Biochemistry 14 — Hakomori, B. Isolation and character zation of glycosphingolipid from animal cells and their membranes. Stellner, K. Watanabe, S.
The Chemistry of the Blood
Cellu lar blood-group substances. Isolation and characterization of glycosphingolipids with blood-group H specificity from membranes of human erythrocytes. Biochemistry 12 — Clausen, E. Holmes, S.
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Novel blood group H glycolipid antigens exclusively expressed in blood group A and AB erythrocytes type three chain H. Differential conversion of different H substances substrates by Al and A2 enzymes, and type 3 chair H expression in relation to secretor status. PubMed Google Scholar. Clausen, S. Levery, R. Kannagi, S. Levery, J. Mibbin, S. Repetitive A epitope type 3 chain A defined by blood group Al-specific monoclonal antibody TH chemical basis of qualitative Al and A2 distinction.
Bi ochemi stry — Clausen, K. Levery, E. Nudelman, Y. Arao-Tomomo, S.
Biochem, Biophys. Levery, S. Hybrid type glycolipids 1acto-gang1 io series with a novel branched structure. Their presence in undifferentiated murine leukemia cells and their dependence on differentiation. Blood group H antigen with globo- series structure. Isolation and character ization from human blood group 0 erythrocytes.
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FEBS Lett. Fukuda, S. Structure of bran ched blood group A-active glycosphingolipids in human erythrocytes and polymorphism of A-and H-glycolipids in Al and A2 subgroups. Blood group ABH and I i antigens of human erythrocytes: chemistry, polymorphism, and their developmental change. Breimer, G. Hansson, K. Karlsson, and H. Mass spectrometry of glycolipids fingerprinting of lipid-linked o 1igosaccarides by mass spectrometry.
Structure determination of blood group type glycolipids of cat small intestine by mass fragmentography. Blood group type glycosphingo- lipids from the small intestine of different animalsanalyzed by mass spectrometry and thin-layer chromatography. A note on species diversity. Breimer, K. Karlsson, B. Characterization of a blood group H type pentaglyco- sylceramide of human pancreas based on a type 1 carbohydrate chain.
Falk, G. Structural identification of two sugar branched-chain glycosphingolipids of blood group H type present in epithelial cells of rat small intestine. Characterization of human intestinal difucosyl hepta- glycosyleeramide with a blood group B determinant and a type 1 carbohydrate chain. Hdnfland, M. Kordowicz, H.
Niermann, H. Dabrowski, J. Peter-Katalinic, J. Purification and structure of branched blood group type B active glycosphingolipids from human erythrocyte membranes. Milller-Podraza, R. Krauze, A. Isolation and characterization of poly gly- cosyl ceramides megalogcolipids with A, H, and I blood group activities. Dejter-Juszynski, N. Harpaz, H. Flowers, N.
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The Chemistry Of The Blood, Sermon # 5, Dr. M. R. DeHaan
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Rather than haemoglobin, these creatures use a protein called haemocyanin to transport oxygen. They also bind to oxygen in a different manner to haemoglobin, with two copper atoms binding to each oxygen molecule. This is an interesting one, in that the individual units of chlorocruorin, the protein leading to a green blood colouration, are actually very similar in appearance to haemoglobin. Despite this minor difference, a noticeable colour change is the result — deoxygenated blood containing chlorocruorin is a light green colour, and a slightly darker green when oxygenated.
Oddly, in concentrated solutions, it takes on a light red colour. A number of organisms that have chlorocruorin in their blood also have haemoglobin present as well, resulting in an overall red colouration. This lizard is found in New Guinea, and despite its blood containing haemoglobin like other vertebrates, its blood is a distinctive green colour. The colour is due to a difference in how they recycle haemoglobin.
Humans recycle haemoglobin in the liver, by breaking it down first into biliverdin, and then bilirubin. This colour is caused by yet another different respiratory pigment, this time one called haemorythrin. Haemorythrin contains individual units which themselves contain iron atoms; when deoxygenated, the blood is colourless, but when oxygenated it is a bright violet-pink.
Insects have tiny tubes called trachea that bring air to all parts of their body. They have spiracles; organs with holes in their chitinous exoskeletons, that admit air into their bodies. En parlant de sangs! The Chemistry of The Colours of Blood. The Chemistry of the Odour of Decomposition. The Chemistry of Sparklers.
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