Natamycin

7681-93-8

C33H47NO13

665.72

White or yellow powder

Freely soluble in DMSO and glacial acetic acid. Sparingly soluble in water.

Source: Semi-synthetic
Assay: (On Dried Basis): ≥95.0%
Loss on Drying: ≤8.0%
Melting Point: 280°C

2-8°C

Spectrum: Natamycin targets fungi responsible for causing ophthalmological complications especially Fusarium species. It is also effective for Candida, Aspergillus, Cephalosporium, and Penicillium. It is not effective against bacteria.

Microbiology Applications: Isolated vacuoles from yeast were used as a model system to show that Natamycin was able to inhibit vacuolar homotypic fusion. Natamycin acted even before membrane contact, and the activity was dependence on specific chemical features in the ergosterol structure, specifically the presence of double bonds in the B-ring at the 7,8 position of sterol (te Welscher et al, 2010).

Plant Biology Applications: Anthracnose crown rot of strawberry, caused by Colletotrichum acutatum, is an important fungal pathogen. Industry standard treatments is a preplant dip treatment with azoxystrobin or fludioxonil-cyprodinil, but high levels of quinone outside inhibitor (Qol) resistance has been detected, which was found to be associated with the G143A mutation in the cytochrome b gene. Natamycin was investigated, and dip treatments at 500 or 1000 mg/L were highly effective in limiting disease severity and plant mortality to the low levels seen with fludioxonil, while significantly increasing fruit yield compared to controls (Haack et al, 2018).