Add to ORKGMuseum specimens have a largely underutilized potential to allow biologists to study rare, ancient, or extinct organisms using genomic methods. However, museum samples often have degraded and fragmented DNA making it more difficult to sequence. Reduced representation sequencing has proven to be affordable and effective for population genomic applications but is sensitive to the degradation inherent with museum samples. Here, sequence quality and error rates were compared between reduced representation libraries constructed from century-old, ethanol-preserved museum and contemporary samples for two fishes (Atherinomorus duodecimalis and Siganus spinus), with a focus on the barcoded adapter and SbfI restriction site expected to occur at the b...
Type specimens have high scientific importance because they provide the only certain connection betw...
In recent years molecular techniques have invaded the marine realm. These techniques are mainly used...
Laboratory techniques for high-throughput sequencing have enhanced our ability to generate DNA seque...
The genomes of organisms stored in museums hold a wealth of information that is challenging to seque...
Natural history collections are repositories of biodiversity and are potentially used by molecular e...
Intentionally preserved biological material in natural history collections represents a vast reposit...
Millions of scientific specimens are housed in museum collections, a large part of which are fluid p...
The use of gDNA isolated from museum specimens for high throughput sequencing, especially targeted s...
Natural history collections play a crucial role in biodiversity research and museum specimens are in...
Degraded DNA from suboptimal field sampling is common in molecular ecology. However, its impact on t...
A growing number of publications presenting results from sequencing natural history collection speci...
Type specimens have high scientific importance because they provide the only certain connection betw...
Despite advances that allow DNA sequencing of old museum specimens, sequencing small-bodied, histori...
Background: Next-generation sequencing (NGS) can recover DNA data from valuable extant and extinct m...
Type specimens have high scientific importance because they provide the only certain connection betw...
In recent years molecular techniques have invaded the marine realm. These techniques are mainly used...
Laboratory techniques for high-throughput sequencing have enhanced our ability to generate DNA seque...
The genomes of organisms stored in museums hold a wealth of information that is challenging to seque...
Natural history collections are repositories of biodiversity and are potentially used by molecular e...
Intentionally preserved biological material in natural history collections represents a vast reposit...
Millions of scientific specimens are housed in museum collections, a large part of which are fluid p...
The use of gDNA isolated from museum specimens for high throughput sequencing, especially targeted s...
Natural history collections play a crucial role in biodiversity research and museum specimens are in...
Degraded DNA from suboptimal field sampling is common in molecular ecology. However, its impact on t...
A growing number of publications presenting results from sequencing natural history collection speci...
Type specimens have high scientific importance because they provide the only certain connection betw...
Despite advances that allow DNA sequencing of old museum specimens, sequencing small-bodied, histori...
Background: Next-generation sequencing (NGS) can recover DNA data from valuable extant and extinct m...
Type specimens have high scientific importance because they provide the only certain connection betw...
In recent years molecular techniques have invaded the marine realm. These techniques are mainly used...
Laboratory techniques for high-throughput sequencing have enhanced our ability to generate DNA seque...