C60.melt: Melt Curves MLC-2v and Vimentin for the qPCR Experiment...
In michbur/chipPCR: Toolkit of Helper Functions to Pre-Process Amplification Data
Description
Usage
Format
Details
Source
References
Examples
Description
Melting curves were continuously monitored with the Light Cycler 1.5
(Roche). For details on sample preparation refer to
C60.amp.
Usage
1
Format
A data frame with 128 observations on the following 65 variables. Refer
to C60.amp for details of the specific samples.
IndexIndex of elements
Vim.0.1.TTemperature
Vim.0.1.FFluorescence
Vim.0.2.TTemperature
Vim.0.2.FFluorescence
Vim.1.1.TTemperature
Vim.1.1.FFluorescence
Vim.1.2.TTemperature
Vim.1.2.FFluorescence
Vim.2.1.TTemperature
Vim.2.1.FFluorescence
Vim.2.2.TTemperature
Vim.2.2.FFluorescence
Vim.3.1.TTemperature
Vim.3.1.FFluorescence
Vim.3.2.TTemperature
Vim.3.2.FFluorescence
Vim.4.1.TTemperature
Vim.4.1.FFluorescence
Vim.4.2.TTemperature
Vim.4.2.FFluorescence
Vim.5.1.TTemperature
Vim.5.1.FFluorescence
Vim.5.2.TTemperature
Vim.5.2.FFluorescence
Vim.6.1.TTemperature
Vim.6.1.FFluorescence
Vim.6.2.TTemperature
Vim.6.2.FFluorescence
Vim.7.1.TTemperature
Vim.7.1.FFluorescence
Vim.7.2.TTemperature
Vim.7.2.FFluorescence
MLC2v.1.1.TTemperature
MLC2v.1.1.FFluorescence
MLC2v.1.2.TTemperature
MLC2v.1.2.FFluorescence
MLC2v.2.1.TTemperature
MLC2v.2.1.FFluorescence
MLC2v.2.2.TTemperature
MLC2v.2.2.FFluorescence
MLC2v.3.1.TTemperature
MLC2v.3.1.FFluorescence
MLC2v.3.2.TTemperature
MLC2v.3.2.FFluorescence
MLC2v.4.1.TTemperature
MLC2v.4.1.FFluorescence
MLC2v.4.2.TTemperature
MLC2v.4.2.FFluorescence
MLC2v.5.1.TTemperature
MLC2v.5.1.FFluorescence
MLC2v.5.2.TTemperature
MLC2v.5.2.FFluorescence
MLC2v.6.1.TTemperature
MLC2v.6.1.FFluorescence
MLC2v.6.2.TTemperature
MLC2v.6.2.FFluorescence
MLC2v.7.1.TTemperature
MLC2v.7.1.FFluorescence
MLC2v.7.2.TTemperature
MLC2v.7.2.FFluorescence
MLC2v.0.1.TTemperature
MLC2v.0.1.FFluorescence
MLC2v.0.2.TTemperature
MLC2v.0.2.FFluorescence
Details
Melting curves were continuously monitored with the Light Cycler 1.5
(Roche).
Source
Stefan Roediger, Claudia Deutschmann (BTU Cottbus - Senftenberg)
References
A Highly Versatile Microscope Imaging Technology Platform for
the Multiplex Real-Time Detection of Biomolecules and Autoimmune
Antibodies. S. Roediger, P. Schierack, A. Boehm, J. Nitschke, I. Berger, U.
Froemmel, C. Schmidt, M. Ruhland, I. Schimke, D. Roggenbuck, W. Lehmann and
C. Schroeder. Advances in Biochemical Bioengineering/Biotechnology.
133:33–74, 2013.
Mao, F., Leung, W.-Y., Xin, X., 2007. Characterization of EvaGreen and the
implication of its physicochemical properties for qPCR applications.
BMC Biotechnol. 7, 76.
Examples
1
2
michbur/chipPCR documentation built on Feb. 28, 2021, 5:57 p.m.
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Description Usage Format Details Source References Examples
Description
Melting curves were continuously monitored with the Light Cycler 1.5 (Roche). For details on sample preparation refer to C60.amp.
Usage
1 |
Format
A data frame with 128 observations on the following 65 variables. Refer to C60.amp for details of the specific samples.
IndexIndex of elements
Vim.0.1.TTemperature
Vim.0.1.FFluorescence
Vim.0.2.TTemperature
Vim.0.2.FFluorescence
Vim.1.1.TTemperature
Vim.1.1.FFluorescence
Vim.1.2.TTemperature
Vim.1.2.FFluorescence
Vim.2.1.TTemperature
Vim.2.1.FFluorescence
Vim.2.2.TTemperature
Vim.2.2.FFluorescence
Vim.3.1.TTemperature
Vim.3.1.FFluorescence
Vim.3.2.TTemperature
Vim.3.2.FFluorescence
Vim.4.1.TTemperature
Vim.4.1.FFluorescence
Vim.4.2.TTemperature
Vim.4.2.FFluorescence
Vim.5.1.TTemperature
Vim.5.1.FFluorescence
Vim.5.2.TTemperature
Vim.5.2.FFluorescence
Vim.6.1.TTemperature
Vim.6.1.FFluorescence
Vim.6.2.TTemperature
Vim.6.2.FFluorescence
Vim.7.1.TTemperature
Vim.7.1.FFluorescence
Vim.7.2.TTemperature
Vim.7.2.FFluorescence
MLC2v.1.1.TTemperature
MLC2v.1.1.FFluorescence
MLC2v.1.2.TTemperature
MLC2v.1.2.FFluorescence
MLC2v.2.1.TTemperature
MLC2v.2.1.FFluorescence
MLC2v.2.2.TTemperature
MLC2v.2.2.FFluorescence
MLC2v.3.1.TTemperature
MLC2v.3.1.FFluorescence
MLC2v.3.2.TTemperature
MLC2v.3.2.FFluorescence
MLC2v.4.1.TTemperature
MLC2v.4.1.FFluorescence
MLC2v.4.2.TTemperature
MLC2v.4.2.FFluorescence
MLC2v.5.1.TTemperature
MLC2v.5.1.FFluorescence
MLC2v.5.2.TTemperature
MLC2v.5.2.FFluorescence
MLC2v.6.1.TTemperature
MLC2v.6.1.FFluorescence
MLC2v.6.2.TTemperature
MLC2v.6.2.FFluorescence
MLC2v.7.1.TTemperature
MLC2v.7.1.FFluorescence
MLC2v.7.2.TTemperature
MLC2v.7.2.FFluorescence
MLC2v.0.1.TTemperature
MLC2v.0.1.FFluorescence
MLC2v.0.2.TTemperature
MLC2v.0.2.FFluorescence
Details
Melting curves were continuously monitored with the Light Cycler 1.5 (Roche).
Source
Stefan Roediger, Claudia Deutschmann (BTU Cottbus - Senftenberg)
References
A Highly Versatile Microscope Imaging Technology Platform for the Multiplex Real-Time Detection of Biomolecules and Autoimmune Antibodies. S. Roediger, P. Schierack, A. Boehm, J. Nitschke, I. Berger, U. Froemmel, C. Schmidt, M. Ruhland, I. Schimke, D. Roggenbuck, W. Lehmann and C. Schroeder. Advances in Biochemical Bioengineering/Biotechnology. 133:33–74, 2013.
Mao, F., Leung, W.-Y., Xin, X., 2007. Characterization of EvaGreen and the implication of its physicochemical properties for qPCR applications. BMC Biotechnol. 7, 76.
Examples
1 2 |
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