Self-organization of magnetite nanoparticles in providing Saccharomyces cerevisiae Yeasts with magnetic properties

Gorobets, Svitlana; Yu, Gorobets O.; Demianenko, I. V.; Nikolaenko, R.N.

doi:10.1016/j.jmmm.2013.01.004

Cited by 13 publications

(13 citation statements)

References 6 publications

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“…Information about the depth of clusters penetration inside the biomembrane, the typical sizes of clusters and the dispersion of magnetic cluster sizes in magnetically modified S. cerevisiae cells has been obtained recently (Gorobets et al ., , ).…”

Section: Magnetic Labelling Of Yeast Cellsmentioning

confidence: 97%

Magnetically responsive yeast cells: Methods of preparation and applications

Šafařı́k

Maděrová²,

Pospíšková

et al. 2014

Yeast

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Magnetically modified yeast cells represent an interesting type of biocomposite material, applicable in various areas of bioanalysis, biotechnology and environmental technology. In this review, typical examples of magnetic modifications of yeast cells of the genera Saccharomyces, Kluyveromyces, Rhodotorula and Yarrowia are presented, as well as their possible applications as biocatalysts, active part of biosensors and biosorbents for the separation of organic xenobiotics, heavy metal ions and radionuclides.

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Section: Magnetic Labelling Of Yeast Cellsmentioning

confidence: 97%

Magnetically responsive yeast cells: Methods of preparation and applications

Šafařı́k

Maděrová²,

Pospíšková

et al. 2014

Yeast

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“…To attach magnetic labels to yeast cells was used magnetic fluid, obtained by [11]. The process of manufacturing of magnetically labeled biosorbent made by the method described in [3] with multi-vortical MHD stirring.…”

Section: Methods Of Researchmentioning

confidence: 99%

“…Nanosized magnetite [11], which is used to create magnetically labeled cells [12], also absorbs cations of metals on the surface. For example, in [13] showed that the magnetite is an effective sorbent, but the downside is coagulation of particles that impairs its industrial use.…”

Section: Research Of Existing Solutions Of the Problemmentioning

confidence: 99%

Study of modification of magnetically labeled yeasts Saccharomyces cerevisiae for copper cations Cu2+ removal

Karpenko

2017

TAPR

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очищення сфлокульованого шламу до 99 % і зменшує вине-сення твердої фази з фугатом.ключові слова: модуль очищення шламів, полідисперсні шлами, деструкція флокул, міцність флокул, швидкість осі-дання, удосконалення центрифуги. Украина, Райко Валентина Федоровна, кандидат технических наук, профессор, кафедра химической техники и промышленной эколо-гии, Национальный технический университет «Харьковский по-литехнический институт», Украина,

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“…Magnetic fields can be applied to induce in vivo and in vitro effects in many biological systems (Rakoczy et al, 2016). Recently, increasing attention is directed towards bio-magnetic stimulation of microorganisms using various types of magnetic fields (El-Gaddar et al, 2013;Gorobets et al, 2013; cpe.czasopisma.pan.pl; degruyter.com/view/j/cpe Santos et al, 2010). Magnetically assisted bioprocesses are conducted using a non-conventional stimulation of classical bioprocesses by various types of magnetic field (Hristov et al, 2011).…”

Section: Introductionmentioning

confidence: 99%

Influence of rotating magnetic field on gas-liquid volumetric mass transfer coefficient

Rakoczy

Konopacki

Kordas

et al. 2017

Chemical and Process Engineering

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The main objective of these experiments was to study the oxygen mass transfer rate through the volumetric mass transfer coefficient (k L a) for an experimental set-up equipped with a rotating magnetic field (RMF) generator and various liquids. The experimental results indicated that k L a increased along the magnetic strength and the superficial gas velocity. Mathematical correlations defining the influence of the considered factors on k L a were proposed.

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Self-organization of magnetite nanoparticles in providing Saccharomyces cerevisiae Yeasts with magnetic properties

Cited by 13 publications

References 6 publications

Magnetically responsive yeast cells: Methods of preparation and applications

Magnetically responsive yeast cells: Methods of preparation and applications

Study of modification of magnetically labeled yeasts Saccharomyces cerevisiae for copper cations Cu2+ removal

Influence of rotating magnetic field on gas-liquid volumetric mass transfer coefficient

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