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Microfluidic study of the chemotactic response of Escherichia coli to amino acids, signaling molecules and secondary metabolites
Nagy, K [Nagy, Krisztina (biofizika), szerző] Biofizikai Intézet (HRN SZBK)
;
Sipos, O [Sipos, Orsolya (biofizika), szerző] Biofizikai Intézet (HRN SZBK)
;
Valkai, S [Valkai, Sándor (Integrált optika), szerző] Biofizikai Intézet (HRN SZBK)
;
Gombai, É
;
Hodula, O
;
Kerényi, Á [Kerényi, Ádám (biofizika), szerző] Biofizikai Intézet (HRN SZBK)
;
Ormos, P [Ormos, Pál (biofizika), szerző] Biofizikai Intézet (HRN SZBK)
;
Galajda, P ✉ [Galajda, Péter (biofizika), szerző] Biofizikai Intézet (HRN SZBK)
Angol nyelvű Szakcikk (Folyóiratcikk) Tudományos
Megjelent:
BIOMICROFLUIDICS 1932-1058 1932-1058
9
(4)
Paper: 044105
2015
SJR Scopus - Condensed Matter Physics: Q1
Azonosítók
MTMT: 2937934
DOI:
10.1063/1.4926981
REAL:
29718
WoS:
000360311900007
Scopus:
84937243269
PubMed:
26339306
Szakterületek:
Fizika
Quorum sensing and chemotaxis both affect bacterial behavior on the population level. Chemotaxis shapes the spatial distribution of cells, while quorum sensing realizes a cell-density dependent gene regulation. An interesting question is if these mechanisms interact on some level: Does quorum sensing, a density dependent process, affect cell density itself via chemotaxis? Since quorum sensing often spans across species, such a feedback mechanism may also exist between multiple species. We constructed a microfluidic platform to study these questions. A flow-free, stable linear chemical gradient is formed in our device within a few minutes that makes it suitable for sensitive testing of chemoeffectors: we showed that the amino acid lysine is a weak chemoattractant for Escherichia coli, while arginine is neutral. We studied the effect of quorum sensing signal molecules of Pseudomonas aeruginosa on E. coli chemotaxis. Our results show that N-(3-oxododecanoyl)-homoserine lactone (oxo-C12-HSL) and N-(butryl)-homoserine lactone (C4-HSL) are attractants. Furthermore, we tested the chemoeffector potential of pyocyanin and pyoverdine, secondary metabolites under a quorum sensing control. Pyocyanin is proved to be a weak attractant while pyoverdine are repellent. We demonstrated the usability of the device in co-culturing experiments, where we showed that various factors released by P. aeruginosa affect the dynamic spatial rearrangement of a neighboring E. coli population, while surface adhesion of the cells is also modulated. © 2015 AIP Publishing LLC.
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2024-12-09 17:58
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