Letteratura scientifica selezionata sul tema "Biologically-Controlled biomineralization"
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Articoli di riviste sul tema "Biologically-Controlled biomineralization":
Ehrlich, Hermann, Elizabeth Bailey, Marcin Wysokowski e Teofil Jesionowski. "Forced Biomineralization: A Review". Biomimetics 6, n. 3 (12 luglio 2021): 46. http://dx.doi.org/10.3390/biomimetics6030046.
Pamirsky, Igor E., e Kirill S. Golokhvast. "Origin and Status of Homologous Proteins of Biomineralization (Biosilicification) in the Taxonomy of Phylogenetic Domains". BioMed Research International 2013 (2013): 1–7. http://dx.doi.org/10.1155/2013/397278.
Okada, Satoshi, Chong Chen, Tomo-o. Watsuji, Manabu Nishizawa, Yohey Suzuki, Yuji Sano, Dass Bissessur, Shigeru Deguchi e Ken Takai. "The making of natural iron sulfide nanoparticles in a hot vent snail". Proceedings of the National Academy of Sciences 116, n. 41 (24 settembre 2019): 20376–81. http://dx.doi.org/10.1073/pnas.1908533116.
SAKURAI, S., R. ASAKAWA, F. HIROTA, T. SATO, K. SERA e J. ITOH. "QUANTITATIVE AND QUALITATIVE ANALYSIS OF FLUORIDE AND MULTI ELEMENTS OF SHARK TEETH BY PIXE". International Journal of PIXE 18, n. 03n04 (gennaio 2008): 123–29. http://dx.doi.org/10.1142/s0129083508001466.
Cuéllar-Cruz, Mayra, Karina Sandra Pérez, María Eugenia Mendoza e Abel Moreno. "Biocrystals in Plants: A Short Review on Biomineralization Processes and the Role of Phototropins into the Uptake of Calcium". Crystals 10, n. 7 (9 luglio 2020): 591. http://dx.doi.org/10.3390/cryst10070591.
Hoffmann, René, Benjamin J. Linzmeier, Kouki Kitajima, Gernot Nehrke, Martin Dietzel, Niels Jöns, Kevin Stevens e Adrian Immenhauser. "Complex Biomineralization Pathways of the Belemnite Rostrum Cause Biased Paleotemperature Estimates". Minerals 11, n. 12 (12 dicembre 2021): 1406. http://dx.doi.org/10.3390/min11121406.
Giordani, Paolo, Paolo Modenesi e Mauro Tretiach. "Determinant factors for the formation of the calcium oxalate minerals, weddellite and whewellite, on the surface of foliose lichens". Lichenologist 35, n. 3 (maggio 2003): 255–70. http://dx.doi.org/10.1016/s0024-2829(03)00028-8.
Al-Battashi, Huda, Sanket J. Joshi, Bernhard Pracejus e Aliya Al-Ansari. "The Geomicrobiology of Chromium (VI) Pollution: Microbial Diversity and its Bioremediation Potential". Open Biotechnology Journal 10, n. 1 (11 novembre 2016): 379–89. http://dx.doi.org/10.2174/1874070701610010379.
Lykoshin, D. D., V. V. Zaitsev, M. A. Kostromina e R. S. Esipov. "New-generation osteoplastic materials based on biological and synthetic matrices". Fine Chemical Technologies 16, n. 1 (18 marzo 2021): 36–54. http://dx.doi.org/10.32362/2410-6593-2021-16-1-36-54.
Bouabdellah, Mohammed, Wissale Boukirou, Adriana Potra, Erik Melchiorre, Hassan Bouzahzah, Johan Yans, Khadra Zaid et al. "Origin of the Moroccan Touissit-Bou Beker and Jbel Bou Dahar Supergene Non-Sulfide Biomineralization and Its Relevance to Microbiological Activity, Late Miocene Uplift and Climate Changes". Minerals 11, n. 4 (11 aprile 2021): 401. http://dx.doi.org/10.3390/min11040401.
Tesi sul tema "Biologically-Controlled biomineralization":
Wallace, Adam Folger. "Biologically Controlled Mineralization and Demineralization of Amorphous Silica". Diss., Virginia Tech, 2008. http://hdl.handle.net/10919/27424.
Ph. D.
Park, Yeseul. "Metal sulfide biomineralization by magnetotactic bacteria". Electronic Thesis or Diss., Aix-Marseille, 2022. http://www.theses.fr/2022AIXM0262.
Biomineralization of metal sulfides has been broadly observed in microbial cultures and in nature. However, only a few cases have been reported as biologically-controlled processes, such as greigite produced by magnetotactic bacteria. I discovered a new type of intracellular metal sulfide biomineralization, while studying the impact of copper on greigite biomineralization by the magnetotactic bacterium Desulfamplus magnetovallimortis strain BW-1.The newly discovered metal sulfide biominerals are nanoscopic particles and have an interesting crystal structure and organization. These spherical or ellipsoidal particles are composed of 1-2 nm-sized sub-grains of hexagonal copper sulfide that remains in a metastable state. The particles are located in the periplasmic space, surrounded by an organic substance. Based on these observations, it was concluded that the biomineral produced and conserved is a result of biological control. Proteomics studies with cellular and particulate samples identified several proteins associated with the process. The initial result showed that two periplasmic proteins, a heavy metal resistant protein, and a DegP-like protease, are likely working together to react to the envelope stress caused by copper. Such intracellular biomineralization is organism-specific and only initiated by the increase of copper ions, but not by other metal ions like nickel, zinc, or cobalt. Overall, my work reveals unknown features of metal sulfide biomineralization, specifically within magnetotactic bacteria
Capitoli di libri sul tema "Biologically-Controlled biomineralization":
Bazylinski, Dennis A., e Richard B. Frankel. "8. Biologically Controlled Mineralization in Prokaryotes". In Biomineralization, a cura di Patricia M. Dove, James J. De Yoreo e Steve Weiner, 217–48. Berlin, Boston: De Gruyter, 2003. http://dx.doi.org/10.1515/9781501509346-013.
Mann, Stephen. "Chemical control of biomineralization". In Biomineralization Principles and Concepts in Bioinorganic Materials Chemistry, 38–67. Oxford University PressOxford, 2001. http://dx.doi.org/10.1093/oso/9780198508823.003.0004.
Lowenstam, Heinz A., e Stephen Weiner. "Protoctista". In On Biomineralization. Oxford University Press, 1989. http://dx.doi.org/10.1093/oso/9780195049770.003.0006.