Consequences of migration among the Roma: immunoglobulin markers as a tool in investigating population relationships

doi:10.1017/CBO9781139003308.016

13 - Consequences of migration among the Roma: immunoglobulin markers as a tool in investigating population relationships

Published online by Cambridge University Press: 05 December 2012

Moses S. Schanfield ,

Raquel A. Lazarin and

Eric Sunderland

Edited by

Michael H. Crawford and

Benjamin C. Campbell

Show author details

Michael H. Crawford: Affiliation:
University of Kansas
Benjamin C. Campbell: Affiliation:
University of Wisconsin, Milwaukee

Book contents

Get access

Summary

Introduction

This volume is aimed at looking at the causes and consequences of human migration. Our chapter concentrates on the Roma of Europe. Although, as we will see, the causes of the migration of the Roma populations from their homeland in India is lost in time, there is a great deal of evidence of the consequences of their migration over time. Most studies of the Roma look at single systems. The following review includes linguistic and genetic data on the Roma. The genetic data are divided among single nucleotide polymorphism (SNP) disease markers, mitochondrial DNA (mtDNA) and non-recombinant Y-chromosome SNP (NRY SNP) markers, and autosomal STR data with a synthesis of the data on the immunoglobulin allotype ancestry informative SNP markers. Though some markers are less useful than others, the general genetic pattern traces the Roma to the northern India–Pakistan region.

The Roma (Gypsies) currently live in endogamous communities scattered throughout Europe and elsewhere, which have been described as a “conglomerate of genetically isolated found populations” (Kalaydjieva et al., 2001). According to the review by Kalaydjieva et al. (2001) the largest Roma populations live in Bulgaria, Hungary, Romania, Slovakia, and Spain, followed by significant populations in the Czech Republic, France, Germany, Greece, Italy, Macedonia, Montenegro, Russia. Serbia, and Turkey, with smaller populations in Albania, Austria, Belarus, the Benelux countries, Bosnia, Croatia, Poland, Portugal, Switzerland, Ukraine, and the United Kingdom, while the smallest groups live in the peripheral Baltic States, Denmark, Finland, and Sweden. The term “Gypsy” comes from the concept that the population originated in Egypt and often refers to highly mobile populations. The Roma or Rom consider the term derogatory and most of the European Roma populations are sedentary. External terms for the Roma usually considered derogatory include Gypsy, Gitane, Gitano, Ijito, Jifti, Cingene, Sigane, Zigeuner, Sigojner, Tattare, and Tatere, while internal terms include Rom, Sinti, Mafia, and Calo or Kaalo. They are also named based on where they live – Vlah (Romania), Serbica (Serbia), Rom-ungro (Hungary) – and occupational classes – Lovari (horse), Kalderash (kettle), or Kalayde (tin smith) (Bakker, 2007).

Type: Chapter
Information: Causes and Consequences of Human Migration
An Evolutionary Perspective
, pp. 250 - 268

DOI: https://doi.org/10.1017/CBO9781139003308.016 [Opens in a new window]

Publisher: Cambridge University Press

Print publication year: 2012

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

Book purchase

Temporarily unavailable

References

Bakker, P.http://lacito.vjf.cnrs.fr/colloque/diaporamas/bakker.pdf

Chaix, R.Austerlitz, F.Kalaydjieva, L.Heyer, E. 2004 Vlax Roma history: what do coalescent-based methods tell us?European Journal of Human Genetics 12 285CrossRef Google Scholar PubMed

Clarke, V. 1973 Genetic factors in some British gypsiesGenetic Variation in BritainRoberts, D. F.Sunderland, E.181LondonTaylor and Francis.Google Scholar

Cohn, W. 1973 The GypsiesMenlo Park, CAAddison-WesleyGoogle Scholar

Coto, E.Rodriguez, J.Jeck, N. 2004 A new mutation (intron 9+1G>T) in the SLC12A3 gene is linked to Gitelmen syndrome in RomsKidney International 65 25CrossRef Google Scholar

Daveau, M.Rivat, L.Lalouel, J. M. 1980 Frequencies of Gm and Km allotypes in the population of Singapore, Sri Lanka and Punjabis in North IndiaHuman Heredity 30 237CrossRef Google Scholar PubMed

Daveau, M.Rivat, L.Langaney, A.Feingold, N.Ropartz, C. 1975 Gm and Inv allotypes in a Gypsy sampleHuman Heredity 25 135CrossRef Google Scholar

Endreffy, E.Nemeth, K.Fekete, G.Gyurkovits, K.Stankovics, J. 2002 Molecular genetic diagnostic difficulties in two Hungarian Gypsy samples with cystic fibrosisInternational Journal of Human Genetics 2 41CrossRef Google Scholar

Ferák, V.Genčik, A.Genčikova, A. 1982 Population genetic aspects of primary congenital glaucoma. II: Fitness, parental consanguinity, founder effectHuman Genetics 61 198CrossRef Google Scholar PubMed

Ferák, V., D.Siváková, D.Sieglová, Z. 1987 The Slovak gypsies (Romany) – a population with the highest coefficient of inbreeding in Europe (Slovakian)Braisl Lek Listy 87 168Google Scholar

Field, S. L.Surje, S.Ray, A. 1988 Immunoglobulin (GM and KM) allotypes in the Sikh population of IndiaAmerican Journal of Physical Anthropology 75 31CrossRef Google Scholar

Furedi, S.Angyal, M.Kozma, Z. 1997 Semi-automatic DNA profiling in a Hungarian Romany population using the STR loci HumVWFA31, HumTH01, HumTPOX, and HumCSF1POInternational Journal of Legal Medicine 110 184Google Scholar

Gresham, D.Morar, B.Underhill, P. A. 2001 Origins and divergence of the Roma (Gypsies)American Journal of Human Genetics 69 1314CrossRef Google Scholar

Gusmão, A.Valente, C.Gomes, V. 2010 A genetic historical sketch of European Gypsies: the perspective from autosomal markersAmerican Journal of Physical Anthropology 141 507CrossRef Google Scholar PubMed

Gyódi, E.Tauszik, T.Petranyi, G. 1981 The HLA antigen distribution in the gypsy population of HungaryTissue Antigens 18 1CrossRef Google Scholar PubMed

Harper, P.Roberts, D. F. 1988 Mating patterns and genetic diseaseHuman Mating PatternsMascie-Taylor, C. G. N.Boyce, A. J.169Cambridge, UKCambridge University PressGoogle Scholar

Harper, P. S.Williams, E. M.Sunderland, E. 1977 Genetic markers in Welsh GypsiesJournal of Medical Genetics 14 177CrossRef Google Scholar PubMed

Kalaydjieva, L.Gresham, D.Calafell, F 2001 Genetic studies of the Roma (Gypsies): a reviewBMC Medical Genetics 2CrossRef Google Scholar PubMed

Kalaydjieva, L.Morar, B.Chaix, R.Tang, H. 2005 A newly discovered founder population: the Roma/GypsiesBioEssays 27 1084CrossRef Google Scholar PubMed

Kalaydjieva, L.Perez-Lezuan, D.Angelicheva, D. 1999 A founder mutation in the GK1 gene is responsible for galactokinase deficiency in Roma (Gypsies)American Journal of Human Genetics 65 1299CrossRef Google Scholar

Kenrick, D. 2004 Gypsies: From the Ganges to the ThamesHatfield, UKUniversity of Hertfordshire PressGoogle Scholar

Klaric, I. M.Salihovic, M. PLauc, L. 2009 Dissecting the molecular architecture and origin of Bayash Romani patrilineages: genetic influences from South-Asia and the BalkansAmerican Journal of Physical Anthropology 138 333CrossRef Google Scholar PubMed

Malyarchuk, B. A.Grzybowski, T.Derenko, M. V.Czarny, J.Miścicka-Śliwka, D. 2005 Mitochondrial DNA diversity in the Polish RomaAmerican Journal of Human Genetics 70 195CrossRef Google Scholar

Martin, E.Gamella, J. F. 2005 Marriage practices and ethnic differentiation: the case of Spanish Gypsies (1870–2000)History of the Family 10 45CrossRef Google Scholar

Martinović-Klarić, I.Peričić-Salihović, M.Barać-Lauc, L. 2009 Dissecting the molecular architecture and origin of Bayash Romani patrilineages: genetic influences from South-Asia and BalkansAmerican Journal of Physical Anthropology 138 333CrossRef Google Scholar

Mendizabal, I.Valente, C.Gusmão, A. 2011 Reconstructing the Indian origin and dispersal of European Roma: a maternal genetic perspectivePLoS One 6CrossRef Google Scholar PubMed

Minárik, G.Ferák, V.Ferákova, E. 2003 High frequency of GJB2 mutation W24X among Slovak Romany (Gypsy) patients with non-syndromic hearing loss (NSHL)General Physiology and Biophysics 22 549Google Scholar

Morar, B.Gresham, D.Angelicheva, D. 2004 Mutation history of the Roma/GypsiesAmerican Journal of Human Genetics 75 596CrossRef Google Scholar PubMed

Mroz, L. 1991 Problems of the origin of gypsies: the Banjara and the Gadulia Lohar peoples of Rajasthan, IndiaEthnologia Polona 15 81Google Scholar

Nei, M. 1987 Molecular Evolutionary GeneticsNew YorkColumbia University PressGoogle Scholar

Nei, M.Kumar, S. 2000 Molecular Evolution and PhylogeneticsNew YorkOxford University PressGoogle Scholar

Novokmet, N.Pavčec, Z. 2007 Genetic polymorphism of 15 AmpFlSTR identifiler loci in Romani populations from Northwestern CroatiaForensic Science International 168 e43CrossRef Google Scholar PubMed

Pamjav, H.Zalán, A.Béres, J.Nagy, M.Chang, Y. M. 2011 Genetics structure of the paternal lineage of the Roma peopleAmerican Journal of Physical Anthropology 145 21CrossRef Google Scholar PubMed

Papiha, S. S.Schanfield, M. S.Chakraborty, R. 1996 Immunoglobulin allotypes and estimation of genetic admixture among populations of Kinnaur District, Himachal Pradesh, IndiaHuman Biology 68 777Google Scholar PubMed

Ropartz, C.Schanfield, M. S.Steinberg, A. G 1976 Review of the notation for the allotypic and related markers of human immunoglobulins: WHO meeting on human immunoglobulin allotypic markers held 16–19 July 1974, Rouen, FranceEuropean Journal of Immunology 6 599Google Scholar

Satya, L. 1997 Colonial sedentarisation and subjugation: the case of the Banjaras of Berar 1850–1900Journal of Peasant Studies 24 314CrossRef Google Scholar

Schanfield, M. S. 1980 The anthropological usefulness of highly polymorphic systems: HLA and immunoglobulin allotypesCurrent Developments in Anthropological GeneticsCrawford, M. H.Mielke, J.65New YorkPlenum PressCrossRef Google Scholar

Schanfield, M. S.Kirk, R. L. 1981 Further studies on the immunoglobulin allotypes (Gm and Km) in IndiaActa Anthropogenetica 5 1Google Scholar

Schanfield, M. SFerrell, R. EHossaini, A. A.Sandler, S. G.Stevenson, J. C 2008 Immunoglobulin allotypes in Southwest Asia: populations at the crossroadsAmerican Journal of Human Biology 20 671CrossRef Google Scholar PubMed

Schanfield, M. S.Gergely, J.Fudenberg, H. H. 1975 Immunoglobulin allotypes of European populations. I: Gm and Km (Inv) allotypic markers in HungariansHuman Heredity 25 370CrossRef Google Scholar PubMed

Shows, T. B.McAlpine, P. J.Boucheix, C. 1987 Guidelines for human gene nomenclature: an international system for human gene nomenclature (ISGN, 1987)Cytogenetics and Cell Genetics 46 11Google Scholar

Stevenson, J. C.Schanfield, M. S. 1981 Immunoglobulin allotypes in European populations. III: Gm, Am and Km allotypes in people of European ancestry in the United StatesHuman Biology 53 521Google Scholar PubMed

Tyfield, L.Meredith, A. L.Osborn, M. J.Harper, P. S. 1989 Identification of the haplotype pattern associated with the mutant PKU allele in the Gypsy population of WalesJournal of Medical Genetics 26 499CrossRef Google Scholar PubMed

van Loghem, E.Tauszik, T.Hollan, S.Nijenhuis, L. E. 1985 Immunoglobulin allotypes in Hungarian GypsiesJournal of Immunogenetics 12 131CrossRef Google Scholar PubMed

Wright, S. 1965 The interpretation of population structure using F-statistics with special regards to systems of matingEvolution 19 395CrossRef Google Scholar

Zalán, A.Béres, J.Pamjav, H. 2011 Paternal genetic history of the Vlax RomaForensic Science International: Genetics 5 109CrossRef Google Scholar PubMed