Hydrogen from Microbiology-another hopeful story from Nature Briefing

You might be forgiven for thinking we’re against bacteria at this blog. Got a beef with them, want more antibiotics to kill them, especially that pesky little Escherichia coli that is always clogging up the pristine pages of our little website. Nothing could be further from the truth: we are simply against bacteria that kill people, that’s all, and we admire the little creatures for all the useful things they do

Nothing more useful it seems than generating hydrogen in clean green ways that massively reduce greenhouse gas emissions. Of course we need hydrogen for all sorts of things-food, drugs, plastics-but the way it is currently made is depressingly energy intensive  Which is what this remarkable team of researchers at Edinburgh University have done, re purposing E coli to make hydrogen in amazingly clean ways Get this extract from the admirable Nature Briefing:

. The new process involves growing a strain of Escherichia coli that naturally produces hydrogen when deprived of oxygen. The researchers added a palladium catalyst and substrate for the hydrogen to bind to, and when they removed oxygen, hydrogen was bound to 94% of the substrate.

And they didn’t stop there:

The team then turned waste bread into a food source that could be given to the bacteria instead of glucose, to show that this type of food waste can be repurposed. The system resulted in a three-fold decrease in greenhouse-gas equivalent emissions compared with using fossil fuels, according to the team’s modelling.

There’s a lot to be said here. First our admiration for the amazing work and intelligence of the scientists[2] whose original paper we seem for once to be able to reproduce in full. The marvellous ways old things like bread and E coli are recycled to useful purposes. And a further point which the team at the admirable Nature Briefing know well. Progress, hope even, comes from the application of the scientific method. The use of evidence and reason to judge it in that order. Nothing else, however much you might want it to be so.

[2] Native H2 pathways enable biocompatible hydrogenation of metabolic alkenes in bacteria | Nature Chemistry

#microbiology #palladium #greenhoiuse gas# hydrogen# E coli #sustainabilityn #drugs #plastics