Cargando…
A Multi-Platform Flow Device for Microbial (Co-) Cultivation and Microscopic Analysis
Novel microbial cultivation platforms are of increasing interest to researchers in academia and industry. The development of materials with specialized chemical and geometric properties has opened up new possibilities in the study of previously unculturable microorganisms and has facilitated the des...
| Autores principales: | , , , , , , , , , , , , , , , , , , |
|---|---|
| Formato: | Online Artículo Texto |
| Lenguaje: | English |
| Publicado: |
Public Library of Science
2012
|
| Materias: | |
| Acceso en línea: | https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3351485/ https://www.ncbi.nlm.nih.gov/pubmed/22606321 http://dx.doi.org/10.1371/journal.pone.0036982 |
| _version_ | 1782232779447074816 |
|---|---|
| author | Hesselman, Matthijn C. Odoni, Dorett I. Ryback, Brendan M. de Groot, Suzette van Heck, Ruben G. A. Keijsers, Jaap Kolkman, Pim Nieuwenhuijse, David van Nuland, Youri M. Sebus, Erik Spee, Rob de Vries, Hugo Wapenaar, Marten T. Ingham, Colin J. Schroën, Karin Martins dos Santos, Vítor A. P. Spaans, Sebastiaan K. Hugenholtz, Floor van Passel, Mark W. J. |
| author_facet | Hesselman, Matthijn C. Odoni, Dorett I. Ryback, Brendan M. de Groot, Suzette van Heck, Ruben G. A. Keijsers, Jaap Kolkman, Pim Nieuwenhuijse, David van Nuland, Youri M. Sebus, Erik Spee, Rob de Vries, Hugo Wapenaar, Marten T. Ingham, Colin J. Schroën, Karin Martins dos Santos, Vítor A. P. Spaans, Sebastiaan K. Hugenholtz, Floor van Passel, Mark W. J. |
| author_sort | Hesselman, Matthijn C. |
| collection | PubMed |
| description | Novel microbial cultivation platforms are of increasing interest to researchers in academia and industry. The development of materials with specialized chemical and geometric properties has opened up new possibilities in the study of previously unculturable microorganisms and has facilitated the design of elegant, high-throughput experimental set-ups. Within the context of the international Genetically Engineered Machine (iGEM) competition, we set out to design, manufacture, and implement a flow device that can accommodate multiple growth platforms, that is, a silicon nitride based microsieve and a porous aluminium oxide based microdish. It provides control over (co-)culturing conditions similar to a chemostat, while allowing organisms to be observed microscopically. The device was designed to be affordable, reusable, and above all, versatile. To test its functionality and general utility, we performed multiple experiments with Escherichia coli cells harboring synthetic gene circuits and were able to quantitatively study emerging expression dynamics in real-time via fluorescence microscopy. Furthermore, we demonstrated that the device provides a unique environment for the cultivation of nematodes, suggesting that the device could also prove useful in microscopy studies of multicellular microorganisms. |
| format | Online Article Text |
| id | pubmed-3351485 |
| institution | National Center for Biotechnology Information |
| language | English |
| publishDate | 2012 |
| publisher | Public Library of Science |
| record_format | MEDLINE/PubMed |
| spelling | pubmed-33514852012-05-17 A Multi-Platform Flow Device for Microbial (Co-) Cultivation and Microscopic Analysis Hesselman, Matthijn C. Odoni, Dorett I. Ryback, Brendan M. de Groot, Suzette van Heck, Ruben G. A. Keijsers, Jaap Kolkman, Pim Nieuwenhuijse, David van Nuland, Youri M. Sebus, Erik Spee, Rob de Vries, Hugo Wapenaar, Marten T. Ingham, Colin J. Schroën, Karin Martins dos Santos, Vítor A. P. Spaans, Sebastiaan K. Hugenholtz, Floor van Passel, Mark W. J. PLoS One Research Article Novel microbial cultivation platforms are of increasing interest to researchers in academia and industry. The development of materials with specialized chemical and geometric properties has opened up new possibilities in the study of previously unculturable microorganisms and has facilitated the design of elegant, high-throughput experimental set-ups. Within the context of the international Genetically Engineered Machine (iGEM) competition, we set out to design, manufacture, and implement a flow device that can accommodate multiple growth platforms, that is, a silicon nitride based microsieve and a porous aluminium oxide based microdish. It provides control over (co-)culturing conditions similar to a chemostat, while allowing organisms to be observed microscopically. The device was designed to be affordable, reusable, and above all, versatile. To test its functionality and general utility, we performed multiple experiments with Escherichia coli cells harboring synthetic gene circuits and were able to quantitatively study emerging expression dynamics in real-time via fluorescence microscopy. Furthermore, we demonstrated that the device provides a unique environment for the cultivation of nematodes, suggesting that the device could also prove useful in microscopy studies of multicellular microorganisms. Public Library of Science 2012-05-14 /pmc/articles/PMC3351485/ /pubmed/22606321 http://dx.doi.org/10.1371/journal.pone.0036982 Text en Hesselman et al. http://creativecommons.org/licenses/by/4.0/ This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are properly credited. |
| spellingShingle | Research Article Hesselman, Matthijn C. Odoni, Dorett I. Ryback, Brendan M. de Groot, Suzette van Heck, Ruben G. A. Keijsers, Jaap Kolkman, Pim Nieuwenhuijse, David van Nuland, Youri M. Sebus, Erik Spee, Rob de Vries, Hugo Wapenaar, Marten T. Ingham, Colin J. Schroën, Karin Martins dos Santos, Vítor A. P. Spaans, Sebastiaan K. Hugenholtz, Floor van Passel, Mark W. J. A Multi-Platform Flow Device for Microbial (Co-) Cultivation and Microscopic Analysis |
| title | A Multi-Platform Flow Device for Microbial (Co-) Cultivation and Microscopic Analysis |
| title_full | A Multi-Platform Flow Device for Microbial (Co-) Cultivation and Microscopic Analysis |
| title_fullStr | A Multi-Platform Flow Device for Microbial (Co-) Cultivation and Microscopic Analysis |
| title_full_unstemmed | A Multi-Platform Flow Device for Microbial (Co-) Cultivation and Microscopic Analysis |
| title_short | A Multi-Platform Flow Device for Microbial (Co-) Cultivation and Microscopic Analysis |
| title_sort | multi-platform flow device for microbial (co-) cultivation and microscopic analysis |
| topic | Research Article |
| url | https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3351485/ https://www.ncbi.nlm.nih.gov/pubmed/22606321 http://dx.doi.org/10.1371/journal.pone.0036982 |
| work_keys_str_mv | AT hesselmanmatthijnc amultiplatformflowdeviceformicrobialcocultivationandmicroscopicanalysis AT odonidoretti amultiplatformflowdeviceformicrobialcocultivationandmicroscopicanalysis AT rybackbrendanm amultiplatformflowdeviceformicrobialcocultivationandmicroscopicanalysis AT degrootsuzette amultiplatformflowdeviceformicrobialcocultivationandmicroscopicanalysis AT vanheckrubenga amultiplatformflowdeviceformicrobialcocultivationandmicroscopicanalysis AT keijsersjaap amultiplatformflowdeviceformicrobialcocultivationandmicroscopicanalysis AT kolkmanpim amultiplatformflowdeviceformicrobialcocultivationandmicroscopicanalysis AT nieuwenhuijsedavid amultiplatformflowdeviceformicrobialcocultivationandmicroscopicanalysis AT vannulandyourim amultiplatformflowdeviceformicrobialcocultivationandmicroscopicanalysis AT sebuserik amultiplatformflowdeviceformicrobialcocultivationandmicroscopicanalysis AT speerob amultiplatformflowdeviceformicrobialcocultivationandmicroscopicanalysis AT devrieshugo amultiplatformflowdeviceformicrobialcocultivationandmicroscopicanalysis AT wapenaarmartent amultiplatformflowdeviceformicrobialcocultivationandmicroscopicanalysis AT inghamcolinj amultiplatformflowdeviceformicrobialcocultivationandmicroscopicanalysis AT schroenkarin amultiplatformflowdeviceformicrobialcocultivationandmicroscopicanalysis AT martinsdossantosvitorap amultiplatformflowdeviceformicrobialcocultivationandmicroscopicanalysis AT spaanssebastiaank amultiplatformflowdeviceformicrobialcocultivationandmicroscopicanalysis AT hugenholtzfloor amultiplatformflowdeviceformicrobialcocultivationandmicroscopicanalysis AT vanpasselmarkwj amultiplatformflowdeviceformicrobialcocultivationandmicroscopicanalysis AT hesselmanmatthijnc multiplatformflowdeviceformicrobialcocultivationandmicroscopicanalysis AT odonidoretti multiplatformflowdeviceformicrobialcocultivationandmicroscopicanalysis AT rybackbrendanm multiplatformflowdeviceformicrobialcocultivationandmicroscopicanalysis AT degrootsuzette multiplatformflowdeviceformicrobialcocultivationandmicroscopicanalysis AT vanheckrubenga multiplatformflowdeviceformicrobialcocultivationandmicroscopicanalysis AT keijsersjaap multiplatformflowdeviceformicrobialcocultivationandmicroscopicanalysis AT kolkmanpim multiplatformflowdeviceformicrobialcocultivationandmicroscopicanalysis AT nieuwenhuijsedavid multiplatformflowdeviceformicrobialcocultivationandmicroscopicanalysis AT vannulandyourim multiplatformflowdeviceformicrobialcocultivationandmicroscopicanalysis AT sebuserik multiplatformflowdeviceformicrobialcocultivationandmicroscopicanalysis AT speerob multiplatformflowdeviceformicrobialcocultivationandmicroscopicanalysis AT devrieshugo multiplatformflowdeviceformicrobialcocultivationandmicroscopicanalysis AT wapenaarmartent multiplatformflowdeviceformicrobialcocultivationandmicroscopicanalysis AT inghamcolinj multiplatformflowdeviceformicrobialcocultivationandmicroscopicanalysis AT schroenkarin multiplatformflowdeviceformicrobialcocultivationandmicroscopicanalysis AT martinsdossantosvitorap multiplatformflowdeviceformicrobialcocultivationandmicroscopicanalysis AT spaanssebastiaank multiplatformflowdeviceformicrobialcocultivationandmicroscopicanalysis AT hugenholtzfloor multiplatformflowdeviceformicrobialcocultivationandmicroscopicanalysis AT vanpasselmarkwj multiplatformflowdeviceformicrobialcocultivationandmicroscopicanalysis |