E
Erika Hagelberg
Researcher at University of Oslo
Publications - 44
Citations - 3762
Erika Hagelberg is an academic researcher from University of Oslo. The author has contributed to research in topics: Population & Mitochondrial DNA. The author has an hindex of 26, co-authored 42 publications receiving 3577 citations. Previous affiliations of Erika Hagelberg include University of Otago & John Radcliffe Hospital.
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Journal ArticleDOI
Identification of the remains of the Romanov family by DNA analysis
Peter Gill,Pavel L. Ivanov,C. P. Kimpton,Romelle Piercy,Nicola Benson,Gillian Tully,Ian W. Evett,Erika Hagelberg,Kevin Sullivan +8 more
TL;DR: The DNA evidence supports the hypothesis that the remains of the last Tsar, Tsarina, three of their five children, the Royal Physician and three servants are those of the Romanov family.
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Ancient bone DNA amplified
TL;DR: Reports the successful extraction and amplification of DNA from human bones between 300 and 5500 years of age and describes experimental technique and results on a range of bone samples.
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Identification of the skeletal remains of a murder victim by DNA analysis
TL;DR: This analysis establishes the authenticity of the bone DNA and the feasibility of bone DNA typing in forensic investigations, and reports the successful identification of the 8-year-old skeletal remains of a murder victim by comparative typing of nuclear microsatellite markers3.
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Commitment of bacterial spores to germinate. A measure of the trigger reaction.
TL;DR: It is suggested that because the decrease in A600 of spore suspensions is a late event in germination, it is an unsuitable parameter for studying germination-triggering reactions and shown to be temperature-dependent.
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Isolation and characterization of DNA from archaeological bone
Erika Hagelberg,John B. Clegg +1 more
TL;DR: DNA was extracted from human and animal bones recovered from archaeological sites and mitochondrial DNA sequences were amplified from the extracts using the polymerase chain reaction to show that significant amounts of genetic information can survive for long periods in bone.