Tag: bacteria (page 2 of 5)

getting rid of e. coli

E. coli filtering tool

A tube of human serum albumin and poly-arginine can be made just the right size to filter harmful E. coli from drinking water

E. coli bacteria are common and most are not harmful to humans. Some strains, however, can pose severe threats to human health. Every once in a while you hear of food recalls due to harmful strains of E. coli contaminating food or drinking supplies. This is especially a problem in developing nations, where food may be washed in contaminated water and cause food poisoning.

A group of Japanese researchers have developed a way to remove E. coli bacteria from water supplies using tubes made from human serum albumin and poly-arginine peptides. Scientific American describes the process:

The elegant method, devised by Teruyuki Komatsu and co-workers at Chuo University, Tokyo, begins by depositing microtubes made from alternating layers of human serum albumin (HSA) and poly-L-arginine onto a polycarbonate template. The template is then dissolved away to leave a hollow tube, which is just the right size to fit the E. coli bacterium. Key to removing E. coli from a solution is its strong binding affinity for HSA, which attracts the bacteria into the tube. So effective is this binding, that just 1.5μg of microtubes, added to a liter of contaminated water containing 100,000 bacteria were able to remove the bacteria with almost 100% efficiency. The final touch is the incorporation of a layer of magnetite (iron (II) oxide) nanoparticles into the microtubes to allow their easy removal from the solution using a magnetic field.

Read more about it here or here.

the microbiome

NPR had this neat animation explaining the microbiome. Take a look!

bacterial profiles by ethnicity

A Venn diagram showing bacterial profiles by ethnicity.

A group of researchers can determine your ethnicity by sampling bacterial from your mouth. From Popular Science:

Almost 400 different species were thriving in the mouths of 100 people from four different ethnic backgrounds: African American, Caucasian, Latino and Chinese. Only 2 percent of bacterial species identified were present in every individual studied. Another 8 percent of species were shared by 90 percent of the participants. Each ethnic group displayed a distinct pattern of bacteria, especially under the gums. “This suggests that the host genotype influences the microbial community to a greater extent than shared environment,” the study’s authors write.”‘Nature’ appears to win over ‘nurture’ in shaping this community.”

The researchers were able to develop an algorithm that could predict an individual’s ethnicity based on bacteria from under their gums with 62 percent accuracy. The algorithm was able to classify the bacterial communities of African American participants 100 percent of the time, but wasn’t as accurate for other ethnicities.

Read the original research at PLOS One

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