Your search keyword '"Faux, Cassandra"' showing total 4 results

1. Antarctic krill population genomics: apparent panmixia, but genome complexity and large population size muddy the water.

Author

Deagle, Bruce E., Faux, Cassandra, Kawaguchi, So, Meyer, Bettina, and Jarman, Simon N.

Subjects

*KRILL, *EUPHAUSIA superba, *GENOMICS, *CRUSTACEA, *PHYSIOLOGICAL effects of nucleotides

Abstract

Antarctic krill ( Euphausia superba; hereafter krill) are an incredibly abundant pelagic crustacean which has a wide, but patchy, distribution in the Southern Ocean. Several studies have examined the potential for population genetic structuring in krill, but DNA-based analyses have focused on a limited number of markers and have covered only part of their circum-Antarctic range. We used mitochondrial DNA and restriction site-associated DNA sequencing ( RAD-seq) to investigate genetic differences between krill from five sites, including two from East Antarctica. Our mt DNA results show no discernible genetic structuring between sites separated by thousands of kilometres, which is consistent with previous studies. Using standard RAD-seq methodology, we obtained over a billion sequences from >140 krill, and thousands of variable nucleotides were identified at hundreds of loci. However, downstream analysis found that markers with sufficient coverage were primarily from multicopy genomic regions. Careful examination of these data highlights the complexity of the RAD-seq approach in organisms with very large genomes. To characterize the multicopy markers, we recorded sequence counts from variable nucleotide sites rather than the derived genotypes; we also examined a small number of manually curated genotypes. Although these analyses effectively fingerprinted individuals, and uncovered a minor laboratory batch effect, no population structuring was observed. Overall, our results are consistent with panmixia of krill throughout their distribution. This result may indicate ongoing gene flow. However, krill's enormous population size creates substantial panmictic inertia, so genetic differentiation may not occur on an ecologically relevant timescale even if demographically separate populations exist. [ABSTRACT FROM AUTHOR]

Published

2015

2. Molecular biomarkers for chronological age in animal ecology.

Author

Jarman, Simon N., Polanowski, Andrea M., Faux, Cassandra E., Robbins, Jooke, De Paoli‐Iseppi, Ricardo, Bravington, Mark, and Deagle, Bruce E.

Subjects

BIOMARKERS, AGE, ECOLOGICAL research, TELOMERES, MOLECULAR ecology

Abstract

The chronological age of an individual animal predicts many of its biological characteristics, and these in turn influence population-level ecological processes. Animal age information can therefore be valuable in ecological research, but many species have no external features that allow age to be reliably determined. Molecular age biomarkers provide a potential solution to this problem. Research in this area of molecular ecology has so far focused on a limited range of age biomarkers. The most commonly tested molecular age biomarker is change in average telomere length, which predicts age well in a small number of species and tissues, but performs poorly in many other situations. Epigenetic regulation of gene expression has recently been shown to cause age-related modifications to DNA and to cause changes in abundance of several RNA types throughout animal lifespans. Age biomarkers based on these epigenetic changes, and other new DNA-based assays, have already been applied to model organisms, humans and a limited number of wild animals. There is clear potential to apply these marker types more widely in ecological studies. For many species, these new approaches will produce age estimates where this was previously impractical. They will also enable age information to be gathered in cross-sectional studies and expand the range of demographic characteristics that can be quantified with molecular methods. We describe the range of molecular age biomarkers that have been investigated to date and suggest approaches for developing the newer marker types as age assays in nonmodel animal species. [ABSTRACT FROM AUTHOR]

Published

2015

3. Early evidence for direct and indirect effects of the infant rotavirus vaccine program in Queensland.

Author

Lambert, Stephen B., Faux, Cassandra E., Hall, Lisa, Birrell, Frances A., Peterson, Karen V., Selvey, Christine E., Sloots, Theo P., Nissen, Michael D., and Grimwood, Keith

Abstract

The article discusses the findings of research aimed at assessing the effect of Australia's infant rotavirus vaccination program on disease notifications. An analysis was made for data collected on rotavirus notifications and from Queensland Health laboratories from 2006-2008 prior to the July 2007 implementation of the infant rotavirus vaccination program. The research concludes that the vaccination program resulted in a 65 percent decline in notifications, and a 15 percent drop in laboratory tests in 2008.

Published

2009

4. Influenza surveillance in Australia: we need to do more than count.

Author

Lambert, Stephen B., Faux, Cassandra E., Grant, Kristina A., Williams, Simon H., Bletchly, Cheryl, Catton, Michael G., Smith, David W., and Kelly, Heath A.

Abstract

The authors identify the gaps in surveillance data in monitoring influenza epidemiological trends in Australia. It notes Australia's lack of a national surveillance system and the weaknesses in alternative methods of data capture such as the online survey "Flu Tracking." Data from three Australian states' public health services, including Western Australia's PathWest, for 2004-2008 are used to indicate that incorporating the number of negative tests performed into national surveillance data would improve understanding of influenza epidemiology.

Published

2010