Discover Top Posts Tagged with #ecoli

Escherichia coli

Image taken via scanning electron microscopy.

Photo credit: NANO CREATIVE / SCIENCE SOURCE / SCIENCE PHOTO LIBRARY

#escherichia coli #ecoli #cowboy #cowboy hat #microbiology #microbes #biology #hats #microbes in hats #microorganisms #bacteria #protozoa #microscopy

sometimes the lab brain gets to me and whenever i drink yakult the residue at the bottom just makes me think of e-coli being pelleted for a maxi

#lab brain #lab #ecoli #yakult #lab rats

Please enjoy this gif I made from footage of a Tetrahymena thermophila cell (the big boi) and E.coli (the smol floaty bits). I don't remember the exact magnification, but I believe it's around 100x. My lab partners and I took this video in my bio lab a couple weeks ago.

Anyone can use it, all I ask is that you credit me if you do.

It is, as tetrahymena are prone to doing, eating and slowly dying at the same time.

#biology #tetrahymena #ecoli #gif #my gifs

hey if u ever get an ecoli infection go get some berberine capsules that shit works like magic

#text #e coli #ecoli #berberine #i slept like 16 hours yesterday and was miserable the entire time #took 2 berberine pills #and i woke up at a normal time w a slight headache #one of the most effective/no side effects meds ive ever taken #put it right up there with transexamic acid #TOP shelf med 👍

local lab rat

#bacteriology #lab #laboratory #campylobacter #candida #ccda #yeast #fungus #microbiology #microbes #technical assistance #diagnostic #medic #ecoli #black and white #clinical #microbiome #pathogen

Scientists have engineered E. coli bacteria to convert plastic waste into vanillin, an in-demand compound used in vanilla flavoring and more

How it works: Vanillin and a molecule derived from PET — terephthalic acid (TA) — have very similar chemical structures, so, for their study, published in the Royal Society of Chemistry (RSC) journal Green Chemistry, the Edinburgh scientists genetically engineered E. coli bacteria to be able to make the changes needed to convert TA into vanillin.

All they had to do was mix together their engineered bacteria and TA and keep the temperature stable at about 98 degrees Fahrenheit. Within a day, the E. coli had converted 79% of the TA into vanillin.

Past studies had already shown how bacteria could be used to break PET down into TA and other components, so the researchers then demonstrated how they could use microbes to convert a plastic bottle into vanillin.

The next steps: The researchers say their vanillin would be safe for human consumption, but they still need to confirm that with tests. They're now focused on increasing the bacteria's conversion rate and scaling up the process to create more vanillin from more plastic waste.

"Using microbes to turn waste plastics, which are harmful to the environment, into an important commodity and platform molecule with broad applications in cosmetics and food is a beautiful demonstration of green chemistry," Ellis Crawford, publishing editor at the RSC, said.