Using enzymes produced by a bacteria that almost everyone has in their gut, researchers have removed the antigens from red blood cells that determine blood type, putting us within reach of producing universal donor blood.
"Researchers at the Technical University of Denmark (DTU) and Lund University, Sweden, have used enzymes produced by a common gut bacteria to remove the A and B antigens from red blood cells, bringing them one step closer to creating universal donor blood."
Having worked in the blood bank I just don’t see this as a massive win. Win, sure. Massive? ABO issues are a tiny fraction of what the blood bank deals with. If all blood was O neg blood bankers would still have a busy job. I’d be more excited to see a development in reducing TRALI, creating 30 day platelets or something like that. I just don’t see this as fundamentally changing much in the blood bank. More O is good of course, but blood bank is way more involved than that.
They specially mention this in the article. It does work on multiple antigens beyond ABO, they even list that there are over 40 blood types that we know of with 300+ antigens.
Did what you do at a blood bank involve an education or just a name tag, cause they have receptionists and hourly workers at blood banks.
How many people do receive more than one blood transfusion on average? Seems like something that doesn't happen often, and maybe this could make it easier for the most common uses of donor blood?
Given time, yes. Enzymes are easy to mass produce once development is done with them. For example, Horseradish Peroxidase is used in many biochemical tests in medicine and labwork is an enzyme. It's manufactured using yeast rather than purifying from horseradish roots, making it very affordable and commonplace in many assays.
The papers enzyme comes from bacteria living in the human gut, meaning that it should be relatively easy to just grow the bacteria in lab settings and extract the enzymes from that. If it is challenging to grow the bacteria in lab, then they can add the gene from the bacteria into a yeast, like what was done with HRP.