Add to ORKGMonascus sp. 94-25 strain was isolated from red rice with the purpose of red pigments submerged production. Morphological characterisation on the taxonomically important for the genus media, showed that the strain produced cleistothecia with oval ascospores and aleiroconidia. Comparison with a referent strain Monascus purpureus Went 109.07 was made and it was proved that there were no considerable differences between both strains. Monascus sp. 94-25 was a prototroph and had optimal growth temperature 34°C. Investigation of the fermentation and assimilation capacity of both strains was performed. It was found that both of them assimilated well glucose, while highest fermentation ability was observed when grown on galactose. Similarly ...
Edible pigments of Monascus species have an established history of use in certain Asiatic foods. Th...
Fungi form the genus Monascus are a promising source for natural color additives. However, before ef...
Studies on optimization of fermentation conditions for cell growth and red pigment production by Mon...
Monascus sp. 94-25 strain was isolated from red rice with the purpose of red pigments submerged ...
Monascus sp. 94-25 strain was isolated from red rice with the purpose of red pigments submerged pr...
Monascus sp. 94-25 strain was isolated from red rice with the purpose of red pigments submerged prod...
Thered pigment producing, ascospore forming fungus Monascus purpureuswas obtained by monospore isola...
Monospore isolation technique was performed to obtain the improved strain that has high and consiste...
Study was carried out to know intraspecific variation within Monascus purpureus in Chinese red rice ...
The growth and pigment production of Monascus purpureus during 14 days solid state fermentation on d...
The growth and pigment production of Monascus purpureus during 14 days solid state fermentation on d...
A newly isolated red-pigment producing fungus from local source was identified using Microbial Ident...
Angkak (red yeast rice) is rice fermented by Monascus sp. Monascus sp. KJR 2 is an isolate from red...
This research was aimed to isolate and identify the new pigment from the main pigments of Monascus p...
Angkak (red yeast rice) is rice fermented by Monascus sp. Monascus sp. KJR 2 is an isolate from red...
Edible pigments of Monascus species have an established history of use in certain Asiatic foods. Th...
Fungi form the genus Monascus are a promising source for natural color additives. However, before ef...
Studies on optimization of fermentation conditions for cell growth and red pigment production by Mon...
Monascus sp. 94-25 strain was isolated from red rice with the purpose of red pigments submerged ...
Monascus sp. 94-25 strain was isolated from red rice with the purpose of red pigments submerged pr...
Monascus sp. 94-25 strain was isolated from red rice with the purpose of red pigments submerged prod...
Thered pigment producing, ascospore forming fungus Monascus purpureuswas obtained by monospore isola...
Monospore isolation technique was performed to obtain the improved strain that has high and consiste...
Study was carried out to know intraspecific variation within Monascus purpureus in Chinese red rice ...
The growth and pigment production of Monascus purpureus during 14 days solid state fermentation on d...
The growth and pigment production of Monascus purpureus during 14 days solid state fermentation on d...
A newly isolated red-pigment producing fungus from local source was identified using Microbial Ident...
Angkak (red yeast rice) is rice fermented by Monascus sp. Monascus sp. KJR 2 is an isolate from red...
This research was aimed to isolate and identify the new pigment from the main pigments of Monascus p...
Angkak (red yeast rice) is rice fermented by Monascus sp. Monascus sp. KJR 2 is an isolate from red...
Edible pigments of Monascus species have an established history of use in certain Asiatic foods. Th...
Fungi form the genus Monascus are a promising source for natural color additives. However, before ef...
Studies on optimization of fermentation conditions for cell growth and red pigment production by Mon...