Space- and time-resolved protein dynamics in single bacterial cells observed on a chip
Greif D, Pobigaylo N, Frage B, Becker A, Regtmeier J, Anselmetti D (2010)
JOURNAL OF BIOTECHNOLOGY 149(4): 280-288.
Zeitschriftenaufsatz
| Veröffentlicht | Englisch
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Autor*in
Greif, DominikUniBi;
Pobigaylo, Nataliya;
Frage, Benjamin;
Becker, Anke;
Regtmeier, JanUniBi;
Anselmetti, DarioUniBi 
Einrichtung
Fakultät für Physik > AG Biophysik und angewandte Nanowissenschaften
Centrum für Biotechnologie > Institut für Biophysik und Nanowissenschaften
Centrum für Biotechnologie > Arbeitsgruppe D. Anselmetti
Centrum für Biotechnologie > Institut für Genomforschung und Systembiologie
Fakultät für Biologie > Proteom- und Metabolomforschung
Centrum für Biotechnologie > Institut für Biophysik und Nanowissenschaften
Centrum für Biotechnologie > Arbeitsgruppe D. Anselmetti
Centrum für Biotechnologie > Institut für Genomforschung und Systembiologie
Fakultät für Biologie > Proteom- und Metabolomforschung
Abstract / Bemerkung
Life cell imaging of bacterial cells over long times is very challenging because of the small dimensions and the need for a liquid environment assuring cell viability. In order to obtain space- and time-resolved information about protein dynamics, high resolution time-lapse fluorescence images (TLFI) of single bacterial cells were recorded in a poly(dimethylsiloxane) (PDMS) microfluidic chip. A new gradient coating technique was applied to ensure cell loading. As a proof-of-concept, we monitored the evenly distributed cytoplasmic protein GcrA as well as the asymmetric localization of the Divk protein in cells of S. meliloti over at least two division cycles. Localization of DivK was characterized by dividing each bacterial cell into 4 sections with dimensions closely above the optical limit of resolution. This approach of generating spatio-temporal resolved information of protein dynamics in single bacterial cells is applicable to many problems. (C) 2010 Elsevier B.V. All rights reserved.
Stichworte
Cell cycle;
Microfluidics;
Protein dynamics;
Time-lapse microscopy;
Single-cell analysis
Erscheinungsjahr
2010
Zeitschriftentitel
JOURNAL OF BIOTECHNOLOGY
Band
149
Ausgabe
4
Seite(n)
280-288
ISSN
0168-1656
Page URI
https://pub.uni-bielefeld.de/record/1929327
Zitieren
Greif D, Pobigaylo N, Frage B, Becker A, Regtmeier J, Anselmetti D. Space- and time-resolved protein dynamics in single bacterial cells observed on a chip. JOURNAL OF BIOTECHNOLOGY. 2010;149(4):280-288.
Greif, D., Pobigaylo, N., Frage, B., Becker, A., Regtmeier, J., & Anselmetti, D. (2010). Space- and time-resolved protein dynamics in single bacterial cells observed on a chip. JOURNAL OF BIOTECHNOLOGY, 149(4), 280-288. https://doi.org/10.1016/j.jbiotec.2010.06.003
Greif, Dominik, Pobigaylo, Nataliya, Frage, Benjamin, Becker, Anke, Regtmeier, Jan, and Anselmetti, Dario. 2010. “Space- and time-resolved protein dynamics in single bacterial cells observed on a chip”. JOURNAL OF BIOTECHNOLOGY 149 (4): 280-288.
Greif, D., Pobigaylo, N., Frage, B., Becker, A., Regtmeier, J., and Anselmetti, D. (2010). Space- and time-resolved protein dynamics in single bacterial cells observed on a chip. JOURNAL OF BIOTECHNOLOGY 149, 280-288.
Greif, D., et al., 2010. Space- and time-resolved protein dynamics in single bacterial cells observed on a chip. JOURNAL OF BIOTECHNOLOGY, 149(4), p 280-288.
D. Greif, et al., “Space- and time-resolved protein dynamics in single bacterial cells observed on a chip”, JOURNAL OF BIOTECHNOLOGY, vol. 149, 2010, pp. 280-288.
Greif, D., Pobigaylo, N., Frage, B., Becker, A., Regtmeier, J., Anselmetti, D.: Space- and time-resolved protein dynamics in single bacterial cells observed on a chip. JOURNAL OF BIOTECHNOLOGY. 149, 280-288 (2010).
Greif, Dominik, Pobigaylo, Nataliya, Frage, Benjamin, Becker, Anke, Regtmeier, Jan, and Anselmetti, Dario. “Space- and time-resolved protein dynamics in single bacterial cells observed on a chip”. JOURNAL OF BIOTECHNOLOGY 149.4 (2010): 280-288.
3 Zitationen in Europe PMC
Daten bereitgestellt von Europe PubMed Central.
Spatiotemporal choreography of chromosome and megaplasmids in the Sinorhizobium meliloti cell cycle.
Frage B, Döhlemann J, Robledo M, Lucena D, Sobetzko P, Graumann PL, Becker A., Mol Microbiol 100(5), 2016
PMID: 26853523
Frage B, Döhlemann J, Robledo M, Lucena D, Sobetzko P, Graumann PL, Becker A., Mol Microbiol 100(5), 2016
PMID: 26853523
A stress-induced small RNA modulates alpha-rhizobial cell cycle progression.
Robledo M, Frage B, Wright PR, Becker A., PLoS Genet 11(4), 2015
PMID: 25923724
Robledo M, Frage B, Wright PR, Becker A., PLoS Genet 11(4), 2015
PMID: 25923724
The conserved polarity factor podJ1 impacts multiple cell envelope-associated functions in Sinorhizobium meliloti.
Fields AT, Navarrete CS, Zare AZ, Huang Z, Mostafavi M, Lewis JC, Rezaeihaghighi Y, Brezler BJ, Ray S, Rizzacasa AL, Barnett MJ, Long SR, Chen EJ, Chen JC., Mol Microbiol 84(5), 2012
PMID: 22553970
Fields AT, Navarrete CS, Zare AZ, Huang Z, Mostafavi M, Lewis JC, Rezaeihaghighi Y, Brezler BJ, Ray S, Rizzacasa AL, Barnett MJ, Long SR, Chen EJ, Chen JC., Mol Microbiol 84(5), 2012
PMID: 22553970
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