Add to ORKGMalassezia yeasts are part of the cutaneous microflora commonly found on animals and human and may sometimes cause various opportunistic skin diseases. As most of Malassezia species show lipid-dependency, lipolytic enzymes such as lipase and phospholipase are necessary for them to obtain useful lipids from the environment. Consequently, these enzymes are thought to play an important role in the growth and pathogenicity of Malassezia. Here we analyze and compare extracellular lipase and phospholipase activities of several Malassezia species cultivated under common growth conditions. M. globosa showed the highest lipase activity of all of the Malassezia species included in our studies. The lipid-independent M. pachydermatis also showed high l...
Malassezia species are found in part of the normal human cutaneous commensal flora, however it has b...
Extracellular enzymatic activity of different species of Malassezia spp was evaluated. Thirty-three ...
Three lipid-dependent Malassezia isolates (here named 114A, 114B and 114C) recovered from a dog with...
Malassezia yeasts are lipid dependent and part of the human and animal skin microbiome. However, the...
Malassezia yeasts are lipid-dependent fungal species that are common members of the human and animal...
Objective: Malassezia species are lipid-dependent due to the lack of cytosolic fatty acid synthase r...
Malassezia species are lipophilic and lipid-dependent yeasts belonging to the human and animal micro...
Dandruff and seborrheic dermatitis (D/SD) are common hyperproliferative scalp disorders with a simil...
Malassezia species are part of the normal mycobiota of skin of animals and humans but they can cause...
The genus Malassezia includes lipophilic yeasts, which are part of the skin microbiota of various ma...
The genus Malassezia includes lipophilic yeasts, which are part of the skin microbiota of various ma...
Malassezia spp. are lipid-dependent yeasts, inhabiting the skin and mucosa of humans and animals. Th...
Malassezia are lipid dependent basidiomycetous yeasts that inhabit the skin and mucosa of humans and...
Yeasts from the genus Malassezia are common commensals and pathogens found in humans and animals, an...
Objective: Malassezia furfur is a lipid-dependent yeast that is part of the human skin microbiota. M...
Malassezia species are found in part of the normal human cutaneous commensal flora, however it has b...
Extracellular enzymatic activity of different species of Malassezia spp was evaluated. Thirty-three ...
Three lipid-dependent Malassezia isolates (here named 114A, 114B and 114C) recovered from a dog with...
Malassezia yeasts are lipid dependent and part of the human and animal skin microbiome. However, the...
Malassezia yeasts are lipid-dependent fungal species that are common members of the human and animal...
Objective: Malassezia species are lipid-dependent due to the lack of cytosolic fatty acid synthase r...
Malassezia species are lipophilic and lipid-dependent yeasts belonging to the human and animal micro...
Dandruff and seborrheic dermatitis (D/SD) are common hyperproliferative scalp disorders with a simil...
Malassezia species are part of the normal mycobiota of skin of animals and humans but they can cause...
The genus Malassezia includes lipophilic yeasts, which are part of the skin microbiota of various ma...
The genus Malassezia includes lipophilic yeasts, which are part of the skin microbiota of various ma...
Malassezia spp. are lipid-dependent yeasts, inhabiting the skin and mucosa of humans and animals. Th...
Malassezia are lipid dependent basidiomycetous yeasts that inhabit the skin and mucosa of humans and...
Yeasts from the genus Malassezia are common commensals and pathogens found in humans and animals, an...
Objective: Malassezia furfur is a lipid-dependent yeast that is part of the human skin microbiota. M...
Malassezia species are found in part of the normal human cutaneous commensal flora, however it has b...
Extracellular enzymatic activity of different species of Malassezia spp was evaluated. Thirty-three ...
Three lipid-dependent Malassezia isolates (here named 114A, 114B and 114C) recovered from a dog with...