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Gm system in Latium*

Published online by Cambridge University Press:  01 August 2014

F. Durante
Affiliation:
Istituto di Medicina Legale e delle Assicurazioni dell'Università, Roma
G. Umani Ronchi
Affiliation:
Istituto di Medicina Legale e delle Assicurazioni dell'Università, Roma

Summary

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In order to contribute to the studies on the group substance properties of the Gm system, the Authors have carried out a research on 180 subjects living in Latium. The results [Gm(a) 48.8%; Gm(b) 95%; Gm(x) 9.4%], are very similar to those obtained for white subjects in other countries of Europe and North America.

The Authors underline the importance of this new system in the investigations for ascertaining the parental relationship.

Type
Research Article
Copyright
Copyright © The International Society for Twin Studies 1967

Footnotes

*

Comunicazione presentata al XIX Congresso della Società Italiana di Medicina Legale e delle Assicurazioni, Cagliari-Sassari 15-19 ottobre 1965.

References

Bibliografia

Adinolfi, M. et al. (1960). Dati sulla genetica dei gruppi gammaglobulinici con particolare riguardo alla distribuzione in alcune popolazioni italiane. Rend. Accad. Naz. Lincei, 28: 390.Google Scholar
Audran, R. et al. (1961). Les facteurs de groupes sériques Gma, Gmb et Gmx chez 79 sujets atteints de miélome multiple. Rev. Franc. Etud. Clin. Biol., 8: 807.Google Scholar
Brandtzaeg, B., Mohr, J. (1961). On the genetics of the Gm-serum system. Acta Genet., 11: 111.Google Scholar
Brandtzaeg, B. et al. (1961). The Gm(r) serum group. Acta Genet., 11: 170.Google Scholar
Brocteur, J. (1962). Les Groupes des Gamma-globulines chez l'homme. Arscia, Bruxelles.Google Scholar
Bütler, R., Greuter, W. (1964). Zwei weitere Fälle der Mutter/Kind Kombination Gm(a—b+)/Gm(a + b—). Path. Microbiol., 27: 558.Google Scholar
Carrera, F. (1964). Determinazione del gruppo gammaglobulinico (Gm) nel siero umano. Indagine statistica nella popolazione di Varese. Minerva Med., 55: 1033.Google Scholar
Deicher, H. et al. (1963). Beiträge zur Kenntnis der Serum-Faktoren Gm(b), Gm(x), und Gm(r). Vox. Sang., 8: 328.CrossRefGoogle Scholar
Deicher, H. et al. (1963). Familienuntersuchungen über die Gammaglobulingruppen Gm(a), Gm(b), Gm(x), Gm(r). Acta Genet., 13: 124.Google Scholar
Epstein, W., Fudenberg, H. (1962). Demonstration of Gma and anti-Gma specificities by tanned cells coated with individual γ globulins. J. Immun., 89: 293.Google Scholar
Eyquem, A. et al. (1964). Les facteurs Gm(a), Gm(b), Gm(x) au cours des hémopathies malignes. Bibl. Haemat., 19: 726.Google Scholar
Fallani, M. (1963). Le proprietà gruppo-specifiche del siero e il loro interesse in medicina legale. Med. Leg. Infort. Toss., 9: 85.Google Scholar
Fudenberg, H. H. (1963). The hereditary gamma globulin (Gm) groups: interpretations and extensions. Progr. Allerg., 7.Google Scholar
Fudenberg, H. H. Franklin, E. C. (1964). The hereditary human gammaglobulin (Gm) groups and the structural subunits of human gamma-globulin. Bibl. Haemat., 19: 483.Google ScholarPubMed
Fudenberg, H. H. Fudenberg, B. R. (1964). Antibody to hereditary human gamma-globulin (Gm) factor resulting from maternal-fetal incompatibility. Science, 145: 170.Google Scholar
Gold, E. R. et al. (1965). Gm(f)-a determinant of human gamma-globulin. Preliminary communication. Vox Sang., 10: 299.Google Scholar
Grubb, R. (1956). Agglutination of erythrocites coated with “incomplete” anti Rh by certain rheumatoid arthritic sera and some other sera. Acta Path. Microbiol. Scand., 39: 195.CrossRefGoogle Scholar
Grubb, R. (1959). Hereditary gammaglobulin groups in man. Ciba Simpos., 264.Google Scholar
Grubb, R. Laurell, A. B. (1956). Hereditary serological human serum groups. Acta Path. Microbiol. Scand., 39: 390.Google Scholar
Harboe, M. (1959). A new haemagglutinating substance in the Gm system; anti-Gm. Nature, 183: 1468.Google Scholar
Harboe, M. (1959). A new haemagglutinating substance in the Gm-system, anti-Gmb . Acta Path. Microbiol. Scand., 47: 191.Google Scholar
Harboe, M. Lundevall, J. (1959). A new type in the Gm-system. Acta Path. Microbiol. Scand., 45: 357.Google Scholar
Harboe, M. Lundevall, J. (1961). The application of the Gm-system in paternity cases. Vox Sang., 6: 257.Google Scholar
Henningsen, K., Nielsen, J. C. (1961). A rare phenotype within Gm-system. Nature, 192: 476.CrossRefGoogle ScholarPubMed
Herbich, J. (1962). Verteilung der Merkmale Gm(a) und Gm(x) des Globulin-System Gm in der Bevölkerung von Wien und Umgebung. Anwendbarkeit und Beweiswert dieses System in Paternitätsfällen. Wien. Klin. Wschr., 47: 859.Google Scholar
Herzog, P., Drdova', A. (1963). Gm(b+) type of sera in population of Prague. Vox Sang., 8: 455.Google Scholar
Herzog, P., Drdova', A. (1964). Anti-Gm sera and Gm(x) in the district of Prague. Vox Sang., 9: 356.Google ScholarPubMed
Hess, M. et al. (1961). Gm-Gruppen bei 500 Berner Blutspendern. Vox Sang., 6: 366.Google Scholar
Hunger, H., Thierbach, B. (1963). Gm(a). Bestimmungen bei Müttern und Neugeborenen. Blut, 9: 385.Google Scholar
Klose, I., Feist, D. (1962). Familienuntersuchungen über die Vererbung der Eigenschaft Gma . Deutsch. Z. Ges. Gerchtl. Med., 52: 438.Google Scholar
Lawler, D. S. (1960). A genetical study on the Gm groups in human serum. J. Immun., 3: 90.Google Scholar
Linnet-Jepsen, P. et al. (1958). On the inheritance of the Gm serum group. Acta Genet., 8: 164.Google Scholar
Matsumoto, H. (1964). Application of the human gamma globulin type (the Gm and InV group) in legal medicine. Jap. J. Leg. Med., 18: 384.Google ScholarPubMed
Morganti, G. et al. (1963). Il fattore Gm(a) nella popolazione della provincia di Firenze. Riv. Emoter. Immunoemat., 10: 269.Google Scholar
Moureau, P., Brocteur, J. (1962). The gammaglobulin groups, new individual and hereditary factors in human blood. Bull. Acad. Med. Belg., 7: 147.Google Scholar
Nielsen, J. C., Henningsen, K. (1961). A new allele within the Gm-system. Vox Sang., 6: 634.Google Scholar
Olivelli, F. (1958). Il fattore di gruppo Gm del siero umano. Dimostrazione con la reazione lattice-globulina. Riv. Emoter. Immunoemat., 5: 425.Google Scholar
Podliachouk, L., Eyquem, A. (1963). Les facteurs sériques Gm(a), Gm(b), Gm(x) et Gm-like dans la race bianche. C. R. Soc. Biol., 157: 732.Google Scholar
Prokop, O. (1962). Familienuntersuchungen mit Anti-Gma, Anti-Gmx und Anti-Gmb mit Angaben zur Phänotypenfrequenz. Z. Örztl. Fortbild., 56: 770.Google Scholar
Ritter, H. et al. (1964). Studies on the formai genetics of the gammaglobulin polimorphism Gm (characters Gm(a), Gm(b), Gm(x)). A studies of 386 families. Vox Sang., 9: 340.Google Scholar
Ropartz, C. (1960). Les groups sériques Gm. Etat actuel de la question. Rev. Franc. Et. Clin. Biol., 5: 933.Google Scholar
Ropartz, C. et al. (1963). Leucoses et groups de gamma-globulines Gm et InV. Vox Sang., 8: 627.Google ScholarPubMed
Ropartz, C. et al. (1963). Le Gm(b) et ses problemes. Vox Sang., 8: 717.Google Scholar
Ropartz, C. et al. (1964). Deux nouveaux facteurs dans les systèmes héréditaires de gamma-globuline: le Gm(e) et l'InV (I). Bibl. Haemat., 19: 454.Google Scholar
Ropartz, C. et al. Intéret des groupes de gammaglobulines Gm et InV dans l'appréciation du métissage des populations. Etudes de ces grupes sériques dans l'Ouest Africain et l'Extreme-Orient (Cit. da Deicher, Wendt e Oepen).Google Scholar
Ropartz, C. et al. Le système de gamma-globuline Gm, dans une population de la Seine Maritime (Cit. da Deicher, Wendt e Oepen).Google Scholar
Ropartz, C. et al. (1964). Problemes posés par l'application des systèmes héréditaires de gamma-globulines Gm et InV en médecine légale. Bibl. Haemat., 19: 459.Google Scholar
Ropartz, C. et al. Répartition des groupes de gammaglobulines: Gm et InV chez les iraniens. (Cit. da Deicher, Wendt e Oepen).Google Scholar
Ruffie', J. et al. (1964). Sur les variations du pouvoir inhibiteur des facteurs Gm(a) et Gm(b) en fonction de la présence du facteur Gm(like) dans le sérum. C. R. Acad. Sci., 258: 1638.Google Scholar
Ruffie', J. et al. (1964). Disparition du facteur Gm(a) du sérum de maladies atteints de leucose aigüe myéloblastique. C. R. Acad. Sci., 258: 4615.Google Scholar
Sander, I. (1964). Zur Frage der Genese von Gm-Antikörpern. Blut, 10: 32.Google Scholar
Steinberg, A. G. (1962). Evidence for a Gm allele negative for both Gm(a) and Gm(b). Vox Sang., 7: 89.Google Scholar
Steinberg, A. G. et al. (1960). A Gm like factor in Negroes and rare or absent in whites: its relation to Gma and Gmx . Amer. J. Hum. Genet., 12: 44.Google Scholar
Steinberg, A. G. et al. (1961). Gm phenotypes and genotypes in U.S. Withes and Negroes; in American Indians and Eskimos; in Africans; and in Micronesians. Amer. J. Human. Genet., 13: 205.Google Scholar
Steinberg, A. G. et al. (1961). Genetic and population studies of the types and serum factors among Indians and Chinese from Malaya. Amer. J. Human. Genet., 13: 355.Google Scholar
Thomas, K., Kampf, G. (1961). Die vererbbaren Gm-Serumeiweisgruppen. Ein neuer Faktor, GmDresden, in diesem System. Deutsch. Gesundh., 16: 1185.Google Scholar
Vierucci, A. (1964). Origine e natura dei fattori agglutinanti anti-Gm. Riv. Ist. Sieroter. Ital., 39: 217.Google Scholar
Waller, M. et al. (1963). New serum group, Gm(p). Science, 142: 1321.Google Scholar