Technical Report
Cell lysis methods for high‐throughput screening or miniaturized assays
Abstract
The widely and routinely used cell lysis techniques are still being evolved to address the technical needs of micro‐scale sample processing, for example in high‐throughput screening or miniaturized assays. This review focuses on several recently emerged mechanical, physical and biological methods designed for lysing cells on small scales for screening or analysis.
Citing Literature
Number of times cited: 12
- Florian Glauche, Maciej Pilarek, Mariano Nicolas Cruz Bournazou, Petra Grunzel and Peter Neubauer, Design of experiments‐based high‐throughput strategy for development and optimization of efficient cell disruption protocols, Engineering in Life Sciences, 17, 11, (1166-1172), (2016).
- Mohammed Shehadul Islam, Aditya Aryasomayajula and Ponnambalam Selvaganapathy, A Review on Macroscale and Microscale Cell Lysis Methods, Micromachines, 8, 3, (83), (2017).
- Mei Yuan, Xiaolan Yang, Yuwei Li, Hongbo Liu, Jun Pu, Chang-guo Zhan and Fei Liao, Facile Alkaline Lysis of Escherichia coli Cells in High-Throughput Mode for Screening Enzyme Mutants: Arylsulfatase as an Example, Applied Biochemistry and Biotechnology, 179, 4, (545), (2016).
- Christian Witte, Clemens Kremer, Mayuree Chanasakulniyom, Julien Reboud, Rab Wilson, Jonathan M. Cooper and Steven L. Neale, Spatially Selecting a Single Cell for Lysis Using Light‐Induced Electric Fields, Small, 10, 15, (3026-3031), (2014).
- Mark R. Hartman, Roanna C. H. Ruiz, Shogo Hamada, Chuanying Xu, Kenneth G. Yancey, Yan Yu, Wei Han and Dan Luo, Point-of-care nucleic acid detection using nanotechnology, Nanoscale, 10.1039/c3nr04015a, 5, 21, (10141), (2013).
- Alois Jungbauer, Continuous downstream processing of biopharmaceuticals, Trends in Biotechnology, 10.1016/j.tibtech.2013.05.011, 31, 8, (479-492), (2013).
- E. Sharif, J. Kiely, P. Wraith and R. Luxton, The Dual Role of Paramagnetic Particles for Integrated Lysis and Measurement in a Rapid Immunoassay for Intracellular Proteins, IEEE Transactions on Biomedical Engineering, 60, 5, (1209), (2013).
- Sandeep Kumar Jha, Rohit Chand, Dawoon Han, You-Cheol Jang, Gyu-Sik Ra, Joung Sug Kim, Baek-Hie Nahm and Yong-Sang Kim, An integrated PCR microfluidic chip incorporating aseptic electrochemical cell lysis and capillary electrophoresis amperometric DNA detection for rapid and quantitative genetic analysis, Lab on a Chip, 12, 21, (4455), (2012).
- Sandeep Kumar Jha, Gi-Sung Joo, Gyu-Sik Ra, Hyun Ho Lee and Yong-Sang Kim, Development of PCR Microchip for Early Cancer Risk Prediction, IEEE Sensors Journal, 11, 9, (2065), (2011).
- Agustín Correa and Pablo Oppezzo, Tuning different expression parameters to achieve soluble recombinant proteins in E. coli: Advantages of high‐throughput screening, Biotechnology Journal, 6, 6, (715-730), (2011).
- Lorenzo Pasotti, Susanna Zucca, Manuel Lupotto, Maria Cusella De Angelis and Paolo Magni, Characterization of a synthetic bacterial self-destruction device for programmed cell death and for recombinant proteins release, Journal of Biological Engineering, 10.1186/1754-1611-5-8, 5, 1, (8), (2011).
- Sandeep Kumar Jha, Gyu-Sik Ra, Gi-Sung Joo and Yong-Sang Kim, Electrochemical cell lysis on a miniaturized flow-through device, Current Applied Physics, 9, 4, (e301), (2009).
