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Jimmy Dorethy investigates manuka honey.
Darren
Darren
That's what he said, but it doesn't make sense. If a bacteria colony is killed, then it's dead. It's pushing up the daisies, joined the choir invisibule, it's not going to "regrow".Actually that's not quite right, all sterilised honeys kill bacteria but the manuka stops the re growth, or that's how I heard it
That's what he said, but it doesn't make sense. If a bacteria colony is killed, then it's dead. It's pushing up the daisies, joined the choir invisibule, it's not going to "regrow".
.
thanks. I just set the record on the tele as I am out at the beginners course
That may be the impression he wanted to give the viewer. There was no mention of re growing on a "dead area". It's on 4oD at around 5 minutes if anyone wants to check.He suggested that the honey killed some bacteria close to the honey sample on a Petri dish. The remaining bacteria re grew where ordinary honeys were used but did not re grow on the now dead area on the manuka dish. Not saying that is right but that is what he said! Ie the manuka stopped the re growth where re growth was possible!
E
Its all about phenols.. Phenols are well known as anti septics. They are toxic.
Trichlorophenol or more commonly known as TCP is a household antiseptic.
Some plant produce phenols, in their warfare against each other and their predators and parasites.
Some honeys are high in plant phenols, manuka is one of them.
Now go and find a british plant honey that has high phenol content and make your fortune
trichlorophenylmethyliodosalicyl (not to be confused with trichlorophenol, a common fungicide). Trichlorophenylmethyliodosalicyl was replaced as the active ingredient by a mixture of phenol and halogenated phenols in the 1950s
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