in quail (Coturnix japonica) confirm the high degree of synteny conservation with chicken (Gallus gallus) despite 35 million years of divergence. BMC Genomics 7, 101.

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Liu, N., Ru, Y. J., Cowieson, A. J., Li, F. D., Cheng, X. C. (2008): Effects of phytate and phytase on the performance and immune function of broilers fed nutritionally marginal diets. Poultry Science 87, 1105-1111.

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Metzler-Zebeli, B. U., Gänzle, M. G., Mosenthin, R., Zijlstra, R. T. (2012): Oat β-glucan and dietary calcium and phosphorus differentially modify intestinal expression of proinflammatory cytokines and monocarboxylate transporter 1 and cecal morphology in weaned pigs. The Journal of Nutrition 142, 668-674.

Metzler-Zebeli, B. U., Vahjen, W., Baumgärtel, T., Rodehutscord, M., Mosenthin, R. (2010): Ileal microbiota of growing pigs fed different dietary calcium phosphate levels and phytase content and subjected to ileal pectin infusion. Journal of Animal Science 88, 147-158.

Metzler-Zebeli, B. U., Zijlstra, R. T., Mosenthin, R., Gänzle, M. G. (2011): Dietary calcium phosphate content and oat β-glucan influence gastrointestinal microbiota, butyrate-producing bacteria and butyrate fermentation in weaned pigs. FEMS Microbiology Ecology 75, 402-413.

Mullarky, I. K., Wark, W. A., Dickenson, M., Martin, S., Petersson-Wolfe, C. S., Knowlton, K. F. (2009): Analysis of immune function in lactating dairy cows fed diets varying in phosphorus content. Journal of Dairy Science 92, 365-368.

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Ødegård, J., Meuwissen, T. H. E. (2012): Estimation of heritability from limited family data using genome-wide identity-by-descent sharing. Genetics Selection Evolution 44, 16.

Pointillart, A., Fontaine, N., Thomasset, M. (1984): Phytate phosphorus utilization and intestinal phosphatases in pigs fed low phosphorus: wheat or corn diets. Nutrition Reports International 29, 473-483.

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Rodehutscord, M., Dieckmann, A. (2005): Comparative studies with three-week-old chickens, turkeys, ducks, and quails on the response in phosphorus utilization to a supplementation of monobasic calcium phosphate. Poultry Science 84, 1252-1260.

Rodehutscord, M., Dieckmann, A., Witzig, M., Shastak, Y. (2012): A note on sampling digesta from the ileum of broilers in phosphorus digestibility studies. Poultry Science 91, 965-971.

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Shastak, Y., Witzig, M., Hartung, K., Bessei, W., Rodehutscord, M. (2012): Comparison and evaluation of bone measurements for the assessment of mineral phosphorus sources in broilers. Poultry Science 91, 2210-2220.

Simon, O., Igbasan, F. (2002): In vitro properties of phytases from various microbial origins. International Journal of Food Science and Technology 37, 813-822.

Stefanski, V., Engler, H. (1999): Social stress, dominance and blood cellular immunity. Journal of Neuroimmunology 94, 144-152.

Steiner, T., Mosenthin, R., Zimmermann, B., Greiner, R., Roth, S. (2007): Distribution of phytase activity, total phosphorus and phytate phosphorus in legume seeds, cereals and cereal by-products as influenced by harvest year and cultivar. Animal Feed Science and Technology 133, 320-334.

Stratz, P., Baes, C., Rückert, C., Preuss, S., Bennewitz, J. (2012): A two-step approach to map quantitative trait loci for meat quality in connected porcine F2 crosses considering main and epistatic effects. Animal Genetics n/a-n/a.

Streit, M., Reinhardt, F., Thaller, G., Bennewitz, J. (2012): Reaction norms and genotype-by-environment interaction in the German Holstein dairy cattle. Journal of Animal Breeding and Genetics 129, 380-389.

Vosmer, J., Liesegang, A., Wanner, M., Zeyner, A., Suter, D., Hoelzle, L., Wichert, B. (2012): Fermentation of six different forages in the semi-continuous fermentation technique Caesitec. Journal of Animal Physiology and Animal Nutrition 96, 860-869.

Weber, S. S., Ragaz, C., Hilbi, H. (2009): Pathogen trafficking pathways and host phosphoinositide metabolism. Molecular Microbiology 71, 1341-1352.

Zhang, W., Aggrey, S., Pesti, G., Bakalli, R., Edwards, H. (2005): Genetic analysis on the direct response to divergent selection for phytate phosphorus bioavailability in a randombred chicken population. Poultry Science 84, 370-375.