Skip to main content
Key Specialties
Cardiology Diabetology Endocrinology Gastroenterology Geriatrics and Gerontology Gynecology and Obstetrics Hematology Infectious Disease Internal Medicine Nephrology Neurology Oncology Pediatrics Respiratory Medicine Rheumatology Surgery
Congress Coverage
2024 ACC Congress 2023 ESMO Congress 2023 EASD Congress 2023 ERS Congress 2023 ESC Congress
Clinical Collections
Advances in Alzheimer’s

Keynote webinar | Spotlight on medication adherence

LIVE: Thursday 27th June 2024, 18:00-19:30 (CEST)
Join our expert panel to discover why you need to understand the drivers of non-adherence in your patients, and how you can optimize medication adherence in your clinics to drastically improve patient outcomes.
ADVANCED SEARCH
Log in
Top
Neurogenetics
Published in: neurogenetics 1/2004

01-02-2004 | Original Article

Specific mutations in the HEXA gene among Iraqi Jewish Tay-Sachs disease carriers: dating of founder ancestor

Authors: Mazal Karpati, Ephraim Gazit, Boleslaw Goldman, Amos Frisch, Roberto Colombo, Leah Peleg

Published in: Neurogenetics | Issue 1/2004

Login to get access

Abstract

The incidence of Tay-Sachs disease (TSD) carriers, as defined by enzyme assay, is 1:29 among Ashkenazi Jews and 1:110 among Moroccan Jews. An elevated carrier frequency of 1:140 was also observed in the Iraqi Jews (IJ), while in other Israeli populations the world’s pan-ethnic frequency of approximately 1:280 has been found. Recently a novel mutation, G749T, has been reported in 38.7% of the IJ carriers (24/62). Here we report a second novel HEXA mutation specific to the IJ TDS carriers: a substitution of cytosine 1351 by guanosine (C1351G), resulting in the change of leucine to valine in position 451. This mutation was found in 33.9% (21/62) of the carriers and in none of 100 non-carrier IJ. In addition to the two specific mutations, 14.5% (9/62) of the IJ carriers bear a known “Jewish” mutation (Ashkenazi or Moroccan) and 11.3% (7/62) carry a known “non-Jewish” mutation. In 1 DNA sample no mutation has yet been detected. To investigate the genetic history of the IJ-specific mutations (C1351G and G749T), the allelic distribution of four polymorphic markers (D15S131, D15S1025, D15S981, D15S1050) was analyzed in IJ heterozygotes and ethnically matched controls. Based on linkage disequilibrium, recombination factor (θ) between the markers and mutated loci, and the population growth correction, we deduced that G749T occurred in a founder ancestor 44.8±14.2 generations (g) ago [95% confidence interval (CI) 17.0–72.6 g] and C1351G arose 80.4±35.9 g ago (95% CI 44.5–116.3 g). Thus, the estimated dates for introduction of mutations are: 626±426 A.D. (200–1052 A.D.) for G749T and 442±1077 B.C. (1519 B.C. to 635 A.D.) for C1351G.
Literature
1.
Kaback M, Lim-Steele J, Dabholkar D, Brown D, Levy N, Zeiger K (1993) Tay- Sachs disease carrier screening, prenatal diagnosis and the molecular era. JAMA 17:2307–2315
2.
Peleg L, Gazit E, Goldman B, Akstein E (1995) Tay-Sachs disease and population carrier screening: biochemical, molecular and social aspects. Harefuah 129:475–480PubMed
3.
Karpati M, Peleg L, Gazit E, Akstein E, Goldman B (2000) A novel mutations in the HEXA gene specific to Tay-Sachs disease carriers of Jewish Iraqi origin. Clin Genet 57:398–400CrossRefPubMed
4.
Bonne-Tamir B, Adam A (1992) Mendelian disorders with a relative high frequency among Jews (by origin). In: Bonne-Tamir B, Adam A (eds) The genetic diversity among Jews. Oxford University Press, New York, pp 447–448
5.
Pras M, Zemer D, Langevitz P, Sohar E (1992) Familial Mediterranean fever; a genetic disorder prevalent in Sephardi Jews. In: Bonne-Tamir B, Adam A (eds) The genetic diversity among Jews. Oxford University Press, New York, pp 223–227
6.
Anikster Y, Kleta R, Shaag A, Gahl WA, Elpeleg O (2001) Type III 3-methylglutaconic aciduria (optic atrophy plus syndrome or Costeff optic atrophy syndrome): identification of the OPA3 gene and its founder mutation in Iraqi Jews. Am J Hum Genet 69:1218–1224PubMed
7.
Adam A (1973) Genetic diseases among Jews. Isr J Med Sci 9:1383–1391PubMed
8.
Dellapergola S (1992) Major demographic trends of world Jewry: the last hundred years. In: Bonne-Tamir B, Adam A (eds) The genetic diversity among Jews. Oxford University Press, New York, pp 3–30
9.
Triggs-Raine BL, Akerman BR, Clarke JTR, Gravel RA (1991) Sequence of DNA flanking the exons of the Hex A gene and identification of mutations in Tay-Sachs disease. Am J Hum Genet 49:1041–1054PubMed
10.
Myerowitz R (1997) Tay-Sachs disease causing mutations and neutral polymorphism in the HEXA gene. Hum Mutat 9:195–208CrossRefPubMed
11.
Druker L, Proia RL, Navon R (1992) Identification and rapid detection of three Tay-Sachs mutations in the Moroccan Jewish population. Am J Hum Genet 51:371–377PubMed
12.
Lau MH, Neufeld EF (1989) A frameshift mutation in a patient with Tay-Sachs disease causes premature termination and defective intracellular transport of the α-subunit of β-hexosaminidase. J Biol Chem 264:21376–21380PubMed
13.
Akli S, Chomel JC, Lacorte JM, Bachner L, Poenaru A, Poenaru L (1993) Ten novel mutations in the HEXA gene in non-Jewish Tay-Sachs patients. Hum Mol Genet 2:61–67PubMed
14.
Durst R, Colombo R, Shpitzen S, Avi LB, Friedlander Y, Wexler R, Raal FJ, Marais DA, Defesche JC, Mandelsham MY, Kotze MJ, Leitersdorf E, Meiner V (2001) Recent origin and spread of a common Lithuanian mutation, G197del LDLR, causing familial hyprecholesterolemia: positive selection is not always necessary to account for disease incidence among Ashkenazi Jews. Am J Hum Genet 68:1172–1188CrossRefPubMed
15.
Bengtsson BO, Thomson G (1981) Measuring the strength of associations between HLA antigens and diseases. Tissue Antigens 18:356–363PubMed
16.
Risch N, De Leon D, Ozelius L, Kramer P, Almasy L, Singer B, Fahn S, Breakefield X, Bressman S (1995) Genetic analysis of idiopathic torsion dystonia in Ashkenazi Jews and their recent descent from a small founder population. Nat Genet 9:152–159PubMed
17.
Diaz GA, Gelb BD, Risch N, Nygaard TG, Frisch A, Cohen IJ, Sa-Miranda C, Amaral O, Maise I, Poenaru L, Caillaud C, Weizberg M, Mistry P, Desnick RJ (2000) Gaucher disease: the origins of the Ashkenazi Jewish N370S and 84GG acid β-glucosidase mutations. Am J Hum Genet 66:1821–1832CrossRefPubMed
18.
Kong A, Gudbjartsson DF, Sainz J, Jonsdottir GM, Godjonsson SA, Richardsson B, Sigurdardottir S, Barnard J, Hallbeck B, Masson G, Shlien A, Palsson ST, Frigge ML, Thorgeirsson TE, Gulcher JR, Stefansson BK (2000) A high-resolution recombination map of the human genome. Nat Genet 31:241–247
19.
Labuda M, Labuda D, Korab-Laskowska M, Cole DEC, Zietkiewicz E, Weissenbach J, Popowska E, Pronika E, Root AW, Glorieux H (1996) Linkage disequilibrium analysis in young population: pseudo-vitamin-D deficiency rickets and the founder effect in French Canadian. Am J Hum Genet 59:633–643PubMed
20.
Luria SE, Delbrück M (1943) Mutations of bacteria from virus sensitivity to virus resistance. Genetics 28:491–511
21.
Colombo R (2000) Age estimate of the N370S mutation causing Gaucher disease in Ashkenazi Jews and European population: a reappraisal of haplotype data. Am J Hum Genet 66:692–697PubMed
22.
Guo SW, Xiong M (1997) Estimating the age of mutant disease alleles based on linkage disequilibrium. Hum Hered 47:315–337PubMed
23.
Rannala B, Bertorelle G (2001) Using linked markers to infer the age of a mutation. Hum Mutat 18:87–100CrossRefPubMed
24.
Hästbacka J, Chapelle A de la, Kaitila I, Sistonen P, Weaver A, Lander E (1992) Linkage disequilibrium mapping in isolated founder populations: diastrophic dysplasia in Finland. Nat Genet 2:204–211PubMed
25.
Tremblay M, Vėzina H (2000) New estimates of intergenerational time intervals for the calculation of age of origins of mutations. Am J Hum Genet 66:651–658PubMed
26.
Özkara HA, Navon R (1998) At least six different mutations in HEXA gene cause Tay-Sachs disease among the Turkish population. Mol Genet Metab 65:250–253CrossRefPubMed
27.
Özkara HA, Sandhoff K (2003) Characterization of two Turkish β-hexosaminidase mutations causing Tay-Sachs. Brain Dev 25:191–194CrossRefPubMed
28.
Tanaka A, Sakazaki H, Murakami H, Isshiki G, Suzuki K (1994) Molecular genetics of Tay-Sachs disease in Japan. J Inherit Metab Dis 17:593–600PubMed
29.
Riberio GM, Pinto RA, Suzuki K, Sa-Miranda MC (1997) Two novel (1334delC and 1363 G to A, G455R) mutations in exon 12 of the β-hexosaminidase α–chain gene in two Portuguese patients. Hum Mutat 10:359–360CrossRefPubMed
30.
Spyropoulos B, Moens PB, Davidson J, Lowden JA (1981) Heterozygote advantage in Tay-Sachs carriers. Am J Hum Genet 33:375–380PubMed
31.
Ostrer H (2001) A genetic profile of contemporary Jewish population. Nat Rev Genet 2:891–898PubMed
32.
33.
Thomas MG, Weale ME, Jones AL, Richards M, Smith A, Redhead N, Torroni A, Scozzari R, Gratrix F, Tarekegn A, Wilson JF, Capelli C, Bradman N, Goldstein DB (2002) Founding mother of Jewish communities: geographically separated Jewish groups were independently founded by very few female ancestors. Am J Hum Genet 70:1411–1420CrossRefPubMed
34.
Reich DE, Cargill M, Bolk S, Ireland J, Sabeti PC, Richter DJ, Lavery T, Kouyoumjian R, Farhadian SF, Ward R, Lander ES (2001) Linkage disequilibrium in the human genome. Nature 411:199–204CrossRefPubMed
35.
Encyclopedia Hebraica (Hebrew), vol 27. Encyclopaedia Publishing Company, pp 131–137
36.
37.
38.
Gubbay L (2000) Sunlight and shadow. In: The Jewish experience of Islam. The Other Press, USA
Metadata
Title
Specific mutations in the HEXA gene among Iraqi Jewish Tay-Sachs disease carriers: dating of founder ancestor
Authors
Mazal Karpati
Ephraim Gazit
Boleslaw Goldman
Amos Frisch
Roberto Colombo
Leah Peleg
Publication date
01-02-2004
Publisher
Springer-Verlag
Published in
Neurogenetics / Issue 1/2004
Print ISSN: 1364-6745
Electronic ISSN: 1364-6753
DOI
https://doi.org/10.1007/s10048-003-0166-8

Other articles of this Issue 1/2004

neurogenetics 1/2004 Go to the issue

Original Article

New FKRP mutations causing congenital muscular dystrophy associated with mental retardation and central nervous system abnormalities. Identification of a founder mutation in Tunisian families

Original Article

Analysis of sequence variability of the bovine prion protein gene (PRNP) in German cattle breeds

Original Article

Sulfite and base for the treatment of familial amyloidotic polyneuropathy: two additive approaches to stabilize the conformation of human amyloidogenic transthyretin

Original Article

Improvement of the diagnostic procedure in proximal myotonic myopathy/myotonic dystrophy type 2

Original Article

Investigation of seven proposed regions of linkage in multiple sclerosis: an American and French collaborative study

Letter to the Editors

Mutation analysis of CBL-C and SPRED3 on 19q in human glioblastoma