Generic isomorphism classes of abelian groups

We prove that the universal solenoid is the generic (in the sense of Baire category) connected compact metrizable abelian group. We also settle the dual problem in the sense of Pontryagin duality: $(\mathbb{Q},+)$, which is the dual of the universal solenoid, is the generic countably infinite torsion-free abelian group.Comment: 13 page

DoOP: Databases of Orthologous Promoters, collections of clusters of orthologous upstream sequences from chordates and plants

DoOP (http://doop.abc.hu/) is a database of eukaryotic promoter sequences (upstream regions) aiming to facilitate the recognition of regulatory sites conserved between species. The annotated first exons of human and Arabidopsis thaliana genes were used as queries in BLAST searches to collect the most closely related orthologous first exon sequences from Chordata and Viridiplantae species. Up to 3000 bp DNA segments upstream from these first exons constitute the clusters in the chordate and plant sections of the Database of Orthologous Promoters. Release 1.0 of DoOP contains 21 061 chordate clusters from 284 different species and 7548 plant clusters from 269 different species. The database can be used to find and retrieve promoter sequences of a given gene from various species and it is also suitable to see the most trivial conserved sequence blocks in the orthologous upstream regions. Users can search DoOP with either sequence or text (annotation) to find promoter clusters of various genes. In addition to the sequence data, the positions of the conserved sequence blocks derived from multiple alignments, the positions of repetitive elements and the positions of transcription start sites known from the Eukaryotic Promoter Database (EPD) can be viewed graphically

Different types of genes according to the positions of the first mRNA and coding (cds) exons

<p>Different types of genes according to the positions of the first mRNA and coding (cds) exons. The types 5 and 6 fall into different subcategories based on the number of the first coding exon. If it is the second as in this figure,we call it type 52 or 62, but otherwise we are referring to them generally as 5n or 6n. The positions of the query sequences relative to the first exons are marked with green boxes, while the 500,1000 and 3000bp upstream regions that have been put into the database are marked with red boxes.</p

DoOP chordate v1.0 dataset

<p>Promoter sequences, alignments and conserved motifs for the DoOP database, chordate section, v1.0.</p

DoOP plants v1.3 dataset

<p>Promoter sequences, alignments and conserved motifs for the DoOP database, plant section, v1.3.</p

DoOP chordate v1.1 dataset

<p>Promoter sequences, alignments and conserved motifs for the DoOP database, chordate section, v1.1.</p

DoOP plants v1.2 dataset

<p>Promoter sequences, alignments and conserved motifs for the DoOP database, plant section, v1.2.</p

DoOP chordate v1.4 dataset, motif data for 3000 nt promoter regions

<p>3000 nt promoter motifs for the DoOP database, chordate section, v1.4.</p

A növényi adatbázis készítésének folyamata

<p>A növényi adatbázis készítésének folyamata.</p