The database on small ribosomal subunit RNA structure contained 1804 nucleotide sequences on April 23, 1993. This number comprises 365 eukaryotic, 65 archaeal, 1260 bacterial, 30 plastidial, and 84 mitochondrial sequences. These are stored in the form of an alignment in order to facilitate the use of the database as input for comparative studies on higher-order structure and for reconstruction of phylogenetic trees. The elements of the postulated secondary structure for each molecule are indicated by special symbols. The database is available on-line directly from the authors by ftp and can also be obtained from the EMBL nucleotide sequence library by electronic mail, ftp, and on CD ROM disk.
RnaViz is a user-friendly, portable, windows-type program for producing publication-quality secondary structure drawings of RNA molecules. Drawings can be created starting from DCSE alignment files if they incorporate structure information or from mfold ct files. The layout of a structure can be changed easily. Display of special structural elements such as pseudo-knots or unformatted areas is possible. Sequences can be automatically numbered, and several other types of labels can be used to annotate particular bases or areas. Although the program does not try to produce an initially non-overlapping drawing, the layout of a properly positioned structure drawing can be applied to a newly created drawing using skeleton files. In this way a range of similar structures can be drawn with a minimum of effort. Skeletons for several types of RNA molecule are included with the program.
The European Large Subunit Ribosomal RNA Database compiles all complete or nearly complete large subunit ribosomal RNA sequences available from public sequence databases. These are provided in aligned format and the secondary structure, as derived by comparative sequence analysis, is included. Additional information about the sequences such as literature references and taxonomic information is also included. The database is available from our WWW server at http://rrna.uia.ac.be/lsu/.
The Antwerp database on small ribosomal subunit RNA now offers more than 6000 nucleotide sequences (August 1996). All these sequences are stored in the form of an alignment based on the adopted secondary structure model, which is corroborated by the observation of compensating substitutions in the alignment. Besides the primary and secondary structure information, literature references, accession numbers and detailed taxonomic information are also compiled. For ease of use, the complete database is made available to the scientific community via World Wide Web at URL http://rrna.uia.ac.be/ssu/ .
The detailed descriptions now available for the secondary structure of small-ribosomal-subunit RNA, including areas of highly variable primary structure, facilitate the alignment of nucleotide sequences. However, for optimal exploitation of the information contained in the alignment, a method must be available that takes into account the local sequence variability in the computation of evolutionary distance. A quantitative definition for the variability of an alignment position is proposed in this study. It is a parameter in an equation which expresses the probability that the alignment position contains a different nucleotide in two sequences, as a function of the distance separating these sequences, i.e., the number of substitutions per nucleotide that occurred during their divergence. This parameter can be estimated from the distance matrix resulting from the conversion of pairwise sequence dissimilarities into pairwise distances. Alignment positions can then be subdivided into a number of sets of matching variability, and the average variability of each set can be derived. Next, the conversion of dissimilarity into distance can be recalculated for each set of alignment positions separately, using a modified version of the equation that corrects for multiple substitutions and changing for each set the parameter that reflects its average variability. The distances computed for each set are finally averaged, giving a more precise distance estimation. Trees constructed by the algorithm based on variability calibration have a topology markedly different from that of trees constructed from the same alignments in the absence of calibration. This is illustrated by means of trees constructed from small-ribosomal-subunit RNA sequences of Metazoa. A reconstruction of vertebrate evolution based on calibrated alignments matches the consensus view of paleontologists, contrary to trees based on uncalibrated alignments. In trees derived from sequences covering several metazoan phyla, artefacts in topology that are probably due to a high clock rate in certain lineages are avoided.
Bacterial diversity in the water column of a freshwater lake in the Netherlands was investigated by analysis of 16S rRNA gene sequences recovered through PCR amplification from total community DNA. Among 23 unique cloned sequences, two appeared to belong to the recently described bacterial division Verrucomicrobiales. One of the two sequences was most similar to a group of environmental clones that form a distinct lineage within the division. The other sequence was divergent (less than 85% similarity) from all 16S rRNA gene sequences, both from cultivated species and from environmental clones, known in this division to date. Analysis by denaturing gradient gel electrophoresis (DGGE) and sequencing of DNA recovered through excision from the DGGE gel showed that the two sequence types were present in the lake throughout the year.
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