Genetic studies on Arabs

The Centre for Arab Genomic Studies (CAGS) oversees genetic analyses on the populations of the Arab world. Based in Dubai, United Arab Emirates, it indicates that Arab countries have among the highest rates of genetic disorders in the world. Some 906 pathologies are endemic to the Arab states, including thalassaemia, Tourette's syndrome, Wilson's disease, Charcot-Marie-Tooth disease, mitochondrial encephalomyopathies and Niemann-Pick disease.[1][2]

Genetic diseases Databases in Arabic countries and studies

Several organizations maintain genetic databases for each Arabic country. The Centre for Arab Genomic Studies (CAGS) is the main organization based in the United Arab Emirates. It initiated a pilot project to construct the Catalogue for Transmission Genetics in Arabs (CTGA) database for genetic disorders in Arab populations. At present, the CTGA database is centrally maintained in Dubai, and hosts entries for nearly 1540 Mendelian disorders and related genes. This number is increasing as researchers are joining the largest Arab scientific effort to define genetic disorders described in the region. The Center promotes research studies on these emergent disorders.[3] Some of the genetic disorders endemic to the Arab world are: hemoglobinopathy, sickle cell anemia, glucose-6-phosphate dehydrogenase deficiency, and fragile X syndrome (FXS), which is an inherited genetic condition with critical consequences. The Centre provide information about specific countries,[4] and maintain a list of Genomic diseases.[5][6][7]

Specific rare autosomal recessive diseases are high in Arabic countries like Bardet Biedl syndrome, Meckel syndrome, congenital chloride diarrhea, severe childhood autosomal recessive muscular dystrophy (SMARMD) Lysosomal storage diseases and PKU are high in the Gulf states. Dr Teebi's book provides detailed information and by country.[8] Even the Middle East respiratory syndrome coronavirus (MERS-CoV) that was first identified in Saudi Arabia last year, it has infected 77 people, mostly in the Middle East and Europe. Forty of them – more than half – have died. But MERS is not yet a pandemic, could become pervasive in genetic disease patient. [9]

Dr Thurman' guidebook about Rare genetic diseases [10] another book Arabic genetic disorders layman guide[11] Saudi Journal article about genetic diseases in Arabic countries[12] The highest proportion of genetic disorders manifestations are: congenital malformations followed by endocrine metabolic disorders and then by Neuron disorders (such as Neuromotor disease)and then by blood immune disorders and then neoplasms. The Mode of Inheritance is mainly autosomal recessive followed by autosomal dominant. Some of the diseases are beta-thalassemia mutations, sickle-cell disease, congenital heart-disease, glucose-6-phosphate dehydrogenase deficiency, alpha-thalassemia, molecular characterization, recessive osteoperosis, gluthanione-reducatsafe DEf. A study about sickle cell anemia in Arabs[13] article about Birth defects [14] 6Glucose Phisphate isomere deficiency responsible for unexpected hemolytic episodes.[15] one of late Dr Teebi's syndromes.[16] flash cards guide. [17][18][19][20] NY Times article[21] In Palestinian Arabs study[22] study about potential on pharmacology [23] another study on Arab Palestinians[24] Database of Genetic disorders in Arabs study[25] In Palestinians[26] new general study about databases[27] Database for B thalassemia in Arabs[28] Israeli National genetic bank contains genetic mutations of Arabs[29] Teebi database 2002[30] 2010 genes responsible for genetic diseases among Palestinian Arabs[31][32] The next Pan-Arab conference Nov 2013 [33]

Diagnosis of genetic disorders

Diagnosis of genetic disorders after birth is done by clinicians, lab tests, and sometimes genetic testing. Genetic testing profiling screening of pregnant women's fetuses for List of disorders included in newborn screening programs using Microchip Genetic Microarrary might help detect genetic mutations incompatible with life and determining abortion. Some genetic tests of born children might help finding the right treatment.[34][35] Mothers could test for genetic disorders in the fetus by method of chorionic villus sampling (CVS) or amniocentesis.

Genealogy and geographic of Arabic genetic diseases

Bare lymphocyte syndrome high in western Arabic block Morocco, type II limb-girdle muscular dystrophy, type 2C in Libya, Hemolytic-uremic syndrome in Saudia, Ankylosing spondylitis in Egypt &East block, Alpha-thalassemia in all countries minus Egypt Syria Iraq, cystic fibrosis in Iraq Saudi Yemen Libya Morocco, familial Mediterranean fever fmf in east block and Libya Morocco, beta Thalassemia in all countries, g6dh deficiency all countries.[18][36]

Most of the genetic markers of Arabs genetic diseases are phenotypic i.e. specific mutations of Arab peoples, especially in countries. Even though genetic mutations of Gulf states are mostly the same, but some genetic phenotypes are Kuwaiti etc.

The diseases have geographical distribution among Arab countries such as greater Syria, Gulf states, Yemen, Western block (Morocco, Algeria, Tunisia), because of the restricted marriages to each block or even to one country. Moreover, cousin marriages (conseigenity)and endogamy (marriages restricted to minority sects) excaberate the problem. Distancing of marriages from distant gene pools might help resolve the problem in Arabic countries. Many of the pronounced genetic deficiencies in Arabs are located on HLA segment on chromosome 6 . This same segment mutations are markers of Arabs in Genealogical and forensic profiling tests and studies. Such studies as:[14][37][38][39][40] Arab population data on the PCR-based loci:HLA [41] HLA polymorphism in Saudi.[42]

Since over 70% of Arab genetic disorders are Autosomal-recessive, meaning the defective gene has to be found in both father and mother, and since the gene pool are similar in population (males and females alike since autosomal chromosomes are admixture from father and mother, in closed societies (marriages from same sect endogamy, or same tribe or even from same country, or even from same block of countries since gene pool is similar in Geographical blocks as shown in the online brochures referenced above.[43]

Genetic studies on Arabs that lead to discoveries of new syndromes

Teebi type of Hypertelorism (1987) •• Teebi Shaltout syndrome (1989) •• Al Gazali syndrome (1994) •• Megarbane syndrome (2001)

There are even new Arabic names for emerging genetic disorders& syndromes like:

Spectrum of Genetic Disorders in Arabs •• Lebanese type of mannose 6--phosphate receptor recognition defect (1984) •• Algerian type of spondylometaphyseal dysplasia (1988) •• Kuwaiti type of cardioskeletalsyndrome (1990) •• Yemenite deaf-blind hypopigmentation syndrome (1990) •• Nablus mask-like facial syndrome (2000) •• Jerash type of the distal hereditary motor neuropathy (2000) •• Karak syndrome (2003) •• Omani type of spondyloepiphy

Uniparental markers
Main articles: Y-DNA haplogroups in populations of the Near East and Y-DNA haplogroups in populations of North Africa

Y-chromosome

Below is the general distribution of Y-DNA haplogroups among populations native to the Arab world:

PopulationLanguage Family[44]n[45]R1b[46]nR1anInE1b1bnE1b1anJnGnNnTnL
Arabs (Algeria) Afro-Asiatic (Semitic) 35 13.0[47] 35 0.0[47] 32 50[48] 35 35[47]
Arabs (AlgeriaOran) Afro-Asiatic (Semitic) 102 10.8[49] 102 1[49] 102 50.9[49] 102 12.8[49] 102 27.4[49]
Arabs (Bedouin) Afro-Asiatic (Semitic) 32 0.0[50] 32 9.4[50] 32 6.3[50] 32 18.7[50] 32 65.6[50] 32 0.0[50]
Arabs (Iraq) Afro-Asiatic (Semitic) 10.8[51] 6.5[52] 218 8.3[48] 218 0.9[48] 156 50.6[48]
Arabs (Israel) Afro-Asiatic (Semitic) 143 8.4[50] 143 1.4[50] 143 6.3[50] 143 20.3[50] 143 55.2[50] 143 0.0[50]
Arabs (Morocco) Afro-Asiatic (Semitic) 44 3.8[53] 44 0.0[53] 44 0.0[53] 49 85.5[48] 49 2.4[48]
Arabs (Oman) Afro-Asiatic (Semitic) 121 1.7[54] 121 9.1[54] 121 0.0[54] 121 15.7[54] 121 7.4[54] 121 47.9[54] 121 1.7[54] 121 8.3[54] 121 0.8[54]
Arabs (Qatar) Afro-Asiatic (Semitic) 72 1.4[55] 72 6.9[55] 72 0.0[55] 72 5.6[55] 72 2.8[55] 72 66.7[55] 72 2.8[55] 72 0.0[55] 72 0.0[55] 72 2.8[55]
Arabs (Saudi Arabia) Afro-Asiatic (Semitic) 157 1.9[56] 157 5.1[56] 157 0.0[56] 157 7.6[56] 157 7.6[56] 157 58.0[56] 157 3.2[56] 157 0.0[56] 157 5.1[56] 157 1.9[56]
Arabs (UAE) Afro-Asiatic (Semitic) 164 4.3[55] 164 7.3[55] 164 11.6[55] 164 5.5[55] 164 45.1[55] 164 4.3[55] 164 0.0[55] 164 4.9[55] 164 3.0[55]
Arabs (Yemen) Afro-Asiatic (Semitic) 62 0.0[55] 62 0.0[55] 62 0.0[55] 62 12.9[55] 62 3.2[55] 62 82.3[55] 62 1.6[55] 62 0.0[55] 62 0.0[55] 62 0.0[55]
Arabs (Syria) Afro-Asiatic (Semitic) 20 15.0[57] 20 10.0[57] 20 5.0[57] 20 10.0[57] 20 53.0[57] 20 0.0[57] 20 0.0[57] 20 0.0[57] 20 0.0[57]
Arabs (Lebanon) Afro-Asiatic (Semitic) 31 6.4[57] 31 9.7[57] 31 3.2[57] 31 25.8[57] 31 45.2[57] 31 3.2[57] 31 0.0[57] 31 0.0[57] 31 3.2[57]
Arabs (Sudan) Afro-Asiatic (Semitic) 102 15.7[58] 102 3.9[58] 102 16.7[58] 102 47.1[58]
Arabs (Tunisia) Afro-Asiatic (Semitic) 148 6.8[47] 148 0.0[47] 148 0.0[47] 148 49.3[47] 148 1.4[47] 148 35.8[47] 148 0.0[47] 148 0.7[47] 148 0.0[47]
Arabs (Libya) Afro-Asiatic (Semitic) 63 3[59] 63 1.5[59] 63 1.5[59] 63 52.0[59] 63 0.0[59] 63 24.0[59] 63 8.0[59] 63 5.0[59] 63 1.5[59]
Saharawi (SADR) Afro-Asiatic (Semitic) 29 79.3[48] 29 3.4[48] 29 17.2[48]
Egyptians Afro-Asiatic (Semitic) 92-147 5.4[60]-4.1 92-147 0.0[60]-2.7[54] 92-147 1.1[60]-0.7[54] 92-147 43.5[60]-36.7[54] 92-147 3.3[60]-2.8[54] 92-147 22.8[60]-32.0[54] 92-147 2.2[60]-8.8[54] 92-147 0.0[60]-0.0[54] 92-147 7.6[60]-8.2[54] 92 0.0[60]
Egyptians (North) Afro-Asiatic (Semitic) 43 9.3[61] 43 2.3[61] 43 0.0[61] 43 53.5[61] 44 18.2[47] 43 7.0[61] 43 2.3[61] 43 0.0[61]
Egyptians (South) Afro-Asiatic (Semitic) 47 13.8[62] 47 78.7[62]
Lebanese Afro-Asiatic (Semitic) 914 8.1[63] 914 2.5[61] 914 4.8[61] 914 16.2[61] 914 0.7[61] 914 46.1[61] 914 6.6[61] 914 0.1[61] 914 4.7[61] 914 5.2[61]

mtDNA analysis

The Maternal ancestral lineages of Arabic countries are very diverse. The original Historical Maternal ancestral Haplogroups of the Near East were Mt (Maternal) L3 Haplogroup and Mt HV1 haplogroup that are still high in Yemen, while in Greater Syria there is a European Maternal gene flow.[14][64][65]

HLA antigens

Many of the genetic disorders specific to Arabs are located on HLA segment on chromosome 6. These same segment mutations are also markers of Arabs in genealogical and forensic profiling tests and studies.[66][67][14][64][65][68][69]

Autosomal DNA

There are four principal West Eurasian autosomal DNA components that characterize the populations in the Arab world: the Arabian, Levantine, Coptic and Maghrebi components. The Arabian component is the main autosomal element in the Gulf region. It is most closely associated with local Arabic-speaking populations.[70] The Arabian component is also found at significant frequencies in parts of the Levant and Northeast Africa.[70][71] The geographical distribution pattern of this component correlates with the pattern of the Islamic expansion, but its presence in Lebanese Christians, Sephardi and Ashkenazi Jews, Cypriots and Armenians might suggest that its spread to the Levant could also represent an earlier event.[70]

The Levantine component is the main autosomal element in the Near East and Caucasus. It peaks among Druze populations in the Levant. The Levantine component diverged from the Arabian component about 15,500-23,700 ypb.[70]

The Coptic component is the main autosomal element in Northeast Africa. It peaks among Egyptian Copts in Sudan, and is also found at high frequencies among other Afro-Asiatic-speaking populations in the Nile Valley and Horn of Africa.[72] The Coptic component is roughly equivalent with the Eurasian ancestry found in the Ethio-Somali component.[73]

The Maghrebi component is the main autosomal element in the Maghreb. It peaks among the non-Arabized Berber populations in the region.[71] The Maghrebi component diverged from the Coptic/Ethio-Somali, Arabian and Levantine components prior to the Holocene.[71][73]

A recent genetic study published in the "European Journal of Human Genetics" in Nature (2019) showed that West Asians (Arabs) are closely related to Europeans and Northern Africans as well as to Southwest Asians.[74]

Online practical guides for genetic diseases

Genetic disorders in Arabs [18] [19]

See also

References
  1. "Arabs bear brunt of Genetic Disorders". Thenational.ae. Retrieved 2013-09-09.
  2. Yahya. "one thousand and one tales of genetic disorders in arabs". Nature blog.
  3. "Centre for Arab Genomic Studies".
  4. Ghazi Omar Tadmouri. "Centre for Arab Genomic Studies (CAGS) -> Publications". CAGS. Retrieved 2013-09-09.
  5. Ghazi Omar Tadmouri. "Genetic Disorders in Arab Populations" (PDF). Webcache.googleusercontent.com. Archived from the original on 2012-02-29. Retrieved 2013-09-09.CS1 maint: bot: original URL status unknown (link)
  6. "Genetic Disorders in Arab Populations" (PDF). Cags.org.ae. Retrieved 2013-09-09.
  7. Ghazi Omar Tadmouri. "Centre for Arab Genomic Studies (CAGS) -> CTGA Database - Static". CAGS. Retrieved 2013-09-09.
  8. Teebi, Ahmad S.; Farag, Talaat I. (1997). Genetic Disorders Among Arab Populations. Oxford University Press. ISBN 978-0-19-509305-6.
  9. Petherick, A (Jun 15, 2013). "MERS-CoV: in search of answers". Lancet. 381 (9883): 2069. doi:10.1016/S0140-6736(13)61228-3. PMC 7138063. PMID 23776959.
  10. Thurmon, Theodore F. (5 March 1974). Rare genetic diseases: a guidebook. CRC Press. ISBN 978-0-87819-039-3.
  11. Abel, Ernest L. (1 January 2003). Arab Genetic Disorders: A Layman's Guide. McFarland. ISBN 978-0-7864-1463-5.
  12. Elhazmi; et al. (1996). "Genetic disorders among Arabic populations". Saudi Medical Journal. 17 (2): 108–123. ISSN 0379-5284. INIST:3144570.
  13. El-Hazmi, Mohsen; Warsy, ArjumandS; Al-Hazmi, AliM (November 2011). "Sickle cell disease in Middle East Arab countries". The Indian Journal of Medical Research. 134 (5): 597–610. doi:10.4103/0971-5916.90984. PMC 3249957. PMID 22199098.
  14. Yanni, EA; Copeland, G; Olney, RS (June 2010). "Birth defects and genetic disorders among Arab Americans--Michigan, 1992-2003". Journal of Immigrant and Minority Health (Submitted manuscript). 12 (3): 408–13. doi:10.1007/s10903-008-9203-x. PMID 18972209. S2CID 23474459.
  15. Shalev, O; Leibowitz, G; Brok-Simoni, F (Jun 15, 1994). "[Glucose phosphate isomerase deficiency with congenital nonspherocytic hemolytic anemia]". Harefuah. 126 (12): 699–702, 764, 763. PMID 7927011.
  16. Koenig, R (July 2003). "Teebi hypertelorism syndrome". Clinical Dysmorphology. 12 (3): 187–9. doi:10.1097/01.mcd.0000077563.66911.c4. PMID 14564158. S2CID 30753495.
  17. "Genetic diseases studies on Arabic world". Jeans4genes.org. Retrieved 2013-09-09.
  18. "Genetic Disorders in Arabs" (PDF). Jeans4genes.org. Retrieved 2013-09-09.
  19. "Genetic Diseases Studies in Arabic Countries". Jeans4genes.org. Retrieved 2013-09-09.
  20. "Arab Information Center for Genetic Counseling". Jeans4genes.org. Retrieved 2013-09-09.
  21. Kraft, D (Mar 21, 2006). "A hunt for genes that betrayed a desert people". The New York Times on the Web. pp. F1, F4. PMID 16649272.
  22. Zlotogora, J (May 1, 2002). "Molecular basis of autosomal recessive diseases among the Palestinian Arabs". American Journal of Medical Genetics. 109 (3): 176–82. doi:10.1002/ajmg.10328. PMID 11977175.
  23. Lagoumintzis, G; Poulas, K; Patrinos, GP (2010). "Genetic databases and their potential in pharmacogenomics". Current Pharmaceutical Design. 16 (20): 2224–31. doi:10.2174/138161210791792804. PMID 20459387.
  24. Zlotogora, J; van Baal, S; Patrinos, GP (October 2007). "Documentation of inherited disorders and mutation frequencies in the different religious communities in Israel in the Israeli National Genetic Database". Human Mutation. 28 (10): 944–9. doi:10.1002/humu.20551. PMID 17492749. S2CID 20616020.
  25. Tadmouri, GO; Al Ali, MT; Al-Haj Ali, S; Al Khaja, N (Jan 1, 2006). "CTGA: the database for genetic disorders in Arab populations". Nucleic Acids Research. 34 (Database issue): D602–6. doi:10.1093/nar/gkj015. PMC 1347378. PMID 16381941.
  26. Zlotogora, J; Barges, S; Bisharat, B; Shalev, SA (Aug 1, 2006). "Genetic disorders among Palestinian Arabs. 4: Genetic clinics in the community". American Journal of Medical Genetics Part A. 140 (15): 1644–6. doi:10.1002/ajmg.a.31342. PMID 16830330. S2CID 5859352.
  27. Hamosh, A. (17 December 2004). "Online Mendelian Inheritance in Man (OMIM), a knowledgebase of human genes and genetic disorders". Nucleic Acids Research. 33 (Database issue): D514–D517. doi:10.1093/nar/gki033. PMC 539987. PMID 15608251.
  28. Tadmouri, GO; Gulen, RI (November 2003). "Deniz: the electronic database for beta-thalassemia mutations in the Arab world". Saudi Medical Journal. 24 (11): 1192–8. PMID 14647552.
  29. Zlotogora, J; van Baal, S; Patrinos, GP (June 2009). "The Israeli National Genetic Database". The Israel Medical Association Journal : IMAJ. 11 (6): 373–5. PMID 19697591.
  30. Teebi, AS; Teebi, SA; Porter, CJ; Cuticchia, AJ (June 2002). "Arab genetic disease database (AGDDB): a population-specific clinical and mutation database". Human Mutation. 19 (6): 615–21. doi:10.1002/humu.10082. PMID 12007218. S2CID 40125498.
  31. Zlotogora, J (November 2010). "The molecular basis of autosomal recessive diseases among the Arabs and Druze in Israel". Human Genetics. 128 (5): 473–9. doi:10.1007/s00439-010-0890-8. PMID 20852892. S2CID 20782950.
  32. Rosler, A (August 2006). "17 beta-hydroxysteroid dehydrogenase 3 deficiency in the Mediterranean population". Pediatric Endocrinology Reviews : PER. 3 Suppl 3: 455–61. PMID 17551466. Affected individuals are born with ambiguity of the external genitalia and reared as females until puberty, found in Palestinians
  33. "The 5th pan arab genetics conference website".
  34. Bowron, A (Jul 5, 2013). "Laboratory diagnosis of inherited metabolic diseases". Annals of Clinical Biochemistry. 50 (5): 511–512. doi:10.1177/0004563213495141.
  35. Hernandez, MA; Schulz, R; Chaplin, T; Young, BD; Perrett, D; Champion, MP; Taanman, JW; Fensom, A; Marinaki, AM (Dec 1, 2010). "The diagnosis of inherited metabolic diseases by microarray gene expression profiling". Orphanet Journal of Rare Diseases. 5: 34. doi:10.1186/1750-1172-5-34. PMC 3009951. PMID 21122112.
  36. http://www.jeans4genes.org/files/GC_Arab_2.pdf%5B%5D%5B%5D
  37. Hunter-Zinck, H; Musharoff, S; Salit, J; Al-Ali, KA; Chouchane, L; Gohar, A; Matthews, R; Butler, MW; Fuller, J; Hackett, NR; Crystal, RG; Clark, AG (Jul 9, 2010). "Population genetic structure of the people of Qatar". American Journal of Human Genetics. 87 (1): 17–25. doi:10.1016/j.ajhg.2010.05.018. PMC 2896773. PMID 20579625.
  38. Al-Zahery, N; Pala, M; Battaglia, V; Grugni, V; Hamod, MA; Hooshiar Kashani, B; Olivieri, A; Torroni, A; Santachiara-Benerecetti, AS; Semino, O (Oct 4, 2011). "In search of the genetic footprints of Sumerians: a survey of Y-chromosome and mtDNA variation in the Marsh Arabs of Iraq". BMC Evolutionary Biology. 11: 288. doi:10.1186/1471-2148-11-288. PMC 3215667. PMID 21970613.
  39. Hassan, HY; Underhill, PA; Cavalli-Sforza, LL; Ibrahim, ME (November 2008). "Y-chromosome variation among Sudanese: restricted gene flow, concordance with language, geography, and history". American Journal of Physical Anthropology. 137 (3): 316–23. doi:10.1002/ajpa.20876. PMID 18618658.
  40. Shaat, N; Ekelund, M; Lernmark, A; Ivarsson, S; Nilsson, A; Perfekt, R; Berntorp, K; Groop, L (May 2004). "Genotypic and phenotypic differences between Arabian and Scandinavian women with gestational diabetes mellitus". Diabetologia. 47 (5): 878–84. doi:10.1007/s00125-004-1388-5. PMID 15095040.
  41. Hayes, JM; Budowle, B; Freund, M (September 1995). "Arab population data on the PCR-based loci: HLA-DQA1, LDLR, GYPA, HBGG, D7S8, Gc, and D1S80". Journal of Forensic Sciences. 40 (5): 888–92. doi:10.1520/JFS15404J. PMID 7595333.
  42. Ollier, W; Doyle, P; Alonso, A; Awad, J; Williams, E; Gill, D; Welch, S; Klouda, P; Bacchus, R; Festenstein, H (February 1985). "HLA polymorphisms in Saudi Arabs". Tissue Antigens. 25 (2): 87–95. doi:10.1111/j.1399-0039.1985.tb00420.x. PMID 3857723.
  43. "Genetic disorders in arabs" (PDF).
  44. IE = Indo-European
  45. First column gives the amount of total Sample Size studied
  46. Second column gives the Percentage of the particular haplogroup among the Sample Size
  47. Arredi, B; Poloni, ES; Paracchini, S; Zerjal, T; Fathallah, DM; Makrelouf, M; Pascali, VL; Novelletto, A; Tyler-Smith, C (2004). "A Predominantly Neolithic Origin for Y-Chromosomal DNA Variation in North Africa". American Journal of Human Genetics. 75 (2): 338–45. doi:10.1086/423147. PMC 1216069. PMID 15202071.
  48. Semino et al. (2004). Archived 2011-07-09 at the Wayback Machine
  49. Robino, C; Crobu, F; Di Gaetano, C; Bekada, A; Benhamamouch, S; Cerutti, N; Piazza, A; Inturri, S; Torre, C (2008). "Analysis of Y-chromosomal SNP haplogroups and STR haplotypes in an Algerian population sample". International Journal of Legal Medicine. 122 (3): 251–5. doi:10.1007/s00414-007-0203-5. PMID 17909833. S2CID 11556974.
  50. Nebel, A; Filon, D; Brinkmann, B; Majumder, PP; Faerman, M; Oppenheim, A (2001). "The Y Chromosome Pool of Jews as Part of the Genetic Landscape of the Middle East". American Journal of Human Genetics. 69 (5): 1095–112. doi:10.1086/324070. PMC 1274378. PMID 11573163.
  51. Al-Zahery, N.; Semino, O.; Benuzzi, G.; Magri, C.; Passarino, G.; Torroni, A.; Santachiara-Benerecetti, A.S. (2003). "Y-chromosome and mtDNA polymorphisms in Iraq, a crossroad of the early human dispersal and of post-Neolithic migrations". Molecular Phylogenetics and Evolution. 28 (3): 458–472. doi:10.1016/S1055-7903(03)00039-3. PMID 12927131. S2CID 7225835.
  52. Al-Zahery, N.; Semino, O.; Benuzzi, G.; Magri, C.; Passarino, G.; Torroni, A.; Santachiara-Benerecetti, A.S. (2003). "Y-chromosome and mtDNA polymorphisms in Iraq, a crossroad of the early human dispersal and of post-Neolithic migrations". Molecular Phylogenetics and Evolution. 28 (3): 458–472. doi:10.1016/S1055-7903(03)00039-3. PMID 12927131. S2CID 7225835.
  53. Peričić M, Lauc LB, Klaric IM, Rootsi S, Janicijevic B, Rudan I, Terzic R, Colak I, Kvesic A, Popovic D, Sijacki A, Behluli I, Dordevic D, Efremovska L, Bajec DD, Stefanovic BD, Villems R, Rudan P (October 2005). "High-resolution phylogenetic analysis of southeastern Europe traces major episodes of paternal gene flow among Slavic populations". Molecular Biology and Evolution. 22 (10): 1964–75. doi:10.1093/molbev/msi185. PMID 15944443. Haplogroup frequency data in table 1
  54. Luis, JR; Rowold, DJ; Regueiro, M; Caeiro, B; Cinnioğlu, C; Roseman, C; Underhill, PA; Cavalli-Sforza, LL; Herrera, RJ (2004). "The Levant versus the Horn of Africa: Evidence for Bidirectional Corridors of Human Migrations" (PDF). American Journal of Human Genetics. 74 (3): 532–44. doi:10.1086/382286. PMC 1182266. PMID 14973781. Archived from the original (PDF) on February 16, 2012. (Errata Archived February 16, 2012, at the Wayback Machine)
  55. Cadenas, Alicia M; Zhivotovsky, Lev A; Cavalli-Sforza, Luca L; Underhill, PA; Herrera, RJ (2008). "Y-chromosome diversity characterizes the Gulf of Oman". European Journal of Human Genetics. 16 (3): 374–86. doi:10.1038/sj.ejhg.5201934. PMID 17928816.
  56. Abu-Amero, KK; Hellani, A; González, AM; Larruga, JM; Cabrera, VM; Underhill, PA (2009). "Saudi Arabian Y-Chromosome diversity and its relationship with nearby regions". BMC Genetics. 10: 59. doi:10.1186/1471-2156-10-59. PMC 2759955. PMID 19772609.
  57. Semino A, Passarino G, Oefner PJ, Lin AA, Arbuzova S, Beckman LE, De Benedictis G, Francalacci P, Kouvatsi A, Limborska S, Marcikiae M, Mika A, Mika B, Primorac D, Santachiara-Benerecetti AS, Cavalli-Sforza LL, Underhill PA (2000). "The Genetic Legacy of Paleolithic *** sapiens sapiens in Extant Europeans: A Y Chromosome Perspective" (PDF). Science. 290 (5494): 1155–9. Bibcode:2000Sci...290.1155S. doi:10.1126/science.290.5494.1155. PMID 11073453. Archived from the original (PDF) on November 25, 2003.
  58. 97/445, O. Hassan et al. (2008), Y-Chromosome Variation Among Sudanese: Restricted Gene Flow, Concordance With Language, Geography, and History Archived 2009-03-04 at the Wayback Machine, American journal of physical anthropology
  59. U.-D. Immela, M. Erhumab, T. Mustafac, M. Kleibera and M. Klintschara, "Population genetic analysis in a Libyan population using the PowerPlex 16 system," International Congress Series Volume 1288, April 2006, Pages 421-423
  60. Elizabeth T Wood, Daryn A Stover, Christopher Ehret et al., "Contrasting patterns of Y chromosome and mtDNA variation in Africa: evidence for sex-biased demographic processes," European Journal of Human Genetics (2005) 13, 867–876. cf. "Appendix A: Y Chromosome Haplotype Frequencies."
  61. Zalloua et al. (2008), Identifying Genetic Traces of Historical Expansions: Phoenician Footprints in the Mediterranean, The American Journal of Human Genetics, Volume 83, Issue 5, 633-642 17 November 2008
  62. Trombetta, B.; d'Atanasio, E.; Massaia, A.; Ippoliti, M.; Coppa, A.; Candilio, F.; Coia, V.; Russo, G.; Dugoujon, J. M.; Moral, P.; Akar, N.; Sellitto, D.; Valesini, G.; Novelletto, A.; Scozzari, R.; Cruciani, F. (2015). "Phylogeographic Refinement and Large Scale Genotyping of Human y Chromosome Haplogroup e Provide New Insights into the Dispersal of Early Pastoralists in the African Continent". Genome Biology and Evolution. 7 (7): 1940–50. doi:10.1093/gbe/evv118. PMC 4524485. PMID 26108492.; Supplementary Data
  63. Pierre A. Zalloua et al., PY-Chromosomal Diversity in Lebanon Is Structured by Recent Historical Events (2008)
  64. Al-Zahery, N; Pala, M; Battaglia, V; Grugni, V; Hamod, MA; Hooshiar Kashani, B; Olivieri, A; Torroni, A; Santachiara-Benerecetti, AS; Semino, O (4 October 2011). "In search of the genetic footprints of Sumerians: a survey of Y-chromosome and mtDNA variation in the Marsh Arabs of Iraq". BMC Evolutionary Biology. 11: 288. doi:10.1186/1471-2148-11-288. PMC 3215667. PMID 21970613.
  65. Hassan, HY; Underhill, PA; Cavalli-Sforza, LL; Ibrahim, ME (November 2008). "Y-chromosome variation among Sudanese: restricted gene flow, concordance with language, geography, and history". American Journal of Physical Anthropology. 137 (3): 316–23. doi:10.1002/ajpa.20876. PMID 18618658.
  66. Hayes, JM; Budowle, B; Freund, M (September 1995). "Arab population data on the PCR-based loci: HLA-DQA1, LDLR, GYPA, HBGG, D7S8, Gc, and D1S80". Journal of Forensic Sciences. 40 (5): 888–92. doi:10.1520/JFS15404J. PMID 7595333.
  67. Ollier, W; Doyle, P; Alonso, A; Awad, J; Williams, E; Gill, D; Welch, S; Klouda, P; Bacchus, R; Festenstein, H (February 1985). "HLA polymorphisms in Saudi Arabs". Tissue Antigens. 25 (2): 87–95. doi:10.1111/j.1399-0039.1985.tb00420.x. PMID 3857723.
  68. Hunter-Zinck, H; Musharoff, S; Salit, J; Al-Ali, KA; Chouchane, L; Gohar, A; Matthews, R; Butler, MW; Fuller, J; Hackett, NR; Crystal, RG; Clark, AG (9 July 2010). "Population genetic structure of the people of Qatar". American Journal of Human Genetics. 87 (1): 17–25. doi:10.1016/j.ajhg.2010.05.018. PMC 2896773. PMID 20579625.
  69. Shaat, N; Ekelund, M; Lernmark, A; Ivarsson, S; Nilsson, A; Perfekt, R; Berntorp, K; Groop, L (May 2004). "Genotypic and phenotypic differences between Arabian and Scandinavian women with gestational diabetes mellitus". Diabetologia. 47 (5): 878–84. doi:10.1007/s00125-004-1388-5. PMID 15095040.
  70. Marc Haber; Dominique Gauguier; Sonia Youhanna; Nick Patterson; Priya Moorjani; Laura R. Botigué; Daniel E. Platt; Elizabeth Matisoo-Smith; David F. Soria-Hernanz; R. Spencer Wells; Jaume Bertranpetit; Chris Tyler-Smith; David Comas; Pierre A. Zalloua (14 October 2016). "Genome-Wide Diversity in the Levant Reveals Recent Structuring by Culture". PLOS Genetics. 9 (2): e1003316. doi:10.1371/journal.pgen.1003316. PMC 3585000. PMID 23468648.
  71. Brenna M. Henn; Laura R. Botigué; Simon Gravel; Wei Wang; Abra Brisbin; Jake K. Byrnes; Karima Fadhlaoui-Zid; Pierre A. Zalloua; Andres Moreno-Estrada; Jaume Bertranpetit; Carlos D. Bustamante; David Comas (January 12, 2012). "Genomic Ancestry of North Africans Supports Back-to-Africa Migrations". PLOS Genetics. 8 (1): e1002397. doi:10.1371/journal.pgen.1002397. PMC 3257290. PMID 22253600.
  72. Begoña Dobon; Hisham Y. Hassan; Hafid Laayouni; Pierre Luisi; Isis Ricaño-Ponce; Alexandra Zhernakova; Cisca Wijmenga; Hanan Tahir; David Comas; Mihai G. Netea; Jaume Bertranpetit (28 May 2015). "The genetics of East African populations: a Nilo-Saharan component in the African genetic landscape". Scientific Reports. 5: 9996. Bibcode:2015NatSR...5E9996D. doi:10.1038/srep09996. PMC 4446898. PMID 26017457. Retrieved 14 October 2016.
  73. Jason A. Hodgson; Connie J. Mulligan; Ali Al-Meeri; Ryan L. Raaum (June 12, 2014). "Early Back-to-Africa Migration into the Horn of Africa". PLOS Genetics. 10 (6): e1004393. doi:10.1371/journal.pgen.1004393. PMC 4055572. PMID 24921250.; "Supplementary Text S1: Affinities of the Ethio-Somali ancestry component". doi:10.1371/journal.pgen.1004393.s017. Cite journal requires |journal= (help)
  74. Kidd, Kenneth K.; Kidd, Judith R.; Rajeevan, Haseena; Soundararajan, Usha; Bulbul, Ozlem; Truelsen, Ditte Mikkelsen; Pereira, Vania; Almohammed, Eida Khalaf; Hadi, Sibte (2019-07-08). "Genetic relationships of European, Mediterranean, and SW Asian populations using a panel of 55 AISNPs". European Journal of Human Genetics. 27 (12): 1885–1893. doi:10.1038/s41431-019-0466-6. ISSN 1476-5438. PMC 6871633. PMID 31285530.
This article is issued from Wikipedia. The text is licensed under Creative Commons - Attribution - Sharealike. Additional terms may apply for the media files.