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info@qbiot.net

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QBioT, Inc, 4860 Cox Road Suite 200, Glen Allen, VA 23059

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Red Fluorescent Protein

Qbiot/Fluorescent Proteins / Red Fluorescent Protein

Red Fluorescent Protein (RFP)

QBioT's Red Fluorescent Protein (RFP) is a cutting-edge molecular tool sourced from Porphyra and Porphyridium, two distinct types of algae. This RFP variant is characterized by its vibrant red emission spectrum and stands out for its exceptional applications and technical attributes in fluorescence imaging.

The source algae contribute to the unique spectral properties of RFP, making it an ideal choice for multicolor imaging applications. RFP excels in unraveling intricate protein-protein interactions within cells and serves as a powerful tool for dynamic cellular studies.

QBioT ensures a high purity index for RFP, minimizing background noise and optimizing signal clarity, ensuring exceptional brightness and stability for demanding imaging applications. The spectral reference for RFP includes an emission spectrum with a peak at approximately 590 nm, and optimal excitation occurs at around 555 nm.

50

Institutional
tie-ups 50+

2500

Retailer 2500+

200

Clients
Algal Production Volume 550+

These technical specifications make Porphyra and Porphyridium-derived RFP a robust and reliable choice for researchers seeking a molecular tool that excels in complex fluorescence imaging experiments. In closing, QBioT's Red FP embodies the company's commitment to providing advanced tools for molecular and cellular exploration, offering scientists an invaluable resource for unlocking the secrets of cellular dynamics with precision and versatility.

The Red Fluorescent Protein (RFP) from QBioT, sourced from Porphyra and Porphyridium algae, is a versatile molecular tool with a diverse range of applications in fluorescence imaging and cellular studies. Some key applications include:

RFP's vibrant red emission spectrum makes it an ideal candidate for multicolor imaging studies. Researchers can use RFP in conjunction with other fluorescent proteins to label and study multiple cellular components simultaneously.

RFP serves as a powerful tool for studying protein-protein interactions within cells. By tagging proteins with RFP, researchers can visualize and analyze dynamic molecular interactions, gaining insights into cellular processes.

The stability and brightness of RFP make it well-suited for live-cell imaging applications. Researchers can track and observe dynamic cellular processes in real-time, providing valuable information about cellular behaviors.

RFP is widely used in fluorescence microscopy to capture high-resolution images of cellular structures. Its compatibility with various microscopy techniques enhances the precision of imaging experiments.

RFP facilitates the study of dynamic cellular processes by allowing researchers to track changes and movements within cells. This is particularly valuable for understanding how cells respond to different stimuli or environmental conditions

Researchers utilize RFP for studying the localization of proteins within cells. By tagging specific proteins with RFP, scientists can determine their spatial distribution and gain insights into their functions within cellular structures.

RFP can be paired with other fluorophores for FRET studies, enabling researchers to investigate molecular interactions and conformational changes in real-time within living cells.

RFP is employed in various biomedical research applications, including the development of biosensors and probes for studying specific cellular processes. Its brightness and stability make it valuable for applications related to drug discovery and development.
The Red Fluorescent Protein from QBioT demonstrates exceptional versatility, enabling researchers to address a wide array of scientific questions related to cellular dynamics, interactions, and functions with precision and reliability.

Emission Spectrum: λ_max ~ 590 nm
Excitation: Optimally excited at ~ 555 nm