Latest Articles Include:
- Editorial Board
- TRENDS GENET 26(12):i (2010)
- Critical reasoning on causal inference in genome-wide linkage and association studies
- TRENDS GENET 26(12):493-498 (2010)
Genome-wide linkage and association studies of tens of thousands of clinical and molecular traits are currently underway, offering rich data for inferring causality between traits and genetic variation. However, the inference process is based on discovering subtle patterns in the correlation between traits and is therefore challenging and could create a flood of untrustworthy causal inferences. Here we introduce the concerns and show that they are already valid in simple scenarios of two traits linked to or associated with the same genomic region. We argue that more comprehensive analysis and Bayesian reasoning are needed and that these can overcome some of the pitfalls, although not in every conceivable case. We conclude that causal inference methods can still be of use in the iterative process of mathematical modeling and biological validation. - The piRNA pathway: a fly's perspective on the guardian of the genome
- TRENDS GENET 26(12):499-509 (2010)
Throughout the eukaryotic lineage, small RNA silencing pathways protect the genome against the deleterious influence of selfish genetic elements such as transposons. In animals an elaborate small RNA pathway centered on PIWI proteins and their interacting piRNAs silences transposons within the germline. In contrast to other small RNA silencing pathways, we lack a mechanistic understanding of this genome defense system. However, genetic and molecular studies have uncovered a fascinating conceptual framework for this pathway that is conserved from sponges to mammals. We discuss our current understanding of the piRNA pathway in Drosophila with an emphasis on origin and biogenesis of piRNAs. - Gene targeting in the rat: advances and opportunities
- TRENDS GENET 26(12):510-518 (2010)
The rat has long been a model favored by physiologists, pharmacologists and neuroscientists. However, over the past two decades, many investigators in these fields have turned to the mouse because of its gene modification technologies and extensive genomic resources. Although the genomic resources of the rat have nearly caught up, gene targeting has lagged far behind, limiting the value of the rat for many investigators. In the past two years, advances in transposon- and zinc finger nuclease (ZFN)-mediated gene knockout as well as the establishment and culturing of embryonic and inducible pluripotent stem cells have created new opportunities for rat genetic research. Here, we provide a high-level description and the potential uses of these new technologies for investigators using the rat for biomedical research. - Gene networks controlling the initiation of flower development
- TRENDS GENET 26(12):519-527 (2010)
The onset of flower formation is a key regulatory event during the life cycle of angiosperm plants, which marks the beginning of the reproductive phase of development. It has been shown that floral initiation is under tight genetic control, and deciphering the underlying molecular mechanisms has been a main area of interest in plant biology for the past two decades. Here, we provide an overview of the developmental and genetic processes that occur during floral initiation. We further review recent studies that have led to the genome-wide identification of target genes of key floral regulators and discuss how they have contributed to an in-depth understanding of the gene regulatory networks controlling early flower development. We focus especially on a master regulator of floral initiation in Arabidopsis thaliana APETALA1 (AP1), but also outline what is known about the AP1 network in other plant species and the evolutionary implications.
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