Diversity of keratinophilic mycoflora in the soil of Agra was under observation for 1 year (July 2001-June 2002) and isolation of keratinophilic fungi was followed by the hair-baiting method. The frequency of occurrence of keratinophilic fungi in 284 soil samples collected from various hospitals, cattle yards, poultry farms, crop fields and playgrounds was determined, 204 samples (72%) having been found to be positive. A total of 33 species classified into 11 genera (Acremonium, Aspergillus, Chrysosporium, Emmonsia, Geomyces, Keratinophyton, Microsporum, Myceliophthora, Penicillium, Sporotrichum, Trichophyton) were encountered from the soil samples. Sporotrichum spp. were found to be the most dominant species followed by Trichophyton simii. The parameter of keratinophilic fungi found in the samples studied ranged from 62 to 80% where playgrounds yielded the maximum number of species (80%) while the least dominating soil was hospital soil (62%). Among all the baits used maximum fungi occurred on human hairs (82%) followed by chicken feather (74%), wool (61%) and the least on horns (45%). The spectrum of keratinophilic fungi isolated from different sites differed considerably according to the frequency of use by humans.
Out of eight isolates of different human pathogenic fungi, four were found to be infected with virus like particles (VLP): Chrysosporium pseudomerdarium, C. xerophillum, C. keratinophillum and Candida albicans through electron microscopy. Frozen mycelium without abrasive was seemingly better disruption method for VLP extraction in Chrysosporium extracts but in Candida albicans disruption with abrasive revealed the presence of considerable amount of VLP. The growth of five isolates of Chrysosporium species associated with VLP was significantly affected by different media tested. Absorption spectra revealed the nucleo protein nature of VLP in C. albicans. Virus like particles in Chrysosporium species reported for the first time and in C. albicans, it is reported for the first time in India.
Aerosol plays a very important role in climate change and public health. It affects cloud condensation nuclei and causes a number of epidemic diseases. The correlations of aerosol with epidemic diseases are due to the biotic components of aerosol. The present study deals with the measurements and characterization of bioaerosol over Indo-Gangetic plain. The levels of PM10 and PM2.5 are much higher than the recommended value set by NAAQS in India. Bacterial and fungal concentrations are in the reported range. Bacterial concentration is higher than fungal concentration. Gram-positive bacteria contribute 75% while gram-negative bacteria contribute 25% only. A total seven types of fungi are identified in aerosols. Aspergillus niger is dominant. Meteorological parameters play important roles in growth and presence of microorganism in the air. Bacterial concentrations are governed mainly by temperature while fungal concentration is influenced by relative humidity.
Summary. The amount of protein released into liquid culture medium and weight loss were taken as measures of wool degradation by Trichophyton simii and Aspergillus niger. Protein released into the culture medium was observed to be greater after T. simii treatment than after A. niger treatment. Sulphitolysis was shown by T. simii, whereas it was absent in the case of A. niger. pH was found to be alkaline with an increase in soluble protein in the culture medium in the case of both uniculture and dual culture. However, both the weight loss of wool and the amount of protein released were significantly reduced when both fungi were allowed to attack the substrate. The behaviour of these fungi in dual culture reflects their antagonistic activities. Zusammenfassung. Die Proteinfreisetzung in flüssigem Kulturmedium und der Gewichtsverlust wurden als Maß des biologischen Abbaus von Wolle durch Trichophyton simii und Aspergillus niger gewertet. Die Proteinfreisetzung war größer nach Behandlung der Wolle mit T. simii als nach der mit A. niger. Sulfitolyse wurde nur bei T. simii, nicht dagegen bei A. niger beobachtet. Der pH‐Wert erhöhte sich bei den Abbauprozessen sowohl in Einzelkultur als auch in Doppelkultur gemeinsam mit beiden Pilzen. Der Gewichtsverlust der Wolle und die Proteinfreisetzung war jedoch signifikant vermindert, wenn beide Pilze zusammen zum Wollabbau eingesetzt wurden. Dies deutet auf Antagonismen zwischen beiden Pilzen hin.
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.