Open Access. Powered by Scholars. Published by Universities.®
Articles 1 - 4 of 4
Full-Text Articles in Entire DC Network
Mutations In Many Genes Affect Aggressive Behavior In Drosophila Melanogaster, Alexis C. Edwards, Liesbeth Zwarts, Akihiko Yamamota, Patrick Callaerts, Trudy F.C. Mackay
Mutations In Many Genes Affect Aggressive Behavior In Drosophila Melanogaster, Alexis C. Edwards, Liesbeth Zwarts, Akihiko Yamamota, Patrick Callaerts, Trudy F.C. Mackay
Psychiatry Publications
Background Aggressive behavior in animals is important for survival and reproduction. Identifying the underlying genes and environmental contexts that affect aggressive behavior is important for understanding the evolutionary forces that maintain variation for aggressive behavior in natural populations, and to develop therapeutic interventions to modulate extreme levels of aggressive behavior in humans. While the role of neurotransmitters and a few other molecules in mediating and modulating levels of aggression is well established, it is likely that many additional genetic pathways remain undiscovered. Drosophila melanogaster has recently been established as an excellent model organism for studying the genetic basis of aggressive …
Cpg Islands Or Cpg Clusters: How To Identify Functional Gc-Rich Regions In A Genome?, Leng Han, Zhongming Zhao
Cpg Islands Or Cpg Clusters: How To Identify Functional Gc-Rich Regions In A Genome?, Leng Han, Zhongming Zhao
Psychiatry Publications
Background CpG islands (CGIs), clusters of CpG dinucleotides in GC-rich regions, are often located in the 5' end of genes and considered gene markers. Hackenberg et al. (2006) recently developed a new algorithm, CpGcluster, which uses a completely different mathematical approach from previous traditional algorithms. Their evaluation suggests that CpGcluster provides a much more efficient approach to detecting functional clusters or islands of CpGs.
Results We systematically compared CpGcluster with the traditional algorithm by Takai and Jones (2002). Our comparisons of (1) the number of islands versus the number of genes in a genome, (2) the distribution of islands in …
A Transcriptional Network Associated With Natural Variation In Drosophila Aggressive Behavior, Shannon Roulet
A Transcriptional Network Associated With Natural Variation In Drosophila Aggressive Behavior, Shannon Roulet
Psychiatry Publications
Background Aggressive behavior is an important component of fitness in most animals. Aggressive behavior is genetically complex, with natural variation attributable to multiple segregating loci with allelic effects that are sensitive to the physical and social environment. However, we know little about the genes and genetic networks affecting natural variation in aggressive behavior. Populations of Drosophila melanogaster harbor quantitative genetic variation in aggressive behavior, providing an excellent model system for dissecting the genetic basis of naturally occurring variation in aggression.
Results Correlating variation in transcript abundance with variation in complex trait phenotypes is a rapid method for identifying candidate genes. …
New Genomic Structure For Prostate Cancer Specific Gene Pca3 Within Bmcc1: Implications For Prostate Cancer Detection And Progression, Raymond A. Clarke, Zhongming Zhao, An-Yuan Guo, Kathrein Roper, Linda Teng, Zhi-Ming Fang, Hema Samaratunga, Martin F. Lavin, Robert A. Gardiner
New Genomic Structure For Prostate Cancer Specific Gene Pca3 Within Bmcc1: Implications For Prostate Cancer Detection And Progression, Raymond A. Clarke, Zhongming Zhao, An-Yuan Guo, Kathrein Roper, Linda Teng, Zhi-Ming Fang, Hema Samaratunga, Martin F. Lavin, Robert A. Gardiner
Psychiatry Publications
Background
The prostate cancer antigen 3 (PCA3/DD3) gene is a highly specific biomarker upregulated in prostate cancer (PCa). In order to understand the importance of PCA3 in PCa we investigated the organization and evolution of the PCA3 gene locus.
Methods/Principal Findings
We have employed cDNA synthesis, RTPCR and DNA sequencing to identify 4 new transcription start sites, 4 polyadenylation sites and 2 new differentially spliced exons in an extended form of PCA3. Primers designed from these novel PCA3 exons greatly improve RT-PCR based discrimination between PCa, PCa metastases and BPH specimens. Comparative genomic analyses demonstrated that PCA3 has …