1,321 research outputs found
Almost all human genes resulted from ancient duplication
Results of protein sequence comparison at open criterion show a very large number of relationships that have, up to now, gone unreported. The relationships suggest many ancient events of gene duplication. It is well known that gene duplication has been a major process in the evolution of genomes. A collection of human genes that have known functions have been examined for a history of gene duplications detected by means of amino acid sequence similarity by using BLASTp with an expectation of two or less (open criterion). Because the collection of genes in build 35 includes sets of transcript variants, all genes of known function were collected, and only the longest transcription variant was included, yielding a 13,298-member library called KGMV (for known genes maximum variant). When all lengths of matches are accepted, >97% of human genes show significant matches to each other. Many form matches with a large number of other different proteins, showing that most genes are made up from parts of many others as a result of ancient events of duplication. To support the use of the open criterion, all of the members of the KGMV library were twice replaced with random protein sequences of the same length and average composition, and all were compared with each other with BLASTp at expectation two or less. The set of matches averaged 0.35% of that observed for the KGMV set of proteins
Is mammalian chromosomal evolution driven by regions of genome fragility?
BACKGROUND: A fundamental question in comparative genomics concerns the identification of mechanisms that underpin chromosomal change. In an attempt to shed light on the dynamics of mammalian genome evolution, we analyzed the distribution of syntenic blocks, evolutionary breakpoint regions, and evolutionary breakpoints taken from public databases available for seven eutherian species (mouse, rat, cattle, dog, pig, cat, and horse) and the chicken, and examined these for correspondence with human fragile sites and tandem repeats. RESULTS: Our results confirm previous investigations that showed the presence of chromosomal regions in the human genome that have been repeatedly used as illustrated by a high breakpoint accumulation in certain chromosomes and chromosomal bands. We show, however, that there is a striking correspondence between fragile site location, the positions of evolutionary breakpoints, and the distribution of tandem repeats throughout the human genome, which similarly reflect a non-uniform pattern of occurrence. CONCLUSION: These observations provide further evidence that certain chromosomal regions in the human genome have been repeatedly used in the evolutionary process. As a consequence, the genome is a composite of fragile regions prone to reorganization that have been conserved in different lineages, and genomic tracts that do not exhibit the same levels of evolutionary plasticity
Scientific vocation in danger: the university professor in the global era
Being a professor at university demands thinking about vocation along life. And not only about ones¿ vocation but also about others¿. Vocation for teaching, vocation for learning, vocation for science¿ Vocation is so important that merits a philosophical approach. Following one¿s own vocation is perhaps the most important task everyone has to do in one¿s own life. Following the dictates of personal vocation is without a doubt guarantor of a full, authentic life. And, on the contrary, not following the personal vocation can be one of the reasons for living a life without meaning. Personal vocation as a task, according to Julián Marías¿ philosophy, is introduced in this work, together with the concept of enthusiasm immersed into the vocational pathway. Vocation among university professors seems to be in danger in the global world. Possible causes for it are analyzed
trimAl: a tool for automated alignment trimming in large-scale phylogenetic analyses
Summary: Multiple sequence alignments are central to many areas of bioinformatics. It has been shown that the removal of poorly aligned regions from an alignment increases the quality of subsequent analyses. Such an alignment trimming phase is complicated in large-scale phylogenetic analyses that deal with thousands of alignments. Here, we present trimAl, a tool for automated alignment trimming, which is especially suited for large-scale phylogenetic analyses. trimAl can consider several parameters, alone or in multiple combinations, for selecting the most reliable positions in the alignment. These include the proportion of sequences with a gap, the level of amino acid similarity and, if several alignments for the same set of sequences are provided, the level of consistency across different alignments. Moreover, trimAl can automatically select the parameters to be used in each specific alignment so that the signal-to-noise ratio is optimized
Panobinostat potentiates temozolomide effects and reverses epithelial-mesenchymal transition in glioblastoma cells
Glioblastoma is the most common form of glioma, as well as the most aggressive. Patients
suffering from this disease have a very poor prognosis. Surgery, radiotherapy, and temozolomide
are the only approved treatments nowadays. Panobinostat is a pan-inhibitor of histone deacetylases
(HDACs) that has been shown to break some pathways which play an important role in cancer
development. A global intention of using panobinostat as a therapeutic agent against glioblastoma
is beginning to be a reality. We have treated the LN405 glioblastoma cell line with temozolomide,
panobinostat, and combined treatment, in order to test apoptosis, colony formation, and a possible
molecular reversion of the mesenchymal phenotype of the cells to an epithelial one. Our results
show that panobinostat decreased N-cadherin levels in the LN405 glioblastoma cell line while it
increased the expression of E-cadherin, which might be associated with a mesenchymal–epithelial
transition in glioblastoma cells. Colony formation was reduced, and apoptosis was increased with
treatments. Our research highlights the importance of panobinostat as a potential adjuvant therapy
to be used with temozolomide to treat glioblastoma and the advantages of the combined treatment
versus temozolomide alone, which is currently the first-line treatment used to treat this tumo
Topological variation in single-gene phylogenetic trees
A large-scale phylogenetic study of the human lineage dramatically points up the problems of using single genes to build phylogenetic trees
TranslatorX: multiple alignment of nucleotide sequences guided by amino acid translations
We present TranslatorX, a web server designed to align protein-coding nucleotide sequences based on their corresponding amino acid translations. Many comparisons between biological sequences (nucleic acids and proteins) involve the construction of multiple alignments. Alignments represent a statement regarding the homology between individual nucleotides or amino acids within homologous genes. As protein-coding DNA sequences evolve as triplets of nucleotides (codons) and it is known that sequence similarity degrades more rapidly at the DNA than at the amino acid level, alignments are generally more accurate when based on amino acids than on their corresponding nucleotides. TranslatorX novelties include: (i) use of all documented genetic codes and the possibility of assigning different genetic codes for each sequence; (ii) a battery of different multiple alignment programs; (iii) translation of ambiguous codons when possible; (iv) an innovative criterion to clean nucleotide alignments with GBlocks based on protein information; and (v) a rich output, including Jalview-powered graphical visualization of the alignments, codon-based alignments coloured according to the corresponding amino acids, measures of compositional bias and first, second and third codon position specific alignments. The TranslatorX server is freely available at http://translatorx.co.uk
- …