B

4. Logdberg, I.; Reid, M.E.; Miller, J.L. Cloning and genetic characterization of blood group carrier molecules and antigens. Transf. Med. Rev. 2002, 16, 1-10.

5. Wagner, F.F.; Poole, J.; Flegel, W.A. The Scianna antigens 20. including Rd are expressed by ERMAP. Blood 2003, 101, 752-757.

6. Yu, L.C.; Twu, Y.C.; Chou, M.L.; Reid, M.E.; Gray, A.R.; Mould, J.M.; Chong, C.Y.; Lin, M. The molecular genetics 21. of the human I locus and molecular background explaining the partial association of the adult I phenotype with congenital cataracts. Blood 2003, 101, 2081-2087.

7. Helberg, A.; Poole, J.; Olsson, M.L. Molecular basis of the globoside-deficient Pk blood group phenotype: Identifica- 22. tion of four inactivating mutations in the UDP-N-acetylgalactosamyniltransferase gene. J. Biol. Chem.

2002, 277, 29455-29459.

8. Reid, M.E.; Yazdanbakhsh, K. Molecular insights into 23. blood groups and implications for blood transfusions. Curr.

9. Avent, N.D. Human erythrocyte antigen expression: Its 24. molecular bases. Br. J. Biomed. Sci. 1997, 54, 16-37.

10. Pellegrino, J., Jr.; Castilho, L.; Rios, M.; De Souza, C.A. 25. Blood group genotyping in a population of highly diverse ancestry. J. Clin. Lab. Anal. 2001, 15, 8-13.

11. Rios, M.; Cash, K.; Strupp, A.; Uehlinger, J.; Reid, M.E. 26. DNA from urine sediment or buccal cells can be used for blood group molecular genotyping. Immunohaematology 27. 1999, 15, 61-65.

12. Legler, T.J.; Eber, S.W.; Lakomek, M.; Lynen, R.; Maas, J.H.; Pekrun, A.; repas-Humpe, M.; Schroter, W.; Kohler,

M. Application of RHD and RHCE genotyping for correct 28. blood group determination in chronically transfused patients. Transfusion 1999, 39, 852-855.

13. Reid, M.E.; Rios, M.; Powell, D.; Charles-Pierre, D.; Malavade, V. DNA from blood samples can be used to genotype patients who have recently received a transfusion. Transfusion 2000, 40, 48-53. 29.

14. Rozman, P.; Dove, T.; Gassner, C. Differentiation of autologous ABO, RHD, RHCE, KEL, JK, and FY blood group genotypes by analysis of peripheral blood samples of patients who have recently received multiple transfusions. 30 Transfusion 2000, 40, 936-942.

15. Castilho, L.; Rios, M.; Bianco, C.; Pellegrino, J., Jr.; Alberto, F.L.; Saad, S.T.O.; Costa, F.F. DNA-based typing for the management of multiply-transfused sickle cell disease patients. Transfusion 2002, 42, 232-238. 31.

16. Castilho, L.; Rios, M.; Pellegrino, J., Jr.; Saad, S.T.O.; Costa, F.F. Blood group genotyping facilitates transfusion of b-thalassemia patients. J. Clin. Lab. Anal. 2002, 16, 216-220. 32.

17. Castilho, L.; Rodrigues, A.; Pellegrino, J., Jr.; Rios, M.; Costa, F.F. Blood group genotyping for the management of patients with ''warm''-induced hemolytic (abstracts). Transfus. Clin. Biol. 2008, 8 (Suppl. 1), 166S. 33.

18. Rios, M.; Hue-Roye, K.; Lee, A.H.; Chiofolo, J.T.; Miller, J.L.; Reid, M.F. DNA analysis for the Dombrock polymorphism. Transfusion 2001, 41, 1143-1146. 34.

19. Wu, G.G.; Jin, Z.H.; Deng, Z.H.; Zhao, T.M. Polymerase chain reaction with sequence-specific primers-based gen-

otyping of the human Dombrock blood group DO1 and DO2 alleles and the DO gene frequencies in Chinese blood donors. Vox Sang. 2001, 81, 49-51. Castilho, L.; Rodrigues, A.; Pellegrino, J., Jr.; Violati, R.; Saad, S.T.O.; Costa, F.F. Genotyping for DO A/DO B facilitates transfusion of sickle cell disease patients. Transfusion 2001, 41 (S), S226.

Yamamoto, F.; Marken, J.; Tsuji, T.; White, T.; Clausen, H.; Hakomori, S. Cloning and characterization of DNA complementary to human UDP-GalNAc: Fuc alpha 1-2Gal alpha 1-3GalNAc transferase (histo-blood group A transferase) mRNA. J. Biol. Chem. 1990, 265, 1146-1151. Yamamoto, F. ABO blood group system—ABH oligosac-charide antigens, anti-A and anti-B, A and B glycosyl-transferases, and ABO genes (review). Immunohaematology 2004, 20, 3-22.

Wagner, F.; Gassner, C.; Müller, T.H.; Schonitzer, D.; Schunter, F.; Flegel, W.A. Molecular basis of weak D phenotypes. Blood 1999, 1, 385-393. Flegel, W.A.; Wagner, F.F. Molecular genetics of RH. Vox Sang. 2000, 78, 109-115.

Avent, N.D.; Finning, K.M.; Martin, P.G.; Soothill, P.W. Prenatal determination of fetal blood group status. Vox Sang. 2000, 78, 155-162.

Lo, Y.M.D. Fetal RhD genotyping from maternal plasma. Ann. Med. 1999, 31, 308-312.

Lo, Y.M.D.; Corbetta, N.; Chamberlain, F.F.; Rai, V.; Sargent, I.I.; Redman, C.W.; Wainscoat, J.S. Presence of fetal DNA in maternal plasma and serum. Lancet 1997, 350, 485 -487.

Lo, Y.M.D.; Tein, M.S.; Lau, T.K.; Haines, C.J.; Leung, T.N.; Poon, P.M.; Wainscoat, J.S.; Johnson, P.J.; Chang, A.M.; Hjelm, N.M. Quantitative analysis of fetal DNA in maternal plasma and serum: Implications for noninvasive prenatal diagnosis. Am. J. Hum. Genet. 1998, 62, 768775.

Bischoff, F.Z.; Nguyen, D.D.; Marquez-Do, D.; Mise, K.J., Jr.; Simpson, J.L.; Elias, S. Noninvasive determination of fetal RhD status using fetal DNA in maternal serum and PCR. J. Soc. Gynecol. Investig. 1999, 6, 64-69. Lo, Y.M.D.; Hjelm, N.M.; Filder, C.; Sargent, I.I.; Murphy, M.F.; Chamberlain, P.F.; Poon, P.M.; Redman, C.W.; Wainscoat, J.S. Prenatal diagnosis of fetal RhD status by molecular analysis of maternal plasma. N. Engl. J. Med. 1998, 339, 1734-1738.

Faas, B.H.; Beuling, E.A.; von Christiaens, G.C.; dem Borne, A.E.; van der Schoot, C.E. Detection of fetal RHD-specific sequences in maternal plasma. Lancet 1998, 352, 1196.

Castilho, L.; Rios, M.; Violati, R.G.; Pellegrino, J., Jr.; Costa, F.F. Prenatal determination of fetal RHD by molecular analysis of maternal plasma (abstract). Transfus. Clin. Biol. 2001, 8 (Suppl. 1), 51S. Wagner, F.F.; Flegel, W.A. The molecular basis of Rh blood group phenotypes (Review). Immunohematology 2004, 20, 23 -26.

McPherson, J.D.; Marra, M.; Hillier, L. International Human Genome Mapping Consortium. Nature 2001, 409, 934-941.

Getting Started With Dumbbells

Getting Started With Dumbbells

The use of dumbbells gives you a much more comprehensive strengthening effect because the workout engages your stabilizer muscles, in addition to the muscle you may be pin-pointing. Without all of the belts and artificial stabilizers of a machine, you also engage your core muscles, which are your body's natural stabilizers.

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