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A small piece of Jurassic Park: DNA extracted from insects embedded in resin


For the first time, Senckenberg scientist Mónica Solórzano-Kraemer, together with lead authors David Peris and Kathrin Janssen of the University of Bonn and additional colleagues from Spain and Norway, successfully extracted genetic material from insects that were embedded in six- and two-year-old resin samples. DNA—in particular, DNA from extinct animals—is an important tool in the identification of species. In the future, the researchers plan to use their new methods on older resin inclusions, as well. 


A small piece of Jurassic Park: DNA extracted from insects embedded in resin
Senckenberg researcher Monica Solorzano-Kraemer with one
of the examined resin samples [Credit: Xavier Delclos]

The idea of extracting DNA from resin-embedded organisms inevitably invokes memories of the blockbuster "Jurassic Park."


"However, we have no intention of raising dinosaurs," says Dr. Mónica Solórzano-Kraemer of the Senckenberg Research Institute and Natural History Museum. "Rather, our current study is a structured attempt to determine how long the DNA of insects enclosed in resinous materials can be preserved."




To this end, lead author Dr. David Peris of the University of Bonn, the amber researcher from Frankfurt, and researchers from the Universities of Barcelona and Bergen and the Geominero Museum (IGME) in Valencia examined the genetic material of so-called ambrosia beetles that were trapped in the resin of amber trees (Hymenaea) in Madagascar. 


"Our study fundamentally aimed to clarify whether the DNA of insects embedded in resin continues to be preserved. Using the polymerase chain reaction (PCR) method, we were able to document that this is, indeed, the case in the six- and two-year-old resin samples we examined," explains Solórzano-Kraemer.


A small piece of Jurassic Park: DNA extracted from insects embedded in resin
Resin with embedded ambrosia beetles [Credit: David Peris]

To date, similar tests of inclusions in several-million-year-old amber and several-thousand-year-old copals had failed, since more recent environmental impacts had caused significant changes to the DNA of the embedded insects or even destroyed it. Therefore, resin-embedded samples were deemed unsuitable for genetic examinations.


Solórzano-Kraemer adds, "We are now able to show for the first time that, although it is very fragile, the DNA was still preserved in our samples. This leads to the conclusion that it is possible to study the genomics of organisms embedded in resin."




It is still not clear just how long the DNA can survive inside the resin. To address this question, the researchers plan to apply the method in a stepwise fashion from the most recent to the oldest samples to determine the "shelf life" of the resin-embedded DNA.


"Our experiments show that water in the inclusions is preserved much longer than previously assumed. This could also affect the genetic material's stability. The extraction of functional DNA from several-million-year-old amber is therefore rather unlikely," says Solórzano-Kraemer.


The study was published in the scientific journal PLOS ONE.


Source: Senckenberg Research Institute and Natural History Museum [September 29, 2020]



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