Debate and discussion of any biological questions not pertaining to a particular topic.
5 posts • Page 1 of 1
Hiya guys, i wasnt sure where to put this question , so here it is!
anyone know - biologically how does sickle cell anaemia protect against malaria. i know the gene protects it but i need to know in full details.
is it the heterozygous or homozygous that protects , many books and sites conflict with eachother
Google search would be much more reliable, but of what i know the parasite is unable to attach properly to sicle shaped blood cells.
A wise man once said to me:
"Build a man a fire, and he'll be warm for a day. Set a man on fire, and he'll be warm for the rest of his life."
Only the fittest chickens cross the road.
The sickle-allele hemoglobin is "sickled" when not attached to oxygen. Infection of an RBC by malaria parasites deoxygenates the cell, sickles those hemoglobins (in heterozygotes, who have a decent percentage of sickle-cell hemoglobins in each cell), and the cell is processed as defective - that is, killed. I think by T cells, but I've forgotten that detail.
So homozygous "regular" hemoglobins puts one at greater risk from malaria, homozygous sickle-cell hemoglobins puts one at risk from sickle-cell (even regular deoxygenation can distort RBCs to the point that they won't go through capillaries properly), and heterozygotes get some protection from both.
from what i know and learned, sickle cell causes erythrocyte to shape abnormally (like sickle). because Plasmodium (protozoans which cause malaria) attacks and live in erythrocyte in one of their life stages, unusual shape of cell stops Plasmodium from living there. sickle-shaped erythrocyte also has abnormal protein that is different from healthy cell, which inhibits Plasmodium from developing there.
sickle cell is caused by recessive alleles, that's why a heterozygote person still has normal red blood cell, but is better protected against malaria than a homozygote dominant person.
it is more common to find heterozygotes nowadays because of a mechanism called "stabilizing selection". it cuts off the homozygotes part and preserves heterozygote individuals because perhaps heterozygotes are more favorable to environment. that is part of natural selection and evolution.
however, homozygote recessive person cannot develop malaria at all but on the other hand, get sickle cell disease.
Sometimes the stakes are higher, however. People and pathogens also engage in struggles where the prize is life itself. Each winter, along with the rhinovirus wars, humankind engages in battles with the influenza viruses. The influenza viruses are far more potent than are the rhinoviruses, however. Death from influenza is a well-know risk, particularly for the elderly and people whose defense systems are weakened by chronic illness. Fortunately, the elderly and infirm now have medical science as a powerful ally that bolsters their defenses with immunizations to prevent influenza attack or drugs that suppress the influenza virus once it has struck. You must visit the following link to get the detailed answer for your question http://sickle.bwh.harvard.edu/malaria_sickle.html
5 posts • Page 1 of 1
Who is online
Users browsing this forum: No registered users and 2 guests