Scholtissek, C. Naylor, E. (1988). «Fish farming and influenza pandemics». Nature. vol. 331 (6153): pág. 215. PMID2827036. doi:10.1038/331215a0.
Choi, B. y Pak, A. (2001). «Lessons for surveillance in the 21st century: a historical perspective from the past five millennia». Soz Praventivmed. vol. 46 (n.º 6): pp. 361-368. PMID11851070. doi:10.1007/BF01321662.
Webby, R. y Webster, R. (2001). «Emergence of influenza A viruses». Philos Trans R Soc Lond B Biol Sci. vol. 356 (n.º 1416): pp. 1817-1828. PMID11779380. doi:10.1098/rstb.2001.0997.
doi.org
Gad, Yehia Z; Hassan, Naglaa Abu-Mandil; Mousa, Dalia M; Fouad, Fayrouz A; El-Sayed, Safaa G; Abdelazeem, Marwa A; Mahdy, Samah M; Othman, Hend Y; Ibrahim, Dina W; Khairat, Rabab; Ismail, Somaia (2020-10-15). "Insights from ancient DNA analysis of Egyptian human mummies: clues to disease and kinship". Human Molecular Genetics. 30 (R1): R24–R28. doi: https://doi.org/10.1093%2Fhmg%2Fddaa2233. ISSN https://www.worldcat.org/issn/0964-6906. PMID https://pubmed.ncbi.nlm.nih.gov/33059357.
"An investigative study was carried out on the familial relationships of a number of late 18th dynasty mummies (ca. 1550–1295 b.c.), including that of Tutankhamen. The study was based on the analysis of the autosomal and Y-chromosome STR markers in addition to mitochondrial hypervariable region 1 sequences. A 4-generation pedigree of Tutankhamun’s immediate lineage and the identity of his ancestors were established. The Royal male lineage was the Y-chromosome haplogroup R1b that was passed from the grandparent (Amenhotep III) to the father (KV55, Akhenaten) to the grandchild (Tutankhamen). The maternal lineage, the mitochondrial haplogroup K, extended from the great-grandmother (Thuya) to the grandmother (KV35 Elder lady, Queen Tiye) to the yet historically unidentified mother (KV35 Younger lady) to Tutankhamen." (Insights from ancient DNA analysis of Egyptian human mummies: clues to disease and kinship. Yehia Z Gad, Naglaa Abu-Mandil Hassan, Dalia M Mousa, Fayrouz A Fouad, Safaa G El-Sayed, Marwa A Abdelazeem, Samah M Mahdy, Hend Y Othman, Dina W Ibrahim, Rabab Khairat. Human Molecular Genetics, Volume 30, Issue R1, 1 March 2021, Pages R24–R28, https://doi.org/10.1093/hmg/ddaa223. Published: 15 October 2020. https://academic.oup.com/hmg/article/30/R1/R24/5924364)
Incluso, en una teoría rechazada en la actualidad, se llegó a creer que a la muerte de su marido se convirtió en Reina-Faraón durante un corto período, con el nombre de Semenejkara; cf. Allen, James P. (1994). «The Amarna succession»(en inglés). Consultado el 28 de febrero de 2009.
Scholtissek, C. Naylor, E. (1988). «Fish farming and influenza pandemics». Nature. vol. 331 (6153): pág. 215. PMID2827036. doi:10.1038/331215a0.
Choi, B. y Pak, A. (2001). «Lessons for surveillance in the 21st century: a historical perspective from the past five millennia». Soz Praventivmed. vol. 46 (n.º 6): pp. 361-368. PMID11851070. doi:10.1007/BF01321662.
Webby, R. y Webster, R. (2001). «Emergence of influenza A viruses». Philos Trans R Soc Lond B Biol Sci. vol. 356 (n.º 1416): pp. 1817-1828. PMID11779380. doi:10.1098/rstb.2001.0997.
Shortridge, K. (1992). «Pandemic influenza: a zoonosis?». Semin Respir Infect. vol 7 (n.º 1): pp. 11-25. PMID1609163.
pubmed.ncbi.nlm.nih.gov
Ancestry and pathology in King Tutankhamun's family'. Zahi Hawass, Yehia Z Gad, Somaia Ismail, Rabab Khairat, Dina Fathalla, Naglaa Hasan, Amal Ahmed, Hisham Elleithy, Markus Ball, Fawzi Gaballah, Sally Wasef, Mohamed Fateen, Hany Amer, Paul Gostner, Ashraf Selim, Albert Zink, Carsten M Pusch. PMID: 20159872. DOI: 10.1001/jama.2010.121 https://pubmed.ncbi.nlm.nih.gov/20159872/
Gad, Yehia Z; Hassan, Naglaa Abu-Mandil; Mousa, Dalia M; Fouad, Fayrouz A; El-Sayed, Safaa G; Abdelazeem, Marwa A; Mahdy, Samah M; Othman, Hend Y; Ibrahim, Dina W; Khairat, Rabab; Ismail, Somaia (2020-10-15). "Insights from ancient DNA analysis of Egyptian human mummies: clues to disease and kinship". Human Molecular Genetics. 30 (R1): R24–R28. doi: https://doi.org/10.1093%2Fhmg%2Fddaa2233. ISSN https://www.worldcat.org/issn/0964-6906. PMID https://pubmed.ncbi.nlm.nih.gov/33059357.
"An investigative study was carried out on the familial relationships of a number of late 18th dynasty mummies (ca. 1550–1295 b.c.), including that of Tutankhamen. The study was based on the analysis of the autosomal and Y-chromosome STR markers in addition to mitochondrial hypervariable region 1 sequences. A 4-generation pedigree of Tutankhamun’s immediate lineage and the identity of his ancestors were established. The Royal male lineage was the Y-chromosome haplogroup R1b that was passed from the grandparent (Amenhotep III) to the father (KV55, Akhenaten) to the grandchild (Tutankhamen). The maternal lineage, the mitochondrial haplogroup K, extended from the great-grandmother (Thuya) to the grandmother (KV35 Elder lady, Queen Tiye) to the yet historically unidentified mother (KV35 Younger lady) to Tutankhamen." (Insights from ancient DNA analysis of Egyptian human mummies: clues to disease and kinship. Yehia Z Gad, Naglaa Abu-Mandil Hassan, Dalia M Mousa, Fayrouz A Fouad, Safaa G El-Sayed, Marwa A Abdelazeem, Samah M Mahdy, Hend Y Othman, Dina W Ibrahim, Rabab Khairat. Human Molecular Genetics, Volume 30, Issue R1, 1 March 2021, Pages R24–R28, https://doi.org/10.1093/hmg/ddaa223. Published: 15 October 2020. https://academic.oup.com/hmg/article/30/R1/R24/5924364)
Gad, Yehia Z; Hassan, Naglaa Abu-Mandil; Mousa, Dalia M; Fouad, Fayrouz A; El-Sayed, Safaa G; Abdelazeem, Marwa A; Mahdy, Samah M; Othman, Hend Y; Ibrahim, Dina W; Khairat, Rabab; Ismail, Somaia (2020-10-15). "Insights from ancient DNA analysis of Egyptian human mummies: clues to disease and kinship". Human Molecular Genetics. 30 (R1): R24–R28. doi: https://doi.org/10.1093%2Fhmg%2Fddaa2233. ISSN https://www.worldcat.org/issn/0964-6906. PMID https://pubmed.ncbi.nlm.nih.gov/33059357.
