An acid phosphatase (acPAse) activity was released during germination and tube growth of pollen of Lilium longiflorum Thunb. By inhibiting components of the secretory pathway, the export of the acPase activity was affected and tube growth stopped. Brefeldin A (1 microM) and cytochalasin D (1 microM), which block the production and transport of secretory vesicles, respectively, inhibited the acPase secretion. The Ca2+ channel blocker gadolinium (100 microM Gd3+) also inhibited acPase secretion and tube growth, whereas 3 mM caffeine, another Ca2+ uptake inhibitor, stimulated the acPase release, while tube growth was inhibited. The Yariv reagent (beta-D-glucosyl)3 Yariv phenylglycoside stopped tube growth by binding to arabinogalactan proteins of the tube tip cell wall but did not affect acPase secretion. A strong correlation between tube growth and acPase release was detected. The secreted acPase activity had a pH optimum at pH 5.5, a KM of 0.4 mM for p-nitrophenyl phosphate, and was inhibited by zinc, molybdate, phosphate, and fluoride ions, but not by tartrate. In electrophoresis gels the main acPase activity was detected at 32 kDa. The conspicuous correlation between activity of the secretory pathway and acPase secretion during tube elongation strongly indicates an important role of the acPase during pollen tube growth and the secreted acPase activity may serve as a useful marker enzyme assay for secretory activity in pollen tubes.
Using a baiting technique, Chrysosporium georgiae was isolated from chicken feathers. Twenty-eight different fungal isolates were evaluated for their ability to produce keratinase enzymes using a keratin-salt agar medium containing either white chicken feathers or a prepared feather keratin suspension (KS). The Chrysosporium species were able to use keratin and grow at different rates. Chrysosporium georgiae completely degraded the added keratin after 9 days of incubation. Degradation of feathers by C. georgiae was affected by several cultural factors. Highest keratinolytic activity occurred after 3 weeks of incubation at 6 and 8 pH at 30 degrees C. Chrysosporium georgiae was able to degrade white chicken feathers, whereas bovine and human hair and sheep wool were not degraded and did not support fungal growth. Addition of 1% glucose to the medium containing keratin improved fungal growth and increased enzyme production. Higher keratin degradation resulted in high SH accumulation and the utilization of the carbohydrate carbon in the medium resulted in high keto-acid accumulation but decreased ammonia accumulation. Supplementation of the keratin-salt medium with minerals such as NH4Cl and MgSO4 slightly increased mycelial growth, but decreased production of extracellular keratinase. Keratinase enzymes were very poorly produced in the absence of keratin, indicating its inducible nature. Analysis of endocellular keratinases in the mycelial homogenate indicated higher activity of intracellular keratinase as compared to the extracellular enzyme in culture filtrates. Chrysosporium georgiae was the most superior for keratinase production among the Chrysosporium species tested in the presence or absence of glucose. It produced more of the intracellular enzymes than the exocellular ones.
Pythium oligandrum Drechsler bearing spherical sporangia with complex subglobose elements was isolated for the first time in Egypt from agricultural field soil cultivated with alfalfa (Trifolium alexandrinum) in El-Minia, Egypt. This fungus was found to be an active bio-control agent against P. ultimum var. ultimum, the damping-off organism of wheat. In agar plates, P. oligandrum parasitized P. ultimum var. ultimum hyphae with the aid of thin haustorial branches or infection pegs, eventually leading to host destruction. Incorporation of P. oligandrum into carboxymethylcellulose seed coating successfully eliminated pre-emergence damping-off of wheat caused by P. ultimum var. ultimum, whereas Post-emergence damping-off was prevented by adding inocula of P. oligandrum to the soil.
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.
hi@scite.ai
10624 S. Eastern Ave., Ste. A-614
Henderson, NV 89052, USA
Copyright © 2024 scite LLC. All rights reserved.
Made with 💙 for researchers
Part of the Research Solutions Family.