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Literature DB >> 18556179

Controlled assembly of bacteria on chemical patterns using soft lithography.

Aline Cerf¹, Jean-Christophe Cau, Christophe Vieu.

Abstract

Highly ordered arrays of single living bacteria were obtained by selective adsorption of bacteria onto chemical patterns with micrometric resolution. The chemically engineered template surfaces were prepared with the combination of microcontact printing process and a simple incubation technique. This methodology can be used for fundamental studies of bacterium's inner mechanisms and sub-cellular organization as well as for interfacing living bacteria with artificial microsystems.

Mesh：

Year: 2008 PMID： 18556179 DOI： 10.1016/j.colsurfb.2008.04.016

Source DB: PubMed Journal: Colloids Surf B Biointerfaces ISSN： 0927-7765 Impact factor: 5.268

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Cited

7 in total

1. Accurate and Effective Live Bacteria Microarray Patterning on Thick Polycationic Polymer Layer Co-Patterned with HMDS.

Authors: Ieong Wong; Xianting Ding; Chunsheng Wu; Chih-Ming Ho
Journal: RSC Adv Date: 2012-04-03 Impact factor: 3.361

2. Large-scale patterning of living colloids for dynamic studies of neutrophil-microbe interactions.

Authors: Jae Jung Kim; Eduardo Reátegui; Alex Hopke; Fatemeh Jalali; Maedeh Roushan; Patrick S Doyle; Daniel Irimia
Journal: Lab Chip Date: 2018-05-29 Impact factor: 6.799

3. The Design of Simple Bacterial Microarrays: Development towards Immobilizing Single Living Bacteria on Predefined Micro-Sized Spots on Patterned Surfaces.

Authors: Nina Bjørk Arnfinnsdottir; Vegar Ottesen; Rahmi Lale; Marit Sletmoen
Journal: PLoS One Date: 2015-06-03 Impact factor: 3.240

7. Effect of design geometry, exposure energy, cytophilic molecules, cell type and load in fabrication of single-cell arrays using micro-contact printing.

Authors: Swapnil Vilas Bhujbal; Maren Dekov; Vegar Ottesen; Karen Dunker; Rahmi Lale; Marit Sletmoen
Journal: Sci Rep Date: 2020-09-16 Impact factor: 4.379

7 in total

Controlled assembly of bacteria on chemical patterns using soft lithography.

1. Accurate and Effective Live Bacteria Microarray Patterning on Thick Polycationic Polymer Layer Co-Patterned with HMDS.

2. Large-scale patterning of living colloids for dynamic studies of neutrophil-microbe interactions.

3. The Design of Simple Bacterial Microarrays: Development towards Immobilizing Single Living Bacteria on Predefined Micro-Sized Spots on Patterned Surfaces.

Review 4. Methods of Micropatterning and Manipulation of Cells for Biomedical Applications.

5. Application of nanotechnology to control bacterial adhesion and patterning on material surfaces.

6. Biofilm Lithography enables high-resolution cell patterning via optogenetic adhesin expression.

7. Effect of design geometry, exposure energy, cytophilic molecules, cell type and load in fabrication of single-cell arrays using micro-contact printing.