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All Blood Converted to Type O?

Posted by ScuttleMonkey on from the pumped-iron dept.

UnanimousCoward writes "The BBC is reporting that scientists claim to have discovered a technique to convert all blood into Type O with the discovery of an enzyme that can strip the A and B antigens. This has implications to transform the stored blood supply into transfusable blood for all. It does not address the RH negative issue, however."

6 of 206 comments (clear)

  1. O negative, eh? by arthurh3535 · · Score: 4, Informative

    While I won't mind the ability of people to donate to me, the benefit is actually pretty amazing. O Negative is the preferred donor type, as (IIRC) anyone can accept it, but no other blood type works for us poor O Neg's.

    So this technology could literally save my life!

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  2. Re:That's great until... by AKAImBatman · · Score: 4, Informative

    Until we find that new disease that only destroys type O blood.

    I wouldn't worry about it. This is only for Type-O transfusions. Since a transfusion doesn't change your blood type (it just supplements your existing plasma until your body can manufacture sufficient replacement quantities), you won't have to worry about those "new diseases". Unless you're normally O-negative, that is...
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  3. Blood made suitable for all by sas-dot · · Score: 5, Informative
    Here more info from Nature

    Scientists have discovered enzymes that can efficiently convert blood groups A, B and AB into the 'universal' O group -- which can be given to anyone but is always in short supply.

    The two novel glycosidase enzymes were identified in bacteria by an international team led by Henrik Clausen of the University of Copenhagen in Denmark. The researchers hope that the enzymes will both improve the erratic supplies of blood around the world, and also the safety of transfusions. Clinical trials to test the safety and effectiveness of their converted blood are being planned.

    The ABO blood-type system is based on the presence or absence of the sugar-based antigens 'A' and 'B' on red blood cells. Type O blood cells have neither A nor B antigens, so may be safely transfused into anyone. But types A, B and AB blood do, and cause life-threatening immune reactions if they are given to patients with a different blood group. The bacterial glycosidase enzymes strip these antigens away from A, B and AB blood.

    The idea of such antigen-stripping goes back to the early 1980s, with the discovery of an enzyme in coffee beans that removes B antigens from red blood cells1. Early-stage clinical trials showed that the converted blood could be safely transfused into individuals of different blood groups; no traces of enzyme or antigen remained to cause reactions2. But the enzyme reaction was far too inefficient to make large-scale conversion practical.

    Clausen's team screened 2,500 extracts from different bacteria and fungi for their ability to cleave off A and B antigens. The newly discovered bacterial 'B' enzyme is nearly 1,000 times more efficient then the coffee-bean B enzyme -- the additional discovery of an enzyme to remove A antigens means that all blood types can now be converted. The work is reported in Nature Biotechnology3.
    (snip)

  4. Duh by Scott+Lockwood · · Score: 4, Informative

    It does not address the RH negative issue, however.

    Duh. Rh factor is a combination of several different genes. Blood type isn't controlled by those.

    Also, it should be noted that, unlike what several of the replies thus far seem to think, this won't change your blood type - it will only alter blood that has already been removed from the body for future transfusion. Your body will still produce blood of whatever type you normally produce. Also, it basically has the added implication of making more than just O neg the universal donor. After all, if I can 'strip' A, and B off of cells, then A neg, B neg, and AB neg also become universal donors.
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  5. Re:Synthetic Blood by WhyDoYouWantToKnow · · Score: 4, Informative
    There have been attempts to synthesize RBC's (red blood cells). The linked article discuses a current synthetic blood product. While there are many advantages, there are still a number of issues to overcome before this becomes a viable alternative to RBC transfusions.

    http://biomed.brown.edu/Courses/BI108/BI108_2005_G roups/10/webpages/HBOClink.htm

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  6. More than ABO and RhD blood groups by kenrick · · Score: 5, Informative

    Although ABO and RhD grouping systems are the most well-known and the most important, there are a myriad of other blood groups (about 29 last time I checked) that are of relevance when it comes to crossmatching blood for a patient.

    Whilst this potentially is a great step forward, as always with biomedical headlines, it's not the be-all and end-all.

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