Literature DB >> 23208075

Microfluidic devices for X-ray studies on hydrated cells.

Britta Weinhausen1, Sarah Köster.   

Abstract

X-ray studies of biological cells in microfluidic devices provide a method to probe cellular structures or structural changes at the molecular level in a precisely controlled environment. However, the device design and the used materials must be compatible with X-ray scattering techniques as well as the cell culture in the devices. For this purpose, we develop new types of X-ray compatible microfluidic devices, which are based on a UV-curable adhesive as a moldable material, and thin Kapton films and silicon nitride membrane windows as a growth substrate for cells and as a window material for X-rays. Using these devices, we perform scanning X-ray diffraction experiments with a nano-focused beam on fixed cells in buffer solution. In principle, these microfluidic devices also allow for X-ray studies on living cells.

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Year:  2012        PMID: 23208075     DOI: 10.1039/c2lc41014a

Source DB:  PubMed          Journal:  Lab Chip        ISSN: 1473-0189            Impact factor:   6.799


  12 in total

1.  Development of a single-cell X-ray fluorescence flow cytometer.

Authors:  Andrew M Crawford; Patrick Kurecka; Tsz Kwan Yim; Claire Kozemchak; Aniruddha Deb; Lubomír Dostál; Cheng Jun Sun; Dale L Brewe; Raul Barrea; James E Penner-Hahn
Journal:  J Synchrotron Radiat       Date:  2016-06-17       Impact factor: 2.616

2.  A Rapidly Fabricated Microfluidic Chip for Cell Culture.

Authors:  Rui Li; Xuefei Lv; Murtaza Hasan; Jiandong Xu; Yuanqing Xu; Xingjian Zhang; Kuiwei Qin; Jianshe Wang; Di Zhou; Yulin Deng
Journal:  J Chromatogr Sci       Date:  2015-12-11       Impact factor: 1.618

3.  An X-ray transparent microfluidic platform for screening of the phase behavior of lipidic mesophases.

Authors:  Daria S Khvostichenko; Elena Kondrashkina; Sarah L Perry; Ashtamurthy S Pawate; Keith Brister; Paul J A Kenis
Journal:  Analyst       Date:  2013-07-24       Impact factor: 4.616

4.  Room-temperature serial crystallography using a kinetically optimized microfluidic device for protein crystallization and on-chip X-ray diffraction.

Authors:  Michael Heymann; Achini Opthalage; Jennifer L Wierman; Sathish Akella; Doletha M E Szebenyi; Sol M Gruner; Seth Fraden
Journal:  IUCrJ       Date:  2014-08-25       Impact factor: 4.769

5.  Scanning x-ray nanodiffraction on Dictyostelium discoideum.

Authors:  Marius Priebe; Marten Bernhardt; Christoph Blum; Marco Tarantola; Eberhard Bodenschatz; Tim Salditt
Journal:  Biophys J       Date:  2014-12-02       Impact factor: 4.033

6.  Correlative microscopy approach for biology using X-ray holography, X-ray scanning diffraction and STED microscopy.

Authors:  M Bernhardt; J-D Nicolas; M Osterhoff; H Mittelstädt; M Reuss; B Harke; A Wittmeier; M Sprung; S Köster; T Salditt
Journal:  Nat Commun       Date:  2018-09-07       Impact factor: 14.919

Review 7.  Microscopic Imaging Methods for Organ-on-a-Chip Platforms.

Authors:  Bailey C Buchanan; Jeong-Yeol Yoon
Journal:  Micromachines (Basel)       Date:  2022-02-19       Impact factor: 2.891

8.  Development of a sticker sealed microfluidic device for in situ analytical measurements using synchrotron radiation.

Authors:  Itamar T Neckel; Lucas F de Castro; Flavia Callefo; Verônica C Teixeira; Angelo L Gobbi; Maria H Piazzetta; Ricardo A G de Oliveira; Renato S Lima; Rafael A Vicente; Douglas Galante; Helio C N Tolentino
Journal:  Sci Rep       Date:  2021-12-08       Impact factor: 4.379

9.  Room-temperature macromolecular serial crystallography using synchrotron radiation.

Authors:  Francesco Stellato; Dominik Oberthür; Mengning Liang; Richard Bean; Cornelius Gati; Oleksandr Yefanov; Anton Barty; Anja Burkhardt; Pontus Fischer; Lorenzo Galli; Richard A Kirian; Jan Meyer; Saravanan Panneerselvam; Chun Hong Yoon; Fedor Chervinskii; Emily Speller; Thomas A White; Christian Betzel; Alke Meents; Henry N Chapman
Journal:  IUCrJ       Date:  2014-05-30       Impact factor: 4.769

10.  Live cell X-ray imaging of autophagic vacuoles formation and chromatin dynamics in fission yeast.

Authors:  Natalja Strelnikova; Nora Sauter; Manuel Guizar-Sicairos; Michael Göllner; Ana Diaz; Petrina Delivani; Mariola Chacón; Iva M Tolić; Vasily Zaburdaev; Thomas Pfohl
Journal:  Sci Rep       Date:  2017-10-23       Impact factor: 4.379
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