12 nəticələr
A highly stable cysteine protease was purified to homogeneity from the latex of Ervatamia coronaria by a simple purification procedure involving ammonium sulfate precipitation and ion-exchange chromatography. The molecular mass was estimated to be approximately 25,000 Da by SDS-PAGE and gel
The ervatamins are highly stable cysteine proteases that are present in the latex of the medicinal plant Ervatamia coronaria and belong to the papain family, members of which share similar amino-acid sequences and also a similar fold comprising two domains. Ervatamin A from this family, a highly
Latex of the medicinal plant Ervatamia coronaria was found to contain at least three cysteine proteases with high proteolytic activity, called ervatamins. One of these proteases, named ervatamin B, has been purified to homogeneity using ion-exchange chromatography and crystallization. The molecular
Ervatamin C is an unusually stable cysteine protease from the medicinal plant Ervatamia coronaria belonging to the papain family. Though it cleaves denatured natural proteins with high specific activity, its activity toward some small synthetic substrates is found to be insignificant. The
Multiple proteases of the same family are quite often present in the same species in biological systems. These multiple proteases, despite having high homology in their primary and tertiary structures, show deviations in properties such as stability, activity, and specificity. It is of interest,
Two highly stable cysteine proteases, ervatamin B (ERV-B) and ervatamin C (ERV-C), purified from the latex of the medicinal plant E. coronaria have been crystallized at room temperature. Crystals of ERV-B and ERV-C diffract to 2.5 and 2.6 A, respectively. The space group is P212121 for the crystals
Ervatamins (A, B and C) are papain-like cysteine proteases from the plant Ervatamia coronaria. Among Ervatamins, Ervatamin-C is a thermostable protease, but it shows lower catalytic efficiency. In contrast, Ervatamin-A which has a high amino acid sequence identity (∼90%) and structural homology (Cα
The crystal structure of a cysteine protease ervatamin B, isolated from the medicinal plant Ervatamia coronaria, has been determined at 1.63 A. The unknown primary structure of the enzyme could also be traced from the high-quality electron density map. The final refined model, consisting of 215
BACKGROUND
The latex of Ervatamia heyneana (Wall.) T. Cooke plant has been used for wound healing and various skin diseases by Indian tribes and folklore.
OBJECTIVE
To validate the scientific basis of heynein - a key protease of Ervatamia heyneana, in hemostasis and wound healing
Ervatamia coronaria, a flowering plant (family Apocynaceae) indigenous to India, has medicinally important applications. A search for biochemical constituents of the latex of the plant yielded at least three thiol proteases with distinctly different properties. One of them, a highly active protease
A cysteine protease, with a high cysteine content and a high degree of amino terminal sequence homology with ervatamins B and C, has been purified from the latex of Ervatamia heyneana (Family Apocynaceae). The enzyme designated as heynein (M(r) = 23 kDa) has a comparatively high cysteine content
Ervatamin A, a cysteine proteases from Ervatamia coronaria, has been used as model system to examine structure-function relationship by equilibrium unfolding methods. Ervatamin A belongs to alpha+beta class of proteins and exhibit stability towards temperature and chemical denaturants. Acid induced