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Possible genetical pathways in the MNSsUu system


, : Possible genetical pathways in the MNSsUu system. Vox Sanguinis 16(3): 200-210


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Related references

Uhlenbruck, G., 1969: Possible genetical pathways in the MN Ss Uu system. Vox Sang, 16: 200-210

Pfeifer, D., 1961: Genetical investigations on the bacteriophage Phi X 174. I. The formation of a selective system and proof of genetical recombination. A series of single-step phage mutants was isolated, resembling the system found in T2 . The phages Phi X Ha, Phi X Ha Hb and Phi X Ha Hb Hc form plaques on the bacterial mutants Ca, Cab and Cabc respectively. When the triple host-range phage was t...

Takemaru, T., 1961: Genetical studies on fungi, X. The mating system in Hymenomycetes and its genetical mechanism. In all the nine Hymenomycete species examined two modes of clamp formation commonly occurred. In compatible matings clamp connexions occurred throughout the participating mycelia while in common-B matings clamp formation was restricted to the zone...

Nasyrov, Y.S., 1981: Genetical control of photosynthetic carbon metabolic pathways. On the basis of a study of chloroplast DNA in maize and of the genetical control of carbon metabolism during photosynthesis, a model is presented for the activation of CO2 transport to the chloroplasts. This involves induction of phosphoenol pyruv...

Watkins, W.M.; Morgan, W.T., 1959: Possible genetical pathways for the biosynthesis of blood group mucopolysaccharides. Vox Sanguinis 4(2): 97-119

Watkins, W.M.; Morgan, W.T., 1993: Possible genetical pathways for the biosynthesis of blood group mucopolysaccharides. Vox Sang 1959:4:97-119. This paper put forward possible biosynthetic pathways for the formation of the blood group A, B, H and Lewis antigens based on the limited knowledge of their chemistry and genetics that was available in 1959. The schemes proposed that genes at fou...

Bystrykh, L.; Weersing, E.; Vellenga, E.; Manley, K.; Williams, R.; Cooke, M.; D.H.an, G., 2003: A genetical genomics approach to identify transcriptional pathways in hematopoietic stem cells. Experimental Hematology (New York) 31(7 Supplement 1): 137, July

Hanzawa, K.; Watanabe, S., 1991: The genetical relationship between ARGinase system and BA system in horse red cells. Erythrocyte arginase activity in horses is controlled by a single pair of autosomal alleles, and total basic amino acid density of erythrocytes is controlled by another pair of autosomal alleles. The linkage relationship between the 2 loci was inv...

Hanzawa K.; Watanabe S., 1991: The genetical relationship between argase system and ba system in horse red cells. Family data were analyzed to determine the genetical relationship between ARGase and BA systems. Horses were classified into four combined types by ARGase and BA systems, namely, [ARGase H: BA- (ARGaseH/- BAL/-)], [ARGase H : BA+ (ARGaseH/- : BAl/...

Case, M.E.; Giles, N.H.; Doy, C.H., 1972: Genetical and biochemical evidence for further interrelationships between the polyaromatic synthetic and the quinate-shikimate catabolic pathways in Neurospora crassa. Genetics 71(3): 337-348