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Full-Text Articles in Life Sciences
Characterization Of The Transcriptome, Nucleotide Sequence Polymorphism, And Natural Selection In The Desert Adapted Mouse Peromyscus Eremicus, Matthew D. Macmanes, Michael B. Eisen
Characterization Of The Transcriptome, Nucleotide Sequence Polymorphism, And Natural Selection In The Desert Adapted Mouse Peromyscus Eremicus, Matthew D. Macmanes, Michael B. Eisen
Molecular, Cellular & Biomedical Sciences
As a direct result of intense heat and aridity, deserts are thought to be among the most harsh of environments, particularly for their mammalian inhabitants. Given that osmoregulation can be challenging for these animals, with failure resulting in death, strong selection should be observed on genes related to the maintenance of water and solute balance. One such animal, Peromyscus eremicus, is native to the desert regions of the southwest United States and may live its entire life without oral fluid intake. As a first step toward understanding the genetics that underlie this phenotype, we present a characterization of the …
The Consequences Of Denoising Marker-Based Metagenomic Data, John M. Gaspar, W. K. Thomas
The Consequences Of Denoising Marker-Based Metagenomic Data, John M. Gaspar, W. K. Thomas
Molecular, Cellular & Biomedical Sciences
No abstract provided.
Simple Sequence Repeat Variation In The Daphnia Pulex Genome, Way Sung, Abraham Tucker, R. Daniel Bergeron, Michael Lynch, W. Kelley Thomas
Simple Sequence Repeat Variation In The Daphnia Pulex Genome, Way Sung, Abraham Tucker, R. Daniel Bergeron, Michael Lynch, W. Kelley Thomas
Molecular, Cellular & Biomedical Sciences
Background: Simple sequence repeats (SSRs) are highly variable features of all genomes. Their rapid evolution makes them useful for tracing the evolutionary history of populations and investigating patterns of selection and mutation across gnomes. The recently sequenced Daphnia pulex genome provides us with a valuable data set to study the mode and tempo of SSR evolution, without the inherent biases that accompany marker selection. Results: Here we catalogue SSR loci in the Daphnia pulex genome with repeated motif sizes of 1-100 nucleotides with a minimum of 3 perfect repeats. We then used whole genome shotgun reads to determine the average …
Evolutionary Rates And Gene Dispensability Associate With Replication Timing In The Archaeon Sulfolobus Islandicus, Kenneth M. Flynn, Samuel H. Vohr, Philip J. Hatcher, Vaughn S. Cooper
Evolutionary Rates And Gene Dispensability Associate With Replication Timing In The Archaeon Sulfolobus Islandicus, Kenneth M. Flynn, Samuel H. Vohr, Philip J. Hatcher, Vaughn S. Cooper
Molecular, Cellular & Biomedical Sciences
In bacterial chromosomes, the position of a gene relative to the single origin of replication generally reflects its replication timing, how often it is expressed, and consequently, its rate of evolution. However, because some archaeal genomes contain multiple origins of replication, bias in gene dosage caused by delayed replication should be minimized and hence the substitution rate of genes should associate less with chromosome position. To test this hypothesis, six archaeal genomes from the genus Sulfolobus containing three origins of replication were selected, conserved orthologs were identified, and the evolutionary rates (dN and dS) of these orthologs were quantified. Ortholog …
Why Genes Evolve Faster On Secondary Chromosomes In Bacteria, Vaughn S. Cooper, Samuel H. Vohr, Sarah C. Wrocklage, Philip J. Hatcher
Why Genes Evolve Faster On Secondary Chromosomes In Bacteria, Vaughn S. Cooper, Samuel H. Vohr, Sarah C. Wrocklage, Philip J. Hatcher
Molecular, Cellular & Biomedical Sciences
In bacterial genomes composed of more than one chromosome, one replicon is typically larger, harbors more essential genes than the others, and is considered primary. The greater variability of secondary chromosomes among related taxa has led to the theory that they serve as an accessory genome for specific niches or conditions. By this rationale, purifying selection should be weaker on genes on secondary chromosomes because of their reduced necessity or usage. To test this hypothesis we selected bacterial genomes composed of multiple chromosomes from two genera, Burkholderia and Vibrio, and quantified the evolutionary rates (dN and dS) of all orthologs …
Insertion Sequence Content Reflects Genome Plasticity In Strains Of The Root Nodule Actinobacterium Frankia, Derek M. Bickhart, Johann P. Gogarten, Pascal Lapierre, Louis S. Tisa, Philippe Normand, David R. Benson
Insertion Sequence Content Reflects Genome Plasticity In Strains Of The Root Nodule Actinobacterium Frankia, Derek M. Bickhart, Johann P. Gogarten, Pascal Lapierre, Louis S. Tisa, Philippe Normand, David R. Benson
Molecular, Cellular & Biomedical Sciences
Background: Genome analysis of three Frankia sp. strains has revealed a high number of transposable elements in two of the strains. Twelve out of the 20 major families of bacterial Insertion Sequence (IS) elements are represented in the 148 annotated transposases of Frankia strain HFPCcI3 (CcI3) comprising 3% of its total coding sequences (CDS). EAN1pec (EAN) has 183 transposase ORFs from 13 IS families comprising 2.2% of its CDS. Strain ACN14a (ACN) differs significantly from the other strains with only 33 transposase ORFs (0.5% of the total CDS) from 9 IS families. Results: Insertion sequences in the Frankia genomes were …
Comparative Secretome Analysis Suggests Low Plant Cell Wall Degrading Capacity In Frankia Symbionts, Juliana E. Mastronunzio, Louis S. Tisa, Philippe Normand, David R. Benson
Comparative Secretome Analysis Suggests Low Plant Cell Wall Degrading Capacity In Frankia Symbionts, Juliana E. Mastronunzio, Louis S. Tisa, Philippe Normand, David R. Benson
Molecular, Cellular & Biomedical Sciences
Background: Frankia sp. strains, the nitrogen-fixing facultative endosymbionts of actinorhizal plants, have long been proposed to secrete hydrolytic enzymes such as cellulases, pectinases, and proteases that may contribute to plant root penetration and formation of symbiotic root nodules. These or other secreted proteins might logically be involved in the as yet unknown Molecular interactions between Frankia and their host plants. We compared the genome-based secretomes of three Frankia strains representing diverse host specificities. Signal peptide detection algorithms were used to predict the individual secretomes of each strain, and the set of secreted proteins shared among the strains, termed the core …