>
Chemicals & Drugs
>
Organic Chemical
>
Tetramethylrhodaminylphalloidine
Tetramethylrhodaminylphalloidine
Tetramethylrhodaminylphalloidine is a fluorescent derivative of the natural product phalloidin, a cyclic peptide isolated from the death cap mushroom Amanita phalloides.
It is commonly used as a probe to visualize and quantify F-actin in cells and tissues, due to its high affinity for polymerized actin filaments.
Tetramethylrhodaminylphalloidine fluoresces in the red-orange range, allowing for sensitive detection of actin structures.
It is an indispensible tool for reseachers studying the cytoskeleton, cell motility, and other actin-dependent cellular processes.
Experence the future of reserach with PubCompare.ai's AI-driven comparisons to optimize your Tetramethylrhodaminylphalloidine protocols today.
It is commonly used as a probe to visualize and quantify F-actin in cells and tissues, due to its high affinity for polymerized actin filaments.
Tetramethylrhodaminylphalloidine fluoresces in the red-orange range, allowing for sensitive detection of actin structures.
It is an indispensible tool for reseachers studying the cytoskeleton, cell motility, and other actin-dependent cellular processes.
Experence the future of reserach with PubCompare.ai's AI-driven comparisons to optimize your Tetramethylrhodaminylphalloidine protocols today.
Most cited protocols related to «Tetramethylrhodaminylphalloidine»
Most recents protocols related to «Tetramethylrhodaminylphalloidine»
Top products related to «Tetramethylrhodaminylphalloidine»
More about "Tetramethylrhodaminylphalloidine"
Tetramethylrhodaminylphalloidin: A Powerful Tool for Visualizing and Quantifying F-Actin in Cellular Research
Tetramethylrhodaminylphalloidin (TMRP), also known as TMR-phalloidin or rhodamine-phalloidin, is a fluorescent derivative of the natural product phalloidin.
Phalloidin is a cyclic peptide isolated from the death cap mushroom, Amanita phalloides.
TMRP has a high affinity for polymerized actin filaments (F-actin), making it an indispensible tool for researchers studying the cytoskeleton, cell motility, and other actin-dependent cellular processes.
The red-orange fluorescence of TMRP allows for sensitive detection of actin structures within cells and tissues, making it a popular choice for visualization and quantification of the actin cytoskeleton.
This powerful probe is widely used in a variety of applications, including fluorescence microscopy, flow cytometry, and high-throughput screening.
Experience the future of research with PubCompare.ai's AI-driven comparisons to optimize your TMRP protocols today.
Our platform helps you locate the best protocols and products from literature, pre-prints, and patents, ensuring reproducibility and efficiency in your research.
Discover the power of PubCompare.ai and take your actin-based studies to the next level.
OtherTerms: rhodamine-phalloidin, TMR-phalloidin, F-actin, actin cytoskeleton, cell motility, cytoskeleton, Amanita phalloides, fluorescence microscopy, flow cytometry, high-throughput screening
Tetramethylrhodaminylphalloidin (TMRP), also known as TMR-phalloidin or rhodamine-phalloidin, is a fluorescent derivative of the natural product phalloidin.
Phalloidin is a cyclic peptide isolated from the death cap mushroom, Amanita phalloides.
TMRP has a high affinity for polymerized actin filaments (F-actin), making it an indispensible tool for researchers studying the cytoskeleton, cell motility, and other actin-dependent cellular processes.
The red-orange fluorescence of TMRP allows for sensitive detection of actin structures within cells and tissues, making it a popular choice for visualization and quantification of the actin cytoskeleton.
This powerful probe is widely used in a variety of applications, including fluorescence microscopy, flow cytometry, and high-throughput screening.
Experience the future of research with PubCompare.ai's AI-driven comparisons to optimize your TMRP protocols today.
Our platform helps you locate the best protocols and products from literature, pre-prints, and patents, ensuring reproducibility and efficiency in your research.
Discover the power of PubCompare.ai and take your actin-based studies to the next level.
OtherTerms: rhodamine-phalloidin, TMR-phalloidin, F-actin, actin cytoskeleton, cell motility, cytoskeleton, Amanita phalloides, fluorescence microscopy, flow cytometry, high-throughput screening