Your search keyword '"M. T. P. Gilbert"' showing total 6 results

1. Ancient RNA from Late Pleistocene permafrost and historical canids shows tissue-specific transcriptome survival

Author

Glenn Dunshea, Mikkel-Holger S. Sinding, Hervé Bocherens, M. T. P. Gilbert, Mietje Germonpré, Sergey Fedorov, and Oliver Smith

Subjects

0301 basic medicine, Molecular biology, Permafrost, Gene Expression, Shotgun, Biochemistry, Genome, Transcriptome, Sequencing techniques, 0302 clinical medicine, Short Reports, Medicine and Health Sciences, Biology (General), Skin, 0303 health sciences, Fossils, General Neuroscience, Database and informatics methods, Sequence analysis, High-Throughput Nucleotide Sequencing, RNA sequencing, Genomics, Nucleic acids, Liver, Ribosomal RNA, Organ Specificity, Connective Tissue, Identification (biology), Anatomy, General Agricultural and Biological Sciences, Transcriptome Analysis, Cell biology, Cellular structures and organelles, Bioinformatics, QH301-705.5, Cartilage metabolism, Biology, General Biochemistry, Genetics and Molecular Biology, DNA sequencing, 03 medical and health sciences, Species Specificity, Genetics, Animals, Non-coding RNA, Canidae, 030304 developmental biology, Wolves, General Immunology and Microbiology, Biology and life sciences, RNA sequence analysis, Sequence Analysis, RNA, Computational Biology, Paleontology, RNA, Genome Analysis, Research and analysis methods, 030104 developmental biology, Cartilage, Molecular biology techniques, Biological Tissue, Ancient DNA, Metagenomics, Evolutionary biology, Earth Sciences, Adaptation, Paleogenetics, Ribosomes, 030217 neurology & neurosurgery

Abstract

While sequencing ancient DNA (aDNA) from archaeological material is now commonplace, very few attempts to sequence ancient transcriptomes have been made, even from typically stable deposition environments such as permafrost. This is presumably due to assumptions that RNA completely degrades relatively quickly, particularly when dealing with autolytic, nuclease-rich mammalian tissues. However, given the recent successes in sequencing ancient RNA (aRNA) from various sources including plants and animals, we suspect that these assumptions may be incorrect or exaggerated. To challenge the underlying dogma, we generated shotgun RNA data from sources that might normally be dismissed for such study. Here, we present aRNA data generated from two historical wolf skins, and permafrost-preserved liver tissue of a 14,300-year-old Pleistocene canid. Not only is the latter the oldest RNA ever to be sequenced, but it also shows evidence of biologically relevant tissue specificity and close similarity to equivalent data derived from modern-day control tissue. Other hallmarks of RNA sequencing (RNA-seq) data such as exon-exon junction presence and high endogenous ribosomal RNA (rRNA) content confirms our data’s authenticity. By performing independent technical library replicates using two high-throughput sequencing platforms, we show not only that aRNA can survive for extended periods in mammalian tissues but also that it has potential for tissue identification. aRNA also has possible further potential, such as identifying in vivo genome activity and adaptation, when sequenced using this technology., Ancient DNA is known to survive in cold environments for tens of millennia, but it is assumed that ancient RNA could not persist in such a way due to its relative instability. However, this study shows that under permafrost conditions, ancient RNA can survive well enough to show tissue specificity even in mammalian soft tissues.

Published

2019

2. The mummy returns… and sheds new light on old questions

Author

M. T. P. Gilbert

Subjects

Paraphyly, Nile crocodile, biology, Ecology, Biogeography, Crocodile, biology.organism_classification, Crocodylus, Molecular ecology, Ancient DNA, biology.animal, Genetics, Ethnology, Wildlife management, Ecology, Evolution, Behavior and Systematics

Abstract

Whether as the ancient Egyptian crocodile-god Sobek, a terrifying predator of African waterways, or simply as a premium handbag leather, the Nile crocodile (Crocodylus niloticus) has long held the fascination of mankind. Despite 200 years of study, however, uncertainty remains as to its taxonomy. While resolving such issues are key to understanding the origins and biogeography of the so-called true crocodiles of genus Crocodylus, given widespread ongoing range contraction, such issues are paramount for design of future conservation strategies. In this issue of Molecular Ecology, Hekkala et al. (2011) apply analysis of modern, historic and ancient DNA (aDNA) to the questions, with far-reaching implications. First they demonstrate that, as currently described, the Nile crocodile is paraphyletic, with individuals from the east and western clades separated by a number of New World crocodile species. The consequences of this finding are as important for conservation efforts as for their impact on crocodile taxonomy. Furthermore, they strike at the heart of the long-standing debate over whether aDNA analysis of ancient Egyptian mummies is scientifically sound.

Published

2011

3. Mitochondrial DNA from pre-Columbian Ciboneys from Cuba and the prehistoric colonization of the Caribbean

Author

M. T. P. Gilbert, Francesc Calafell, Carles Lalueza-Fox, Antonio Martínez-Fuentes, and Jaume Bertranpetit

Subjects

education.field_of_study, Mitochondrial DNA, Phylogenetic tree, Population, Zoology, Biology, Archaeology, Hypervariable region, Prehistory, Ancient DNA, Caribbean region, Anthropology, Colonization, Anatomy, education

Abstract

To assess the genetic affinities of extinct Ciboneys (also called Guanajuatabeys) from Cuba, 47 pre-Columbian skeletal samples belonging to this group were analyzed using ancient DNA techniques. At the time of European contact, the center and east of Cuba were occupied by agriculturalist Taino groups, while the west was mainly inhabited by Ciboneys, hunter-gatherers who have traditionally been considered a relic population descending from the initial colonization of the Caribbean. The mtDNA hypervariable region I (HVR-I) and haplogroup-specific markers were amplified and sequenced in 15 specimens using overlapping fragments; amplification from second extractions from the same sample, independent replication in different laboratories, and cloning of some PCR products support the authenticity of the sequences. Three of the five major mtDNA Amerindian lineages (A, C, and D) are present in the sample analyzed, in frequencies of 0.07, 0.60, and 0.33, respectively. Different phylogenetic analyses seem to suggest that the Caribbean most likely was populated from South America, although the data are still inconclusive, and Central American influences cannot be discarded. Our hypothesis is that the colonization of the Caribbean mainly took place in successive migration movements that emanated from the same area in South America, around the Lower Orinoco Valley: the first wave consisted of hunter-gatherer groups (ancestors of the Ciboneys), a subsequent wave of agriculturalists (ancestors of the Tainos), and a latter one of nomadic Carib warriors. However, further genetic studies are needed to confirm this scenario.

Published

2003

4. Insight into the processes behind the contamination of degraded human teeth and bone samples with exogenous sources of DNA

Author

Eske Willerslev, M. T. P. Gilbert, Matthew J. Collins, Anders J. Hansen, Gordon Turner-Walker, and Geoarchaeology

Subjects

Archeology, Human dna, business.industry, Deep penetration, Dentistry, Human decontamination, Biology, Contamination, DNA extraction, chemistry.chemical_compound, Ancient DNA, chemistry, Anthropology, Environmental chemistry, Ultraviolet light, business, DNA

Abstract

A principal problem facing human DNA studies that use old and degraded remains is contamination from other sources of human DNA. In this study we have attempted to contaminate deliberately bones and teeth sampled from a medieval collection excavated in Trondheim, Norway, in order to investigate this poorly understood phenomenon. Five pairs of teeth and bone samples were bathed in water containing various concentrations (from 10−9 and 10−21 g/l) of purified ΦX174 DNA. Subsequently the samples were subjected to a routine decontamination protocol involving a bleach bath followed by exposure to λ=254 nm ultraviolet light, prior to DNA extraction and analysis for evidence of the persistence of the contaminant. The results support previous speculation that bone is more susceptible to water-borne sources of contaminant DNA, although both bone and teeth are readily contaminated and are difficult to decontaminate using the tested protocol. We believe that this is largely due to the porous nature of bone and teeth facilitating the deep penetration of the contaminant DNA. To simulate a more realistic handling situation, 27 further teeth were directly handled and washed, then decontaminated, prior to assaying for the residual presence of the handler's DNA. Surprisingly, although our results suggest that a large proportion of the teeth were contaminated with multiple sources of human DNA prior to our investigation, we were unable to contaminate the samples with further human DNA. One potential explanation may be the deposition of sediment or other structural changes that occur within the samples as they desiccate post-excavation, which may protect samples from subsequent contamination, but also prevent the efficacy of bleach baths in decontaminating specimens. Copyright © 2006 John Wiley & Sons, Ltd.

Published

2006

5. Tracing the phylogeography of human populations in Britain based on 4th-11th century mtDNA genotypes

Author

A. L. Töpf, John P. Dumbacher, M. T. P. Gilbert, and A. R. Hoelzel

Subjects

Genotype, Population, Biology, DNA, Mitochondrial, Evolution, Molecular, Common descent, Genetics, Humans, Glacial period, education, Molecular Biology, Ecology, Evolution, Behavior and Systematics, Phylogeny, DNA Primers, education.field_of_study, Middle East, Geography, Sequence Analysis, DNA, Emigration and Immigration, Founder Effect, History, Medieval, United Kingdom, Phylogeography, Ancient DNA, Ethnology, Female, Doggerland, Founder effect

Abstract

Some of the transitional periods of Britain during the first millennium A.D. are traditionally associated with the movement of people from continental Europe, composed largely of invading armies (e.g., the Roman, Saxon, and Viking invasions). However, the extent to which these were migrations (as opposed to cultural exchange) remains controversial. We investigated the history of migration by women by amplifying mitochondrial DNA (mtDNA) from ancient Britons who lived between approximately A.D. 300-1,000 and compared these with 3,549 modern mtDNA database genotypes from England, Europe, and the Middle East. The objective was to assess the dynamics of the historical population composition by comparing genotypes in a temporal context. Towards this objective we test and calibrate the use of rho statistics to identify relationships between founder and source populations. We find evidence for shared ancestry between the earliest sites (predating Viking invasions) with modern populations across the north of Europe from Norway to Estonia, possibly reflecting common ancestors dating back to the last glacial epoch. This is in contrast with a late Saxon site in Norwich, where the genetic signature is consistent with more recent immigrations from the south, possibly as part of the Saxon invasions.

Published

2005

6. Unravelling migrations in the steppe: mitochondrial DNA sequences from ancient central Asians

Author

Jaume Bertranpetit, M. L. Sampietro, Loredana Castrì, Davide Pettener, M. T. P. Gilbert, Fiorenzo Facchini, and Carles Lalueza-Fox

Subjects

Mitochondrial DNA, Steppe, Sequence analysis, Central asia, Population Dynamics, Ancient history, DNA, Mitochondrial, Polymorphism, Single Nucleotide, General Biochemistry, Genetics and Molecular Biology, chemistry.chemical_compound, Humans, History, Ancient, General Environmental Science, DNA Primers, geography, geography.geographical_feature_category, General Immunology and Microbiology, Geography, Fossils, General Medicine, Sequence Analysis, DNA, Emigration and Immigration, Kazakhstan, Ancient DNA, chemistry, Haplotypes, Evolutionary biology, General Agricultural and Biological Sciences, DNA, Polymorphism, Restriction Fragment Length, Research Article

Abstract

This study helps to clarify the debate on the Western and Eastern genetic influences in Central Asia. Thirty-six skeletal remains from Kazakhstan (Central Asia), excavated from different sites dating between the fifteenth century BC to the fifth century AD, have been analysed for the hypervariable control region (HVR-I) and haplogroup diagnostic single nucleotide polymorphisms (SNPs) of the mitochondrial DNA genome. Standard authentication criteria for ancient DNA studies, including multiple extractions, cloning of PCR products and independent replication, have been followed. The distribution of east and west Eurasian lineages through time in the region is concordant with the available archaeological information: prior to the thirteenth-seventh century BC, all Kazakh samples belong to European lineages; while later an arrival of east Eurasian sequences that coexisted with the previous west Eurasian genetic substratum can be detected. The presence of an ancient genetic substratum of European origin in West Asia may be related to the discovery of ancient mummies with European features in Xinjiang and to the existence of an extinct Indo-European language, Tocharian. This study demonstrates the usefulness of the ancient DNA in unravelling complex patterns of past human migrations so as to help decipher the origin of present-day admixed populations.

Published

2004