Geodesic
The possibility of using biogenic nanocrystals
News of the Kabardin-Balkar scientific center of RAS, no. 6-2 (2018), pp. 5-9.

Voir la notice de l'article provenant de la source Math-Net.Ru

Magnetotactic bacteria that generate magnetosomes react to a magnetic field, which makes them attractive for biomedical research. The use of a magnetsoma as a bionanosensor / bionanoeffector of the lower level of CICS allows to solve one of the serious problems of scientific visualization – the problem of representativeness.
Keywords: magnetosomes; magnetotactic bacteria; bionanorobotics, cognitive infocommunication system, bionansensors, intellectual expert systems, knowledge bases, monitoring of the state of biosystems, medical online service. 
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R. N. Abutalipov. The possibility of using biogenic nanocrystals. News of the Kabardin-Balkar scientific center of RAS, no. 6-2 (2018), pp. 5-9. http://geodesic.mathdoc.fr/item/IZKAB_2018_6-2_a0/

[1] R. N. Abutalipov, A. U. Zammoev, Z. V. Nagoev, “Bionanorobototekhnika: kontseptualizatsiya, problematika i zadachi issledovanii”, Izvestiya Kabardino-Balkarskogo nauchnogo tsentra RAN, 2016, no. 6 (74), 11–17

[2] S. Useinov, V. Solovev, K. Gogolinskii, A. Useinov, N. Lvova, “Izmerenie mekhanicheskikh svoistv materialov s nanometrovym prostranstvennym razresheniem”, Nanoindustriya, 2010, no. 2, 30–35

[3] L. S. Ratkin, “Sovremennye tekhnologii proizvodstva MEMS”, Mikro- i nanosistemnaya tekhnika, 2012, no. 3, 23–24

[4] R. N. Abutalipov, A. U. Zammoev, “Domennaya model kognitivnoi infokommunikatsionnoi sistemy dlya intellektualnogo meditsinskogo onlain-servisa na baze bionanosensornykh ustroistv”, Slavyanskii forum, 2018, no. 1 (19), 104–113

[5] V. Komashinskii, N. Marder, A. Paramonov, “Ot telekommunikatsionnoi k infokognitivnoi kommunikatsionnoi sisteme”, Tekhnologii i sredstva svyazi, 2011, no. 4, 52–54

[6] R. N. Abutalipov, A. U. Zammoev, O. Z. Zagazezheva, “Interreprezentativnye seti (IRS) i reprezentativnost VR vizualizatsii nanostruktur i protsessov v nanosrede”, Izvestiya Kabardino-Balkarskogo nauchnogo tsentra RAN, 2016, no. 4 (72), 5–9

[7] “Visualization in Scientific Computing”, ACM SIGRAPH Computer Graphics, 21:6, Special Issue, November (1987)

[8] V. L. Averbukh, A. Yu. Baidalin, M. O. Bakhterev, P. A. Vasev, A. Yu. Kazantsev, D. V. Manakov, “Opyt razrabotki spetsializirovannykh sistem nauchnoi vizualizatsii”, Nauchnaya vizualizatsiya, 2:4, Kvartal 4 (2010), 27–39

[9] J. J. Van Wijk, “Image Based Flow Visualization”, ACM Transactions on Graphics, 21:3, Proceedings of ACM SIGGRAPH (2002), 745–754 | DOI

[10] O. A. Anikanov A. A. Potiy, “GPU-Based Texture Flow Visualization”, THE 14th International Conference on Computer Graphics and Vision GraphiCon'2004 (Moscow, Russia, September 6-10, 2004), 155–158

[11] S. R. Eldzhmali, S. I. Alshikhi, N. M. Abed Alkrem, S. A. Khamuda, “Magnitobakterii i ikh potentsialnoe primenenie”, Vestnik mordovskogo universiteta, 27:1 (2017), 108–122

[12] X. Liu, Q. Dai, Austin L., J. Amer. Chem. Soc, 130:9 (2008), 2780–2782 | DOI

[13] J. Yang, C. H. Lee, S. Seo, E. K. Lim, Y. Song, J. S. Suh, H. G. Yoon, Y. M. Huh, Haam S., J. Mater. Chem, 2007, no. 17, 2695–2699 | DOI

[14] S. Laurent, D. Forge, M. Port, A. Roch, C. Robic, L. V. Elst, Muller R. N., Chem. Rev, 108:6 (2008), 2064–2110 | DOI

[15] D. S. Gruzdev, M. V. Dzyuba, A. S. Gerasimov, B. B. Kuznetsov, “Poluchenie i issledovanie aktivnosti modifitsirovannykh belkov membrany magnitosom”, Prikladnaya biokhimiya i mikrobiologiya, 49:3 (2013), 242–248

[16] L. Blaney, “Magnetite (Fe3O4): Properties, synthesis, and applications”, Lehigh review, 5(15) (2007), 33-81 http://preserve.lehigh.edu/cas-lehighreview-vol-15/5

[17] B. Delalat, V. C. Sheppard, S. R. Ghaemi a. o., “Targeted drug delivery using genetically engineered diatom biosilica”, Nature Communications, 2016, 6 article number: 19932

[18] J. L. Kirschvink, A. Kobayashi-Kirschvink, J.C. Diaz-Ricci , J.S. Kirschvink, “Magnetite in human tissues: a mechanism for the biological effects of weak ELF magnetic fields.”, Bioelectro-magnetics Supplement, 1 (1992), 101–113 http://web.gps.caltech.edu/~jkirschvink/pdfs/ Kirsch-vinkBEMS92.pdf | DOI

[19] F. Martinez-Pedrero, P. Tierno, T. H. Straube A. V. Johansen, “Regulating wave front dynamics from the strongly discrete to the continuum limit in magnetically driven colloidal systems”, Scientific Reports, 2016, 6, 19932 | DOI

[20] L. Blaney, “Magnetite (Fe3O4): Properties, synthesis, and applications”, Lehigh review, 5(15) (2007), 33–81 http://preserve.lehigh.edu/cas-lehighreview-vol-15/5

[21] E. Siores, AS Lamb, LM. Swallow, “Bacterial magnetic particles for potential applications in nanoscale NDT”, 4 th International Conference on NDT, Hellenic Society for NDT (Chania, Crete, Greece. 2007.) http://www.ndt.net/article/hsndt2007/files/Siores.pdf

[22] R. P. Blakemore, N. A. Blakemore, R. B. Frankel, Bacterial biomagnetism and geomagnetic field detection by organisms http://andrewamarino.com/PDFs/MB/MB_Ch02.pdf

[23] D. A. Bazylinski, R. B. Frankel, Magnetotaxis in bacteria http://www.calpoly.edu/~rfrankel/magbac101.html

[24] J. L. Kirschvink, A. Kobayashi-Kirschvink, J.C. Diaz-Ricci, J.S. Kirschvink, “Magnetite in human tissues: a mechanism for the biological effects of weak ELF magnetic fields”, Bioelectro-magnetics Supplement, 1 (1992), 101–113 http://web.gps.caltech.edu/~jkirschvink/pdfs/ Kirsch-vinkBEMS92.pdf | DOI