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Author Topic: Ancient Egyptian and other DNA article list
the lioness,
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[1] Paabo S. Molecular cloning of Ancient Egyptian mummy DNA. Nature. 1985;314:644-5.
[2] Paabo S. Molecular genetic investigations of ancient human remains. Cold Spring Harb Symp Quant Biol. 1986;51 Pt 1:441-6.
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[16] Crubezy E, Ludes B, Poveda JD, Clayton J, Crouau-Roy B, Montagnon D. Identification of Mycobacterium DNA in an Egyptian Pott's disease of 5,400 years old. Cr Acad Sci Iii-Vie. 1998;321:941-51.
[17] Klintschar M, al-Hammadi N, Lux T, Reichenpfader B. Genetic variation at the short tandem repeat loci HumvWA, HumFXIIIB, and HumFES/FPS in the Egyptian and Yemenian populations. J Forensic Sci. 1998;43:850-3.
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[19] Krings M, Salem AE, Bauer K, Geisert H, Malek AK, Chaix L, et al. mtDNA analysis of Nile River Valley populations: A genetic corridor or a barrier to migration? Am J Hum Genet. 1999;64:1166-76.
[20] Marin A, Cerutti N, Massa ER. Use of the amplification refractory mutation system (ARMS) in the study of HbS in predynastic Egyptian remains. Boll Soc Ital Biol Sper. 1999;75:27-30.
[21] Clisson I, Crubezy E, Midant-Reynes B, Ludes B. Megaplex analysis of brain remains from the necropolis of Adaima (Egypt, 3700-2800 BC). Progress in Forensic Genetics 8. 2000:555-7
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[22] Zink A, Reischl U, Wolf H, Nerlich AG. Molecular evidence of bacteremia by gastrointestinal pathogenic bacteria in an infant mummy from ancient Egypt. Arch Pathol Lab Med. 2000;124:1614-8.
[23] Graver AM, Molto Je, Parr RL, Walters S, Praymak RC. Mitochondrial DNA Research in the Dakhleh Oasis, Egypt: A Preliminary Report. Ancient Biomolecules. 2001;3:239-53.
[24] Zink A, Haas CJ, Reischl U, Szeimies U, Nerlich AG. Molecular analysis of skeletal tuberculosis in an ancient Egyptian population. J Med Microbiol. 2001;50:355-66.
[25] Zink A, Reischl U, Wolf H, Nerlich AG, Miller R. Corynebacterium in ancient Egypt. Med Hist. 2001;45:267-72.
[26] Marota I, Basile C, Ubaldi M, Rollo F. DNA decay rate in papyri and human remains from Egyptian archaeological sites. Am J Phys Anthropol. 2002;117:310-8.
[27] Marota I, Rollo F. Molecular paleontology. Cell Mol Life Sci. 2002;59:97-111.
[28] Mazar A, Vernon K, Matheson C, Spiegelman M. Ancient Sex Change and the Prince of Egypt. In: Brown T, editor. 6th International Conference of Ancient DNA and Associated Biomolecules. Tel Aviv, Israel: Ancient Biomolecules; 2002. p. 147.
[29] Rabino ME, Ceruti N, Marin A. Application of ARMS in Screening for Sicklemia in Ancient Egyptian Mummies. In: Brown T, editor. 6th International Conference of Ancient DNA and Associated Biomolecules. Tel Aviv, Israel: Ancient Biomolecules; 2002. p. 151-2.
[30] Spiegelman M, Matheson C, Sowada K. An Interlooper revealed: DNA Analysis and the Identification of an Egyptian Mummy. In: Brown T, editor. 6th International Conference of Ancient DNA and Associated Biomolecules. Tel Aviv, Israel: Ancient Biomolecules; 2002. p. 156-7.
[31] Zink A, Sola C, Reischl U, Nerlich AG. Molecular characterization of Mycobacterium complex Findings an Ancient Egyptian Mummies. In: Brown T, editor. 6th International Conference of Ancient DNA and Associated Biomolecules. Tel Aviv, Israel: Ancient Biomolecules; 2002. p. 166.
[32] Cavalieri D, McGovern PE, Hartl DL, Mortimer R, Polsinelli M. Evidence for S. cerevisiae fermentation in ancient wine. J Mol Evol. 2003;57 Suppl 1:S226-32.
[33] Zink A, Nerlich AG. Molecular analyses of the "Pharaos:" Feasibility of molecular studies in ancient Egyptian material. Am J Phys Anthropol. 2003;121:109-11.
[34] Zink AR, Grabner W, Reischl U, Wolf H, Nerlich AG. Molecular study on human tuberculosis in three geographically distinct and time delineated populations from ancient Egypt. Epidemiol Infect. 2003;130:239-49.
[35] Zink AR, Sola C, Reischl U, Grabner W, Rastogi N, Wolf H, et al. Characterization of Mycobacterium tuberculosis complex DNAs from Egyptian mummies by spoligotyping. J Clin Microbiol. 2003;41:359-67.
[36] Paabo S, Poinar H, Serre D, Jaenicke-Despres V, Hebler J, Rohland N, et al. Genetic analyses from ancient DNA. Annu Rev Genet. 2004;38:645-79.
[37] Gilbert MT, Barnes I, Collins MJ, Smith C, Eklund J, Goudsmit J, et al. Long-term survival of ancient DNA in Egypt: response to Zink and Nerlich (2003). Am J Phys Anthropol. 2005;128:110-4; discussion 5-8.
[38] Mitchell D, Willerslev E, Hansen A. Damage and repair of ancient DNA. Mutat Res. 2005;571:265-76.
[39] Zink AR, Grabner W, Nerlich AG. Molecular identification of human tuberculosis in recent and historic bone tissue samples: The role of molecular techniques for the study of historic tuberculosis. Am J Phys Anthropol. 2005;126:32-47.
[40] Zink AR, Nerlich AG. Long-term survival of ancient DNA in Egypt: Reply to Gilbert et al. Am J Phys Anthropol. 2005;128:115-8.
[41] Perez-Miranda AM, Alfonso-Sanchez MA, Pena JA, Herrera RJ. Qatari DNA variation at a crossroad of human migrations. Hum Hered. 2006;61:67-79.
[42] Zink AR, Spigelman M, Schraut B, Greenblatt CL, Nerlich AG, Donoghue HD. Leishmaniasis in ancient Egypt and Upper nubia. Emerg Infect Dis. 2006;12:1616-7.
[43] Li Y, Carroll DS, Gardner SN, Walsh MC, Vitalis EA, Damon IK. On the origin of smallpox: correlating variola phylogenics with historical smallpox records. Proc Natl Acad Sci U S A. 2007;104:15787-92.
[44] Omran GA, Rutty GN, Jobling MA. Genetic variation of 15 autosomal STR loci in Upper (Southern) Egyptians. Forensic Sci Int Genet. 2009;3:e39-44.
[45] Saunier JL, Irwin JA, Strouss KM, Ragab H, Sturk KA, Parsons TJ. Mitochondrial control region sequences from an Egyptian population sample. Forensic Sci Int Genet. 2009;3:e97-103.
[46] Shotivaranon J, Chirachariyavej T, Leetrakool N, Rerkamnuaychoke B. DNA database of populations from different parts in the Kingdom of Thailand. Forensic Sci Int Genet. 2009;4:e37-8.
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[48] Woide D, Zink A, Thalhammer S. Technical note: PCR analysis of minimum target amount of ancient DNA. Am J Phys Anthropol. 2010;142:321-7.
[49] Boattini A, Castri L, Sarno S, Useli A, Cioffi M, Sazzini M, et al. mtDNA variation in East Africa unravels the history of Afro-Asiatic groups. Am J Phys Anthropol. 2013;150:375-85.
[50] Brandt G. Did Tutankhamun suffer from hypophosphatasia?--A hypothetical approach. Anthropol Anz. 2013;70:249-60.
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[52] Khairat R, Ball M, Chang CC, Bianucci R, Nerlich AG, Trautmann M, et al. First insights into the metagenome of Egyptian mummies using next-generation sequencing. J Appl Genet. 2013;54:309-25.
[53] Lalremruata A, Ball M, Bianucci R, Welte B, Nerlich AG, Kun JF, et al. Molecular identification of falciparum malaria and human tuberculosis co-infections in mummies from the Fayum depression (Lower Egypt). PLoS One. 2013;8:e60307.
[54] Curic G, Hercog R, Vrselja Z, Wagner J. Identification of person and quantification of human DNA recovered from mosquitoes (Culicidae). Forensic Sci Int-Gen. 2014;8:109-12.
[55] Elakkary S, Hoffmeister-Ullerich S, Schulze C, Seif E, Sheta A, Hering S, et al. Genetic polymorphisms of twelve X-STRs of the investigator Argus X-12 kit and additional six X-STR centromere region loci in an Egyptian population sample. Forensic Sci Int Genet. 2014;11:26-30.
[56] Terali K, Zorlu T, Bulbul O, Gurkan C. Population genetics of 17 Y-STR markers in Turkish Cypriots from Cyprus. Forensic Sci Int Genet. 2014;10:e1-3.
[57] Allaby RG, Gutaker R, Clarke AC, Pearson N, Ware R, Palmer SA, et al. Using archaeogenomic and computational approaches to unravel the history of local adaptation in crops. Philos Trans R Soc Lond B Biol Sci. 2015;370.

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Ish Geber
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From where did you retrieve this list?


Nature 314, 644 - 645 (18 April 1985); doi:10.1038/314644a0


Molecular cloning of Ancient Egyptian mummy DNA


SVANTE PÄÄBO

Department of Cell Research, The Wallenberg Laboratory, University of Uppsala, Box 562, S-75122 Uppsala, Sweden and Institute of Egyptology, Gustavianum, University of Uppsala, S-75120 Uppsala, Sweden

quote:
Artificial mummification was practised in Egypt from ~ 2600 BC until the fourth century AD. Because of the dry Egyptian climate, however, there are also many natural mummies preserved from earlier as well as later times. To elucidate whether this unique source of ancient human remains can be used for molecular genetic analyses, 23 mummies were investigated for DNA content. One 2,400-yr-old mummy of a child was found to contain DNA that could be molecularly cloned in a plasmid vector. I report here that one such clone contains two members of the Alu family of human repetitive DNA sequences, as detected by DNA hybridizations and nucleotide sequencing. These analyses show that substantial pieces of mummy DNA (3.4 kilobases) can be cloned and that the DNA fragments seem to contain little or no modifications introduced postmortem.

That's some amazing **** he did back then. According to present day science it's not possible to extract DNA from ancient mummies, unless it's from a grind in the bone or tooth. Back then it was not possible to use those methods, as far as I know. Because of limited technology.
Posts: 22234 | From: האם אינכם כילדי הכרית אלי בני ישראל | Registered: Nov 2010  |  IP: Logged | Report this post to a Moderator
Ish Geber
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http://youtu.be/Pjf0qKdzmrc


quote:

Genetic genealogy is more within reach of the average person than ever, thanks to advances in sequencing technology that have helped the cost of genome sequencing dramatically plummet from nearly $3 billion in 2000 to near $1,000 nowadays. That sort of price reduction is mind-boggling, Ball said. “It’s as if, 15 years from now, I could get my own Mars rover.”

We can you imagine what the coast was prior to 2000? Mind-boggling.

http://www.worldsciencefestival.com/2014/05/tracing-family-trees-human-history-genetics/?icn=RA&pos=2


3 billion * 23 [Eek!]

Posts: 22234 | From: האם אינכם כילדי הכרית אלי בני ישראל | Registered: Nov 2010  |  IP: Logged | Report this post to a Moderator
xyyman
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bump

--------------------
Without data you are just another person with an opinion - Deming

Posts: 12143 | From: When you have eliminated the impossible, whatever remains, however improbable | Registered: Jun 2007  |  IP: Logged | Report this post to a Moderator
   

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