Hendrik Poinar

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Hendrik Nicholas Poinar (born May 31, 1969 in D.C, United States) [1] is an evolutionary biologist specializing in ancient DNA. [2] [3] Poinar first became known for extracting DNA sequences from ground sloth coprolites. [4] He is currently director of the Ancient DNA Centre at McMaster University in Hamilton, Ontario. [5]

Contents

Education and academic career

The son of noted entomologist George Poinar Jr. and Eva Hecht-Poinar, Poinar received his B.S. and M.S. degrees from California Polytechnic University, San Luis Obispo in 1992 and 1999 respectively before earning a Ph.D. in 1999 from the Ludwig Maximilian University of Munich, after which he was a postdoctoral researcher from 2000 to 2003 at the Max Planck Institute for Evolutionary Anthropology in Leipzig, Germany. [1] In 2003 he was hired as an assistant professor in the anthropology department at McMaster University in Canada. [1] [5]

In a joint 2000 paper in Science , Poinar and Dr. Alan Cooper argued that much existing work in human ancient DNA has not been sufficiently rigorous to prevent DNA contamination from modern human sources, and that many reported results for ancient human DNA may therefore be suspect. [6]

In 2003, Poinar and others from the Max Planck Institute published genetic sequences isolated from coprolites of the extinct Shasta giant ground sloth, [4] with an estimated age of 10500 years using radiocarbon dates. These were the first genetic sequences retrieved from any extinct ground sloth. [7]

In September 2008, Poinar's laboratory published results showing that after a long period of separation in the mammoth populations of Siberia and North America, the Siberian mammoth population had been completely replaced by mammoths of North American origin. [8] [9] [10]

In 2014, Poinar and colleagues published the first genomic data from victims of the Plague of Justinian in Bavaria, demonstrating that this plague was caused by a strain of Yersinia pestis now extinct. [11] [12]

Related Research Articles

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The Black Death was a bubonic plague pandemic occurring in Western Eurasia and North Africa from 1346 to 1353. It is the most fatal pandemic recorded in human history, causing the deaths of 75–200 million people, peaking in Europe from 1347 to 1351. Bubonic plague is caused by the bacterium Yersinia pestis spread by fleas, but it can also take a secondary form where it is spread by person-to-person contact via aerosols causing septicaemic or pneumonic plagues.

<span class="mw-page-title-main">Mammoth</span> Extinct genus of mammals

A mammoth is any species of the extinct elephantid genus Mammuthus, one of the many genera that make up the order of trunked mammals called proboscideans. The various species of mammoth were commonly equipped with long, curved tusks and, in northern species, a covering of long hair. They lived from the Pliocene epoch into the Holocene at about 4,000 years ago, and various species existed in Africa, Europe, Asia, and North America. They were members of the family Elephantidae, which also contains the two genera of modern elephants and their ancestors. Mammoths are more closely related to living Asian elephants than African elephants.

<i>Yersinia pestis</i> Species of bacteria, cause of plague

Yersinia pestis is a gram-negative, non-motile, coccobacillus bacterium without spores that is related to both Yersinia pseudotuberculosis and Yersinia enterocolitica. It is a facultative anaerobic organism that can infect humans via the Oriental rat flea. It causes the disease plague, which caused the first plague pandemic and the Black Death, the deadliest pandemic in recorded history. Plague takes three main forms: pneumonic, septicemic, and bubonic. Yersinia pestis is a parasite of its host, the rat flea, which is also a parasite of rats, hence Y. pestis is a hyperparasite.

<span class="mw-page-title-main">Plague of Justinian</span> 541–549 AD pandemic in the Byzantine Empire, later northern Europe

The plague of Justinian or Justinianic plague was the first recorded major outbreak of the first plague pandemic, the first Old World pandemic of plague, the contagious disease caused by the bacterium Yersinia pestis. The disease afflicted the entire Mediterranean Basin, Europe, and the Near East, severely affecting the Sasanian Empire and the Byzantine Empire and especially the latter's capital, Constantinople. The plague is named for the Byzantine Emperor Justinian I who according to his court historian Procopius contracted the disease and recovered in 542, at the height of the epidemic which killed about a fifth of the population in the imperial capital. The contagion arrived in Roman Egypt in 541, spread around the Mediterranean Sea until 544, and persisted in Northern Europe and the Arabian Peninsula, until 549.

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Mylodontidae is a family of extinct South American and North American ground sloths within the suborder Folivora of order Pilosa, living from around 23 million years ago (Mya) to 11,000 years ago. This family is most closely related to another family of extinct ground sloths, Scelidotheriidae, as well as to the extant arboreal two-toed sloths, family Choloepodidae; together these make up the superfamily Mylodontoidea. Phylogenetic analyses based on morphology uncovered the relationship between Mylodontidae and Scelidotheriidae; in fact, the latter was for a time considered a subfamily of mylodontids. However, molecular sequence comparisons were needed for the correct placement of Choloepodidae. These studies have been carried out using mitochondrial DNA sequences as well as with collagen amino acid sequences. The latter results indicate that Choloepodidae is closer to Mylodontidae than Scelidotheriidae is. The only other living sloth family, Bradypodidae, belongs to a different sloth radiation, Megatherioidea.

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<span class="mw-page-title-main">Megalonychidae</span> Extinct family of sloths

Megalonychidae is an extinct family of sloths including the extinct Megalonyx. Megalonychids first appeared in the early Oligocene, about 35 million years (Ma) ago, in southern Argentina (Patagonia). There is actually one possible find dating to the Eocene, about 40 Ma ago, on Seymour Island in Antarctica. They first reached North America by island-hopping across the Central American Seaway, about 9 million years ago, prior to formation of the Isthmus of Panama about 2.7 million years ago. Some megalonychid lineages increased in size as time passed. The first species of these were small and may have been partly tree-dwelling, whereas the Pliocene species were already approximately half the size of the huge Late Pleistocene Megalonyx jeffersonii from the last ice age.

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<span class="mw-page-title-main">Woolly mammoth</span> Extinct species of mammoth from the Quaternary period

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<span class="mw-page-title-main">Paleofeces</span> Ancient human feces found in archaeological surveys

Paleofeces are ancient human feces, often found as part of archaeological excavations or surveys. The term coprolite is often used interchangeably, although coprolite can also refer to fossilized animal feces. Intact feces of ancient people may be found in caves in arid climates and in other locations with suitable preservation conditions. They are studied to determine the diet and health of the people who produced them through the analysis of seeds, small bones, and parasite eggs found inside. The feces can contain information about the person excreting the material as well as information about the material itself. They can also be chemically analyzed for more in-depth information on the individual who excreted them, using lipid analysis and ancient DNA analysis. The success rate of usable DNA extraction is relatively high in paleofeces, making it more reliable than skeletal DNA retrieval.

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<span class="mw-page-title-main">Johannes Krause</span>

Johannes Krause is a German biochemist with a research focus on historical infectious diseases and human evolution. Since 2010, he has been professor of archaeology and paleogenetics at the University of Tübingen. In 2014, Krause was named a founding co-director of the new Max Planck Institute for the Science of Human History in Jena.

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Kirsten Bos is a Canadian physical anthropologist. She is Group Leader of Molecular Palaeopathology at Max Planck Institute for the Science of Human History. Her research focuses on ancient DNA and infectious diseases.

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References

  1. 1 2 3 "Curriculum Vitae of Hendrik Nicholas Poinar" (PDF). Archived from the original (PDF) on 2007-07-20. Retrieved 2007-08-29.
  2. Pickrell, John (March 25, 2004). "Prehistoric DNA to Help Solve Human-Evolution Mysteries?". National Geographic News. Retrieved 2007-08-29.
  3. "Hunt for ancient human molecules". BBC News. 16 February 2004. Retrieved 2007-08-29.
  4. 1 2 Poinar H, Kuch M, McDonald G, Martin P, Pääbo S (2000). Nuclear gene sequences from a Late Pleistocene sloth coprolite. Current Biology . 13: 1150–1152, doi : 10.1016/S0960-9822(03)00450-0 [ permanent dead link ]
  5. 1 2 "Profile from the McMaster Department of Anthropology". Archived from the original on 2007-08-09. Retrieved 2007-08-29.
  6. Cooper A and Poinar H. (2000). Ancient DNA: Do It Right or Not at All. Science. 289(5482): p. 1139, doi : 10.1126/science.289.5482.1139b
  7. Berkowitz, Jacob (June 19, 2004). "The poop on ancient man". The Globe and Mail . Retrieved 2007-08-28.
  8. McIlroy, Anne (December 20, 2005). "Will woolly mammoths live again? Ancient DNA found in frozen mammoth". The Globe and Mail . Archived from the original on December 25, 2005. Retrieved 2007-08-29.
  9. Fountain, Henry (September 4, 2008). "Dual Citizenship for Woolly Mammoth". New York Times. Retrieved 2008-09-09.
  10. Debruyne, Régis; G. Chu; C. E. King; K. Bos; M. Kuch; C. Schwarz; P. Szpak; D. R. Gröcke; P. Matheus; G. Zazula; D. Guthrie; D. Froese; B. Buigues; C. de Marliave; C. Flemming; D. Poinar; D. Fisher; J. Southon; A. N. Tikhonov; R.D.E. MacPhee; H. N. Poinar (September 2008). "Out of America: Ancient DNA Evidence for a New World Origin of Late Quaternary Woolly Mammoths". Current Biology. 18 (17): 1320–1326. doi: 10.1016/j.cub.2008.07.061 . PMID   18771918. S2CID   18663366.
  11. Hogenboom, Melissa. "Could bubonic plague strike again?". BBC.
  12. Wagner, David M.; J. Klunk; M. Harbeck; A. Devault; N. Waglechner; J. W. Sahl; J. Enk; D. N. Birdsell; M. Kuch; C. Lumibao; D. Poinar; T. Pearson; M. Fourment; B. Golding; J. M. Riehm; D. J. D. Earn; S. DeWitte; J.-M. Rouillard; G. Grupe; I. Wiechmann; J. B. Bliska; P. S. Keim; H. C. Scholz; E. C. Holmes; H. Poinar (28 January 2014). "Yersinia pestis and the Plague of Justinian 541—543 AD: a genomic analysis". The Lancet Infectious Diseases. 14 (4): 319–26. doi:10.1016/S1473-3099(13)70323-2. PMID   24480148.