Blue Fluorescent Protein

Qbiot/Fluorescent Proteins / Blue Fluorescent Protein

Blue Fluorescent Protein

QBioT's Blue Fluorescent Protein (BFP) is an extraordinary molecular tool harnessed from the radiant Spirulina. This BFP variant stands out for its exceptional applications and technical attributes, making it an indispensable asset in fluorescence imaging. Sourced from Spirulina, a resilient microalgae, the Blue FP exhibits a distinct blue emission spectrum, optimal for cellular labeling and in vivo imaging studies.

Its versatility extends to dynamic cellular applications, allowing researchers to visualize and track intricate cellular processes with high sensitivity and precision.

QBioT ensures a high purity index for BFP, minimizing background noise and optimizing signal clarity in various experimental setups. The spectral reference for BFP includes an emission spectrum with a peak at approximately 470 nm, with optimal excitation occurring at around 400 nm.

50

Institutional
tie-ups 50+

2500

Retailer 2500+

200

Clients
Algal Production Volume 550+

These technical specifications make Spirulina-derived BFP a robust and reliable choice for researchers seeking a molecular tool that excels in demanding fluorescence applications. In closing, QBioT's Blue FP stands as a testament to the company's commitment to providing cutting-edge tools for molecular and cellular exploration, offering scientists an invaluable resource for unraveling the mysteries of the microscopic world with unparalleled precision.

The Blue Fluorescent Protein (BFP) from QBioT, sourced from Spirulina, showcases a diverse range of applications in fluorescence imaging and molecular studies. Some key applications include:

BFP serves as a precise and reliable marker for cellular structures, allowing researchers to label specific components within living cells with exceptional clarity.

With its distinct blue emission spectrum, BFP is well-suited for in vivo imaging studies. It provides researchers with the ability to visualize and monitor biological processes in real-time within living organisms.

BFP is an invaluable tool for live-cell imaging applications. Its stability and brightness make it suitable for tracking dynamic cellular processes over extended periods, providing insights into cellular behaviors and functions.

BFP is widely utilized in fluorescence microscopy, enabling researchers to capture detailed and high-resolution images of cellular structures. Its compatibility with various microscopy techniques enhances the precision of imaging experiments.

The unique spectral properties of BFP make it ideal for studying dynamic cellular processes. Researchers can use BFP to investigate changes and movements within cells, contributing to a better understanding of cellular behavior.

BFP can be employed in the development of biosensors, enabling the detection of specific molecular events within cells. Its fluorescence properties make it a valuable component in designing and optimizing biosensor systems.

Researchers leverage BFP for studying protein localization within cells. By tagging proteins with BFP, scientists can track the spatial distribution of proteins and gain insights into their cellular functions.

BFP's brightness and stability make it applicable in drug discovery and screening processes. It can be used as a reporter in assays to monitor cellular responses to drug treatments, aiding in the identification of potential therapeutic compounds.
The versatility of QBioT's Blue Fluorescent Protein extends across a spectrum of applications, empowering researchers to explore and visualize intricate biological processes with precision and reliability.

Emission Spectrum: λ_max ~ 470 nm
Excitation: Optimally excited at ~ 400 nm