Global ETD Search

1	Chinese Basic Pension Substitution Rate: A Monte Carlo Demonstration of the Individual Account Model Dong, Bei, Zhang, Ling, Lu, Xuan January 2008 (has links) At the end of 2005, the State Council of China passed ”The Decision on adjusting the Individual Account of Basic Pension System”, which adjusted the individual account in the 1997 basic pension system. In this essay, we will analyze the adjustment above, and use Life Annuity Actuarial Theory to establish the basic pension substitution rate model. Monte Carlo simulation is also used to prove the rationality of the model. Some suggestions are put forward associated with the substitution rate according to the current policy. Individual Account Substitution Rate Basic Pension System Gibbs Sampling MCMC.
2	Characterizing selective pressures on the pathway for de novo biosynthesis of pyrimidines in yeast Hermansen, Russell A., Mannakee, Brian K., Knecht, Wolfgang, Liberles, David A., Gutenkunst, Ryan N. January 2015 (has links) BACKGROUND: Selection on proteins is typically measured with the assumption that each protein acts independently. However, selection more likely acts at higher levels of biological organization, requiring an integrative view of protein function. Here, we built a kinetic model for de novo pyrimidine biosynthesis in the yeast Saccharomyces cerevisiae to relate pathway function to selective pressures on individual protein-encoding genes. RESULTS: Gene families across yeast were constructed for each member of the pathway and the ratio of nonsynonymous to synonymous nucleotide substitution rates (dN/dS) was estimated for each enzyme from S. cerevisiae and closely related species. We found a positive relationship between the influence that each enzyme has on pathway function and its selective constraint. CONCLUSIONS: We expect this trend to be locally present for enzymes that have pathway control, but over longer evolutionary timescales we expect that mutation-selection balance may change the enzymes that have pathway control. Evolutionary systems biology Metabolic pathway evolution Phylogenetics Kinetic model Enzyme evolution Substitution rate
3	The Effects of Mutation and Selection on the Rate and Pattern of Molecular Evolution in Birds Berlin, Sofia January 2004 (has links) By comparing sequence diversity and divergence on sex chromosomes one can study how the rate of evolution in affected by mutation and/or selection. The rate of mutation in male biased, meaning that relatively more mutations are created in the male germ line than in the female. Since the male mutation bias (αm) most likely is a consequence of the difference in cell divisions between male and female germ lines, life history characters that affect this difference should covary with αm. Indeed, we found a positive correlation between estimates of αm and increased generation times and increased intensity of sperm competition. We have also found that estimates of αm varied significantly between gametologous introns located on the sex chromosomes. This could be a consequence of the variation in substitution rates between loci. Population genetics theory predicts that both positive and negative selection reduce genetic diversity around a selected locus at a distance determined by the rate of recombination. Consequently, a non-recombining chromosome, like the female specific W chromosome in birds, selection is expected to have a large impact on sequence diversity. Indeed, in a large sequence screening we found only one segregating site among 7643 base pairs sequenced in 47 chicken females. Furthermore, we also found that deleterious substitutions are fixed in a higher rate for W- than Z-linked sequences, which is in agreement with the lack of recombination and strong genetic drift due to the low effective population size. Rarely non-synonymous mutations are beneficial for an individual, but when it happens, the mutation is positively selected and rapidly reaches fixation in a population. We have found that positive selection has been acting on the female reproductive protein, zona pellucida c in birds. This rapid evolution is likely a mechanism to prevent hybridisation. Molecular genetics substitution rate diversity selection male mutation bias birds Genetik Genetics Genetik
4	Studies on genetic properties of porcine parvoviruses Streck, André Felipe 13 June 2013 (has links) (PDF) Porcine parvovirus (PPV) is considered to be one of the most important causes of reproductive failure in swine. Fetal death, mummification, stillbirths and delayed return to estrus are some of the clinical signs commonly associated with PPV infection in a herd. The virus genome is considered to be conservative, with substitution rates near to that of their host. However, it has been shown that some parvoviruses exhibit a substitution rate close to that commonly determined for RNA viruses. In this scenario, new PPV phenotypes may reduce the effectiveness of the currently used vaccines, recommending the continuous monitoring of the currently prevalent PPV strains. In addition, a number of novel porcine parvoviruses have been described during the last decade, but the importance and characteristics of these viruses remain unknown. In the present dissertation, three studies were performed to address the PPV genetic variability, to monitor the emergence of new PPV strains and the prevalence of novel parvoviruses. In the first study, recent PPV field isolates from Austria, Brazil, Germany and Switzerland were sequenced and analyzed. These samples, together with sequences retrieved from GenBank, were included in three datasets (viral protein complete gene, viral protein partial gene and non-structural protein complete gene). For each dataset, the nucleotide substitution rate was determined and a molecular clock estimated. The analysis revealed that for the new strains, the amino acids substitutions were located mainly in the viral capsid loops. Only the capsid protein datasets present the higher suitability for phylogenetic analysis. In them, a higher divergence was found, with three well defined clusters. By inferring the evolutionary dynamics of the PPV sequences, a nucleotide substitution rate of approximately 10 -4 substitutions per site per year was found for these datasets. An association of the phylogenetic tree with the molecular clock revealed that the main divergence of the PPV strains for the viral protein ocurred in the last 30 years. In the second study, the population dynamic of PPV isolates from swine herds was analyzed using PPV complete protein gene and partial sequences deposited in GenBank. The population dynamic of the virus was calculated using a Bayesian approach with a Bayesian skyline coalescent model. Additionally, an in vitro model was performed by twenty-one consecutives passages of the Challenge strain (a virulent field strain) and NADL2 strain (a vaccine strain) in PK15 cell-line supplemented with polyclonal antibodies raised against the vaccine strain (negative control was not supplemented). The Bayesian analysis indicated a decrease in the population diversity over the years and the predominance of some PPV strains. In agreement, the in vitro study revealed that a lower number of mutations appeared for both viruses in the presence of anti-PPV antibodies in comparison with the control passages without antibodies. In the third study, tonsils and hearts from 100 pigs were collected in a German slaughterhouse in 2010 and tested for PPV, porcine parvovirus 2 (PPV2), porcine parvovirus 3 (PPV3) and porcine parvovirus 4 (PPV4). Positive samples of PPV, PPV2 and PPV3 were sequenced. PPV was observed in 60/100 hearts and 61/100 tonsils and PPV2 in 55/100 hearts and 78/100 tonsils. PPV3 and PPV4 could not be detected in the heart samples but 20/100 and 7/100, respectively, of the tonsils were tested positive. The phylogenetic analysis of the PPV, PPV2 and PPV3 sequences revealed that the German samples could be divided in at least two clusters or clades for each virus. Altogether, it can be concluded that PPV is continuously evolving. Apparently, PPV vaccines largely used in the last 30 years probably have reduced the genetic diversity of the virus and induced the predominance of strains with distinct capsid profile from the original vaccine-based strain. Moreover, the high prevalence of the PPV, PPV2 and PPV3 and their genetic diversity highlight the importance of the continuous monitoring of these viruses. porcinen Parvoviren Substitutionsrate Populationsdynamik neue Parvoviren Porcine parvovirus substitution rate population dynamic novel parvoviruses ddc:636.089
5	Autobiography, Biography, and Narrative Ethics Yampolsky, Lev Y., Bouzinier, Michael A. 17 January 2014 (has links) Background: Duplicated genes can indefinately persist in genomes if either both copies retain the original function due to dosage benefit (gene conservation), or one of the copies assumes a novel function (neofunctionalization), or both copies become required to perform the function previously accomplished by a single copy (subfunctionalization), or through a combination of these mechanisms. Different models of duplication retention imply different predictions about substitution rates in the coding portion of paralogs and about asymmetry of these rates. Results: We analyse sequence evolution asymmetry in paralogs present in 12 Drosophila genomes using the nearest non-duplicated orthologous outgroup as a reference. Those paralogs present in D. melanogaster are analysed in conjunction with the asymmetry of expression rate and ubiquity and of segregating non-synonymous polymorphisms in the same paralogs. Paralogs accumulate substitutions, on average, faster than their nearest singleton orthologs. The distribution of paralogs' substitution rate asymmetry is overdispersed relative to that of orthologous clades, containing disproportionally more unusually symmetric and unusually asymmetric clades. We show that paralogs are more asymmetric in: a) clades orthologous to highly constrained singleton genes; b) genes with high expression level; c) genes with ubiquitous expression and d) non-tandem duplications. We further demonstrate that, in each asymmetrically evolving pair of paralogs, the faster evolving member of the pair tends to have lower average expression rate, lower expression uniformity and higher frequency of non-synonymous SNPs than its slower evolving counterpart. Conclusions: Our findings are consistent with the hypothesis that many duplications in Drosophila are retained despite stabilising selection being more relaxed in one of the paralogs than in the other, suggesting a widespread unfinished pseudogenization. This phenomenon is likely to make detection of neo- and subfunctionalization signatures difficult, as these models of duplication retention also predict asymmetries in substitution rates and expression profiles. Reviewers: This article has been reviewed by Dr. Jia Zeng (nominated by Dr. I. King Jordan), Dr. Fyodor Kondrashov and Dr. Yuri Wolf. drosophila gene duplication gene expression polymorphism pseudogenization substitution rate Biological Sciences
6	APPLICATION OF TRANSCRIPTOMICS TO ADDRESS QUESTIONS IN MOLECULAR BIOLOGY AND EVOLUTION Raj Kumar, Praveen Kumar 11 September 2014 (has links) No description available. Bioinformatics CADBURE RNA-Seq Alternative Splicing retained intron Substitution rate KaKs
7	Comparative Genomics in Birds Axelsson, Erik January 2007 (has links) <p>To shed light on forces that shape the molecular evolution of bird genomes, and in turn avian adaptations, comparative analyses of avian DNA sequences are important. Moreover, contrasting findings in birds to those of other organisms will lend a clearer view on general aspects of molecular evolution. However, few such analyses have been conducted in birds. Progress is presented in this thesis.</p><p>Theories predict a reduction in the mutation rate of the Z chromosome as the harmful effects of recessive mutations are exposed in female birds. We find no evidence for this. Instead, the substitution rates of sex chromosomes and autosomes are largely compatible with expectations from male-biased mutation. This suggests that a majority of mutations arise during DNA replication.</p><p>Substitution rates also vary across chicken autosomes. For instance, microchromosomes accumulate ~20% more substitutions than macrochromosomes. We show that a majority of the autosomal variation in substitution rate can be accounted for by GC content, mainly due to the incidence of mutable CpG-dinucleotides.</p><p>Sequence comparisons also show that the pattern of nucleotide substitution varies in the chicken genome and this reinforces regional differences in base composition. </p><p>The level of selective constraint in at least some avian lineages is higher than in mammalian lineages as indicated by low<i> d</i><i>N</i><i>/d</i><i>S</i><i> </i>– ratios. Larger historical population sizes of birds relative to mammals could explain this observation. Within the avian genome, the<i> d</i><i>N</i><i>/d</i><i>S</i> is lower for genes on micro- than macrochromosomes, potentially owing to a higher incidence of house-keeping genes in the former category.</p><p>Contrasting data on non-synonymous and synonymous substitution for divergence and polymorphism shows that positive selection has contributed more to the evolution of Z-linked than autosomal genes. This is likely explained by the full exposure of beneficial recessive mutations on Z when in female birds.</p> Molecular genetics Birds molecular evolution macrochromosomes microchromosomes mutation rate substitution rate base composition positive selection genetic drift population size Genetik
8	Comparative Genomics in Birds Axelsson, Erik January 2007 (has links) To shed light on forces that shape the molecular evolution of bird genomes, and in turn avian adaptations, comparative analyses of avian DNA sequences are important. Moreover, contrasting findings in birds to those of other organisms will lend a clearer view on general aspects of molecular evolution. However, few such analyses have been conducted in birds. Progress is presented in this thesis. Theories predict a reduction in the mutation rate of the Z chromosome as the harmful effects of recessive mutations are exposed in female birds. We find no evidence for this. Instead, the substitution rates of sex chromosomes and autosomes are largely compatible with expectations from male-biased mutation. This suggests that a majority of mutations arise during DNA replication. Substitution rates also vary across chicken autosomes. For instance, microchromosomes accumulate ~20% more substitutions than macrochromosomes. We show that a majority of the autosomal variation in substitution rate can be accounted for by GC content, mainly due to the incidence of mutable CpG-dinucleotides. Sequence comparisons also show that the pattern of nucleotide substitution varies in the chicken genome and this reinforces regional differences in base composition. The level of selective constraint in at least some avian lineages is higher than in mammalian lineages as indicated by low dN/dS – ratios. Larger historical population sizes of birds relative to mammals could explain this observation. Within the avian genome, the dN/dS is lower for genes on micro- than macrochromosomes, potentially owing to a higher incidence of house-keeping genes in the former category. Contrasting data on non-synonymous and synonymous substitution for divergence and polymorphism shows that positive selection has contributed more to the evolution of Z-linked than autosomal genes. This is likely explained by the full exposure of beneficial recessive mutations on Z when in female birds. Molecular genetics Birds molecular evolution macrochromosomes microchromosomes mutation rate substitution rate base composition positive selection genetic drift population size Genetik
9	COI Barcoding of the Shorebirds: Rates of Evolution and the Identification of Species Elbourne, Rebecca 07 December 2011 (has links) This study assembles COI barcodes from 1814 specimens from the shorebird order, Charadriiformes and examines variation relative to time, rate of evolution and taxonomic level. In the suborder Scolopaci, 95% of sampled species were identified correctly. COI barcode variation within monotypic species was low (0-1% maximum distance) but showed a wide range within polytypic species (0-5%). Preliminary Charadrii results suggest similar trends but success is reduced in the third suborder, Lari. Rates of COI evolution are found to be lowest in the Lari and this leads to reduced species identification in recently radiated families: just 49% of the Laridae and 57% of the Stercoraridae are identified but 100% of the older Alcidae. In the faster Scolopaci, subspecies are at the limit of resolution with some well differentiated subspecies not distinguished by barcodes. The interplay of evolutionary rates, divergence dates and gene flow appears to determine COI barcode differentiation between taxa. DNA barcoding Charadriiformes substitution rate mitochondrial DNA shorebirds white-headed gulls Lari Scolopaci subspecies COI 0306 0307
10	COI Barcoding of the Shorebirds: Rates of Evolution and the Identification of Species Elbourne, Rebecca 07 December 2011 (has links) This study assembles COI barcodes from 1814 specimens from the shorebird order, Charadriiformes and examines variation relative to time, rate of evolution and taxonomic level. In the suborder Scolopaci, 95% of sampled species were identified correctly. COI barcode variation within monotypic species was low (0-1% maximum distance) but showed a wide range within polytypic species (0-5%). Preliminary Charadrii results suggest similar trends but success is reduced in the third suborder, Lari. Rates of COI evolution are found to be lowest in the Lari and this leads to reduced species identification in recently radiated families: just 49% of the Laridae and 57% of the Stercoraridae are identified but 100% of the older Alcidae. In the faster Scolopaci, subspecies are at the limit of resolution with some well differentiated subspecies not distinguished by barcodes. The interplay of evolutionary rates, divergence dates and gene flow appears to determine COI barcode differentiation between taxa. DNA barcoding Charadriiformes substitution rate mitochondrial DNA shorebirds white-headed gulls Lari Scolopaci subspecies COI 0306 0307

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