compoundchem:

This year’s Longitude Prize is focused on the growing problem of antibiotic resistant bacteria. They’ve put together a nice image, shown here, which showcases what they term ‘the ten most dangerous antibiotic resistant bacteria’. You can read more detail on each of them here:http://www.nesta.org.uk/news/antibiotic-resistant-bacteriaThe prize offers a £10 million prize fund for the development of a cheap, accurate, and easy to use bacterial infection test kit, which will allow doctors to prescribe the correct antibiotics at the correct time for patients, to try to help minimise the development of antibiotic resistance.

compoundchem:

This year’s Longitude Prize is focused on the growing problem of antibiotic resistant bacteria. They’ve put together a nice image, shown here, which showcases what they term ‘the ten most dangerous antibiotic resistant bacteria’. You can read more detail on each of them here:http://www.nesta.org.uk/news/antibiotic-resistant-bacteria

The prize offers a £10 million prize fund for the development of a cheap, accurate, and easy to use bacterial infection test kit, which will allow doctors to prescribe the correct antibiotics at the correct time for patients, to try to help minimise the development of antibiotic resistance.

(via science-junkie)

science pathogens medical science

bbsrc:

Flower forces that bait our bees

Have you ever felt the hairs on your arm stand on end when you brush past an old television screen? Or stuck a balloon to the wall after rubbing it on your jumper? If so you’ve experienced part of the world of static electricity, but you probably haven’t felt the electrical pull of a bee’s wings or the charged electric advertisement of a flower. These tiny electric fields are sensed by bees and used to make important decisions in their lives, like which flowers to visit and which to ignore, and can even help them communicate with each-other inside their hive. 

In the top image you can see yellow electrically charged paint being sprayed on a Geranium flower to reveal the fine structure of their electric fields. 

In the bottom images you can see a computer simulation of the electric field arising from the interaction between a bumblebee and a petunia flower.

Make sure you get to the Great British Bioscience Festival in London in November to find out more about how electricity helps bees pollinate flowers.

To find out more, visit: http://www.bbsrc.ac.uk/society/exhibitions/gb-bioscience-festival/electrostatic-interactions-flowers-bees.aspx

Top images copyright: Dominic Clarke/Daniel Robert/Heather Whitney 

Bottom image copyright: Dominic Clarke/Julian Harris 

(via science-junkie)

nature science bees honey bees

student: can i borrow a pencil

teacher: i don't know, CAN you?

student: yes, also colloquial irregularities occur frequently in any language and since you and the rest of our present company understood my intended meaning, being particular about the distinctions between "can" and "may" is purely pedantic and arguably pretentious

ha