TopBanner

Cart empty

User Account

 

Amino Blue™ pH Sensor

Ursa BioScience offers both an absorption (colorimetric) and fluorescence emission wavelength ratiometric pH Probe, which responds over the pH range 6-8, making it ideal for physiological measurements, such as cellular studies, imaging and microscopy.

Amino Blue™ shows an absorption wavelength ratiometric response to pH in the 325 – 450 nm range and a fluorescence emission wavelength ratiometric response from 400-700 nm. The Quantum yield of Amino Blue™ is ~0.5.

Fig1 w200 h140

Figure 1. Absorption spectrum of Amino Blue™ with increasing pH.

Fig2 w200 h140

Figure 2. Wavelength ratiometric plots for both Amino Blue™ and Amino Blue C™ based on the A340/A388 nm bands.

 

Amino Blue C™ – pH Control Fluorophore

Ursa BioScience also offers a Control pH Fluorescent Compound for Amino Blue™. Our Amino Blue C™ has the same chromophore fluorescent backbone, but is only very mildly influenced by pH. For researcher’s and physicians alike undertaking pH analysis, Amino Blue C™ allows for any background interference of the parent fluorophore Amino Blue™ to be corrected for, while not changing any fluorescence instrumentation or filter settings. Subsequently, Amino Blue C™ does not show any ratiometric response to cyanide.  Amino Blue C™ can be readily excited from 375-450 nm, with an emission centered at 560 nm.  

 

Advantages of Ursa's Amino Blue™ Fluorescence-Wavelength Ratiometric Approach

Fluorescence emission spectra of Amino Blue™

Figure 3. Fluorescence emission spectra of Amino Blue™ with increasing pH.

It is widely accepted that fluorescence ratiometric or lifetime based methods offer intrinsic advantages for both chemical and biomedical fluorescence sensing. Simple Fluorescence intensity measurements are typically unreliable away from the laboratory and can require frequent calibration/s due to a variety of chemical, optical or other instrumental related factors. Unfortunately, while fluorescent probes are known to be useful for many applications such as in fluorescence microscopy, fluorescence sensing and DNA technology, most sensing fluorophores only display changes in intensity in response to analytes and hence relatively few wavelength ratiometric probes are available today. Ursa’s range of sensing probes (Cyanide, pH and Fluoride) offer significant advantages of being both excitation (colorimetric) and emission-wavelength ratiometric, with excitation and emission wavelengths over user friendly ranges.