111 research outputs found
LibSBML: an API library for SBML
LibSBML is an application programming interface library for reading, writing, manipulating and validating content expressed in the Systems Biology Markup Language (SBML) format. It is written in ISO C and C++, provides language bindings for Common Lisp, Java, Python, Perl, MATLAB and Octave, and includes many features that facilitate adoption and use of both SBML and the library. Developers can embed libSBML in their applications, saving themselves the work of implementing their own SBML parsing, manipulation and validation software
VLANbased Minimal Paths in PC Cluster with Ethernet on Mesh and Torus
Abstract In a PC cluster with Ethernet, well-distribute
Insect Adenine Nucleotide Translocases
Mitochondrial adenine nucleotide translocase (ANT) specifically acts in ADP/ATP exchange through the mitochondrial inner membrane. This transporter protein thereby plays a significant role in energy metabolism in eukaryotic cells. Most mammals have four paralogous ANT genes (ANT1-4) and utilize these paralogues in different types of cells. The fourth paralogue of ANT (ANT4) is present only in mammals and reptiles and is exclusively expressed in testicular germ cells where it is required for meiotic progression in the spermatocytes. Here, we report that silkworms harbor two ANT paralogues, the homeostatic paralogue (BmANTI1) and the testis-specific paralogue (BmANTI2). The BmANTI2 protein has an N-terminal extension in which the positions of lysine residues in the amino acid sequence are distributed as in human ANT4. An expression analysis showed that BmANTI2 transcripts were restricted to the testis, suggesting the protein has a role in the progression of spermatogenesis. By contrast, BmANTI1 was expressed in all tissues tested, suggesting it has an important role in homeostasis. We also observed that cultured silkworm cells required BmANTI1 for proliferation. The ANTI1 protein of the lepidopteran Plutella xylostella (PxANTI1), but not those of other insect species (or PxANTI2), restored cell proliferation in BmANTI1-knockdown cells suggesting that ANTI1 has similar energy metabolism functions across the Lepidoptera. Our results suggest that BmANTI2 is evolutionarily divergent from BmANTI1 and has developed a specific role in spermatogenesis similar to that of mammalian ANT4
Feminizing Wolbachia endosymbiont disrupts maternal sex chromosome inheritance in a butterfly species
Wolbachia is a maternally inherited ubiquitous endosymbiotic bacterium of arthropods that displays a diverse repertoire of host reproductive manipulations. For the first time, we demonstrate that Wolbachia manipulates sex chromosome inheritance in a sexually reproducing insect. Eurema mandarina butterfly females on Tanegashima Island, Japan, are infected with the wFem Wolbachia strain and produce allâfemale offspring, while antibiotic treatment results in male offspring. Fluorescence in situ hybridization (FISH) revealed that wFemâpositive and wFemânegative females have Z0 and WZ sex chromosome sets, respectively, demonstrating the predicted absence of the W chromosome in wFemâinfected lineages. Genomic quantitative polymerase chain reaction (qPCR) analysis showed that wFemâpositive females lay only Z0 eggs that carry a paternal Z, whereas females from lineages that are naturally wFemânegative lay both WZ and ZZ eggs. In contrast, antibiotic treatment of adult wFem females resulted in the production of Z0 and ZZ eggs, suggesting that this Wolbachia strain can disrupt the maternal inheritance of Z chromosomes. Moreover, most male offspring produced by antibioticâtreated wFem females had a ZZ karyotype, implying reduced survival of Z0 individuals in the absence of feminizing effects of Wolbachia. Antibiotic treatment of wFemâinfected larvae induced maleâspecific splicing of the doublesex (dsx) gene transcript, causing an intersex phenotype. Thus, the absence of the femaleâdetermining W chromosome in Z0 individuals is functionally compensated by Wolbachiaâmediated conversion of sex determination. We discuss how Wolbachia may manipulate the host chromosome inheritance and that Wolbachia may have acquired this coordinated dual mode of reproductive manipulation first by the evolution of femaleâdetermining function and then cytoplasmically induced disruption of sex chromosome inheritance
Predicted gene set of the onion thrips (<i>Thrips tabaci</i> L.)
The GFF3 format file, CDS FASTA file and protein FASTA file of the predicted gene set in the genome assembly of the onion thrips (Thrips tabaci L.)</p
- âŚ