Diverse stability and catalytic properties of human tryptase α and β isoforms are mediated by residue differences at the S1 pocket
@article{Selwood2002DiverseSA,
title={Diverse stability and catalytic properties of human tryptase $\alpha$ and $\beta$ isoforms are mediated by residue differences at the S1 pocket},
author={Trevor Selwood and Zhi-mei Wang and Darrell R. McCaslin and Norman M. Schechter},
journal={Biochemistry},
year={2002},
volume={41},
pages={3329-3340}
}Recombinant human tryptases (rHTs) corresponding to R and ‚ isoforms were characterized. rHT‚ was similar to tryptase isolated from skin (HST); it was a tetramer, hydrolyzed model substrates efficiently, and was functionally unstable when incubated under physiological conditions. Activity was lost rapidly (t1/2 1 min) by a reversible process similar to that observed for the spontaneous inactivation of HST. Circular dichroism (CD) and intrinsic fluorescence emission (IFE) spectra of active rH…
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