Analysis of the Mitochondrial Genome of a Novosvobodnaya Culture Representative using Next-Generation Sequencing and Its Relation to the Funnel Beaker Culture

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Abstract

The Novosvobodnaya culture is known as a Bronze Age archaeological culture in the North Caucasus region of Southern Russia. It dates back to the middle of the 4th millennium B.C. and seems to have occurred during the time of the Maikop culture. There are now two hypotheses about the emergence of the Novosvobodnaya culture. One hypothesis suggests that the Novosvobodnaya culture was a phase of the Maikop culture, whereas the other one classifies it as an independent event based on the material culture items found in graves. Comparison between Novosvobodnaya pottery and Funnelbeaker (TRB) pottery from Germany has allowed researchers to suggest that the Novosvobodnaya culture developed under the influence of Indo-European culture. Nevertheless, the origin of the Novosvobodnaya culture remains a matter of debate. We applied next-generation sequencing to study ~5000-year-old human remains from the Klady kurgan grave in Novosvobodnaya stanitsa (now the Republic of Adygea, Russia). A total of 58,771,105 reads were generated using Illumina GAIIx with a coverage depth of 13.4х over the mitochondrial (mt) DNA genome. The mtDNA haplogroup affiliation was determined as V7, suggesting a role of the TRB culture in the development of the Novosvobodnaya culture and supporting the model of sharing between Novosvobodnaya and early Indo-European cultures.

About the authors

A. V. Nedoluzhko

National Research Center “Kurchatov Institute”

Author for correspondence.
Email: nedoluzhko@gmail.com
Russian Federation

E. S. Boulygina

National Research Center “Kurchatov Institute”

Email: nedoluzhko@gmail.com
Russian Federation

A. S. Sokolov

National Research Center “Kurchatov Institute”

Email: nedoluzhko@gmail.com
Russian Federation

S. V. Tsygankova

National Research Center “Kurchatov Institute”

Email: nedoluzhko@gmail.com
Russian Federation

N. M. Gruzdeva

National Research Center “Kurchatov Institute”

Email: nedoluzhko@gmail.com
Russian Federation

A. D. Rezepkin

Institute for the History of Material Culture, Russian Academy of Sciences

Email: nedoluzhko@gmail.com
Russian Federation

E. B. Prokhortchouk

National Research Center “Kurchatov Institute”; Center of Bioengineering, Russian Academy of Sciences

Email: prokhortchouk@biengi.ac.ru
Russian Federation

References

  1. Yessen A.A. // M.: Soviet Archaeology // The chronology of “huge Kuban burial mounds” 1950, V.12
  2. Munchaev P.M. // The Caucasus in early Bronze Age. M.: Nauka 1975, P.416
  3. Munchaev P.M. // Maykop culture. Archaeology: Bronze Age of Caucasus and Central Asia. Early and middle Bronze Age of Caucasus. M.: Nauka 1994, P.158-225
  4. Rezepkin A.D. // Das frühbronzezeitliche Gräberfeld von Klady und die Majkop-Kultur in Nordwestkaukasien. Archäologie in Eurasien. M.: Leidorf 2000, V.10, P.74
  5. Rezepkin A.D. // Novosvobodnenskaya culture (on basis of “Klady” excavations). St.-Peterburg 2012, P.343
  6. Paabo S. // Nature 1985, V.314, №6012, P.644-645
  7. Haak W., Balanovsky O., Sanchez J., Koshel S., Zaporozhchenko V., Adler C., der Sarkissian C., Brandt G., Schwarz C., Nicklisch N. // PLoS Biol. 2010, V.8, №11, P.e1000536
  8. Green R.E., Krause J., Briggs A.W., Maricic T., Stenzel U., Kircher M. // Science. 2010, V.328, №5979, P.710-722
  9. Lorenzen E.D., Nogues-Bravo D., Orlando L., Weinstock J., Binladen J., Marske K.A., Ugan A., Borregaard M.K., Gilbert M.T., Nielsen R. // Nature 2011, V.479, №7373, P.359-364
  10. Rasmussen M., Guo X., Wang Y., Lohmueller K.E., Rasmussen S., Albrechtsen A., Skotte L., Lindgreen S., Metspalu M., Jombart T. // Science. 2011, V.334, №6025, P.94-98
  11. Ozawa T., Hayashi S., Mikhelson V.M. // J. Mol. Evol. 1997, V.44, №4, P.406-413
  12. Poinar H., Kuch M., McDonald G., Martin P., Paabo S. // Curr. Biol. 2013, V.13, №13, P.1150-1152
  13. Barnes I., Shapiro B., Lister A., Kuznetsova T., Sher A., Guthrie D., Thomas M.G. // Curr. Biol. 2007, V.17, №12, P.1072-1075
  14. Vilstrup J.T., Seguin-Orlando A., Stiller M., Ginolhac A., Raghavan M., Nielsen S.C., Weinstock J., Froese D., Vasiliev S.K., Ovodov N.D. // PLoS One. 2013. V. 8. № 2. e55950. 2013, V.8, №2, P.e55950
  15. Orlando L., Ginolhac A., Zhang G., Froese D., Albrechtsen A., Stiller M., Schubert M., Cappellini E., Petersen B., Moltke I. // Nature 2013, V.499, №7456, P.74-78
  16. Pakendorf B., Stoneking M. // Annu. Rev. Genomics Hum. Genet. 2005, V.6, P.165-183
  17. Allentoft M.E., Collins M., Harker D., Haile J., Oskam C.L., Hale M.L., Campos P.F., Samaniego J.A., Gilbert M.T., Willerslev E. // Proc. Biol. Sci. 2012, V.279, №1748, P.4724-4733
  18. Orlando L., Metcalf J.L., Alberdi M.T., Telles-Antunes M., Bonjean D., Otte M., Martin F., Eisenmann V., Mashkour M., Morello F. // Proc. Natl. Acad. Sci. USA. 2009, V.106, №51, P.21754-21759
  19. Langmead B., Salzberg S.L. // Nat. Methods. 2012, V.9, №4, P.357-359
  20. Jonsson H., Ginolhac A., Schubert M., Johnson P.L., Orlando L. // Bioinformatics.` 2013, V.29, №13, P.1682-1684
  21. Koboldt D.C., Larson D.E., Chen K., Ding L., Wilson R.K. // Genome Res 2012, V.22, №3, P.568-576
  22. Kloss-Brandstatter A., Pacher D., Schonherr S., Weissensteiner H., Binna R., Specht G., Kronenberg F. // Hum. Mutat 2011, V.32, №1, P.25-32
  23. Simpson J.T., Wong K., Jackman S.D., Schein J.E., Jones S.J., Birol I. // Genome Res 2009, V.19, №6, P.1117-1123
  24. Garcia-Garcera M., Gigli E., Sanchez-Quinto F., Ramirez O., Calafell F., Civit S., Lalueza-Fox C. // PLoS One. 2011, V.6, №8, P.e24161
  25. Hofreiter M., Jaenicke V., Serre D., Haeseler A., Paabo S. // Nucleic Acids Research 2001, V.29, №23, P.4793-4799
  26. Dabney J., Knapp M., Glocke I., Gansauge M.T., Weihmann A., Nickel B., Valdiosera C., Garcia N., Paabo S., Arsuaga J.L. // Proc. Natl. Acad. Sci. USA. 2013, V.110, №39, P.15758-15763
  27. Sykes B. // Philos. Trans. R. Soc. Lond. B Biol. Sci. 1999, V.354, №1397, P.131-139
  28. Haak W., Forster P., Bramanti B., Matsumura S., Brandt G., Tanzer M., Villems R., Renfrew C., Gronenborn D., Alt K.W. // Science. 2005, V.310, №5750, P.1016-1018
  29. Kittles R. A., Bergen A. W., Urbanek M., Virkkunen M., Linnoila M., Goldman D., Long J.C. // Am. J. Phys. Anthropol. 1999, V.108, №4, P.381-399
  30. Achilli A., Rengo C., Magri C., Battaglia V., Olivieri A., Scozzari R., Cruciani F., Zeviani M., Briem E., Carelli V. // Am. J. Hum. Genet. 2004, V.75, №5, P.910-918
  31. Malmstrom H., Gilbert M.T., Thomas M.G., Brandstrom M., Stora J., Molnar P., Andersen P.K., Bendixen C., Holmlund G., Gotherstrom A. // Curr. Biol 2009, V.19, №20, P.1758-1762
  32. Willerslev E., Gilbert M.T., Gotherstrom A., Jakobsson M. // Science. 2012, V.336, №6080, P.466-469

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Copyright (c) 2014 Nedoluzhko A.V., Boulygina E.S., Sokolov A.S., Tsygankova S.V., Gruzdeva N.M., Rezepkin A.D., Prokhortchouk E.B.

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