Comparison of glass etching to xurography prototyping of microfluidic channels for DNA melting analysis
暂无分享,去创建一个
Carl T. Wittwer | Bruce K. Gale | C. Wittwer | B. Gale | S. Sundberg | Jenny Greer | Scott O. Sundberg | J. Greer
[1] G. Whitesides,et al. Rapid prototyping of microfluidic switches in poly(dimethyl siloxane) and their actuation by electro-osmotic flow , 1999 .
[2] K. Voelkerding,et al. Amplicon DNA melting analysis for mutation scanning and genotyping: cross-platform comparison of instruments and dyes. , 2006, Clinical chemistry.
[3] D. Bartholomeusz,et al. Xurography: rapid prototyping of microstructures using a cutting plotter , 2005, Journal of Microelectromechanical Systems.
[4] C. N. Gundry,et al. Amplicon melting analysis with labeled primers: a closed-tube method for differentiating homozygotes and heterozygotes. , 2003, Clinical chemistry.
[5] D. Garling,et al. Minimizing the time required for DNA amplification by efficient heat transfer to small samples. , 1990, Analytical biochemistry.
[6] C. Iliescu,et al. Wet etching of glass , 2005, CAS 2005 Proceedings. 2005 International Semiconductor Conference, 2005..
[7] Richard A. Mathies,et al. Microfabrication Technology for the Production of Capillary Array Electrophoresis Chips , 1998 .
[8] P. Neužil,et al. Disposable real-time microPCR device: lab-on-a-chip at a low cost. , 2006, Molecular bioSystems.
[9] M. Vellekoop,et al. Glass-to-glass anodic bonding with standard IC technology thin films as intermediate layers , 2000 .
[10] Kirk M. Ririe,et al. Product differentiation by analysis of DNA melting curves during the polymerase chain reaction. , 1997, Analytical biochemistry.
[11] K. Mullis,et al. Enzymatic amplification of beta-globin genomic sequences and restriction site analysis for diagnosis of sickle cell anemia. , 1985, Science.
[12] C. Wittwer,et al. Solution-phase DNA mutation scanning and SNP genotyping by nanoliter melting analysis , 2007, Biomedical microdevices.
[13] H. Fouckhardt,et al. Deep wet etching of fused silica glass for hollow capillary optical leaky waveguides in microfluidic devices , 2001 .
[14] Hong Yang,et al. Water-assisted drilling of microfluidic chambers inside silica glass with femtosecond laser pulses , 2006 .
[15] Alan G. R. Evans,et al. Closed chamber PCR-chips for DNA amplification , 2000 .
[16] J. Marmur,et al. [109] Use of ultraviolet absorbance-temperature profile for determining the guanine plus cytosine content of DNA , 1968 .
[17] Tiechuan Zuo,et al. Micro Flow-through PCR in a PMMA Chip Fabricated by KrF Excimer Laser , 2005, Biomedical microdevices.
[18] O. Tabata,et al. Micropowder blasting with nanoparticles dispersed polymer mask for rapid prototyping of glass chip , 2005 .
[19] Kai Du,et al. The ΔF508 cystic fibrosis mutation impairs domain-domain interactions and arrests post-translational folding of CFTR , 2005, Nature Structural &Molecular Biology.
[20] E. Verpoorte. Microfluidic chips for clinical and forensic analysis , 2002, Electrophoresis.
[21] Dong-Chul Han,et al. PDMS-based micro PCR chip with Parylene coating , 2003 .
[22] Carl T Wittwer,et al. High-resolution genotyping by amplicon melting analysis using LCGreen. , 2003, Clinical chemistry.
[23] Govind V Kaigala,et al. Rapid prototyping of microfluidic devices with a wax printer. , 2007, Lab on a chip.