Characterization and repeat analysis of the compact genome of the freshwater pufferfish Tetraodon nigroviridis.

Tetraodon nigroviridis is a freshwater pufferfish 20-30 million years distant from Fugu rubripes. The genome of both tetraodontiforms is compact, mostly because intergenic and intronic sequences are reduced in size compared to other vertebrate genomes. The previously uncharacterized Tetraodon genome is described here together with a detailed analysis of its repeat content and organization. We report the sequencing of 46 megabases of bacterial artificial chromosome (BAC) end sequences, which represents a random DNA sample equivalent to 13% of the genome. The sequence and location of rRNA gene clusters, centromeric and subtelocentric satellite sequences have been determined. Minisatellites and microsatellites have been cataloged and notable differences were observed in comparison with microsatellites from Fugu. The genome contains homologies to all known families of transposable elements, including Ty3-gypsy, Ty1-copia, Line retrotransposons, DNA transposons, and retroviruses, although their overall abundance is <1%. This structural analysis is an important prerequisite to sequencing the Tetraodon genome.

Estimate of human gene number provided by genome-wide analysis using Tetraodon nigroviridis DNA sequence.

The number of genes in the human genome is unknown, with estimates ranging from 50,000 to 90,000 (refs 1, 2), and to more than 140,000 according to unpublished sources. We have developed 'Exofish', a procedure based on homology searches, to identify human genes quickly and reliably. This method relies on the sequence of another vertebrate, the pufferfish Tetraodon nigroviridis, to detect conserved sequences with a very low background. Similar to Fugu rubripes, a marine pufferfish proposed by Brenner et al. as a model for genomic studies, T. nigroviridis is a more practical alternative with a genome also eight times more compact than that of human. Many comparisons have been made between F. rubripes and human DNA that demonstrate the potential of comparative genomics using the pufferfish genome. Application of Exofish to the December version of the working draft sequence of the human genome and to Unigene showed that the human genome contains 28,000-34,000 genes, and that Unigene contains less than 40% of the protein-coding fraction of the human genome.

Karyotype and chromosome location of characteristic tandem repeats in the pufferfish Tetraodon nigroviridis.

Karyotype analysis of Tetraodon nigroviridis, a pufferfish of the family Tetraodontidae with a small compact genome (385 Mb) which is currently being investigated in our laboratory, indicates that this species has 2n = 42 chromosomes. The small chromosome size (the largest pair measuring less than 3 microm) has complicated accurate chromosome pairing based on morphology alone. DAPI staining, however, provides a banding-like pattern. Because of quantitative variations of some heterochromatin classes, the chromosome formula can not be established precisely, but is estimated to include approximately 20 meta- or submetacentric chromosomes and 22 subtelocentric chromosomes. A centromeric satellite, telomeric repeats, and the major and minor rRNA clusters have been localized unequivocally by FISH. As a result, the 28S and 5S rDNA sequences can be used as chromosome-specific probes.

Analysis of the spermine synthase gene region in Fugu rubripes, Tetraodon fluviatilis, and Danio rerio.

A prerequisite to understanding the evolution of the human X chromosome is the analysis of synteny of X-linked genes in different species. We have focused on the spermine synthase gene in human Xp22. 1. We show that whereas the human gene spans a genomic region of 54 kb, the Fugu rubripes gene is encompassed in a 4.7-kb region. However, we could not find conserved synteny between this region of human Xp22 and the equivalent F. rubripes region. A cosmid clone containing the F. rubripes gene does not contain other X-linked genes. Instead we identified homologs of human genes that are autosomally localized: the ryanodine receptor type I (RYRI), which is implicated in malignant hyperthermia and central core disease, and the HE6 gene. Comparison of the F. rubripes, Tetraodon fluviatilis, mouse, human, and Danio rerio 5'UTRs of spermine synthase highlights conserved sequences potentially involved in regulation. Interestingly, pseudogenes of this gene that are present in the human and mouse genomes seem to be absent in the compact F. rubripes genome. Analysis of a D. rerio PAC clone containing spermine synthase shows an intermediate genomic size in this fish. Sequence analysis of this PAC clone did not reveal other known genes: neither the RYRI gene, nor the HE6 gene, nor other human Xp22 genes were identified.

IXDB, an X chromosome integrated database (update).

Chromosome specific databases are an important research tool as they integrate data from different directions, such as genetic and physical mapping data, expression data, sequences etc. They supplement the genome-wide repositories in molecular biology, such as GenBank, Swiss-Prot or OMIM, which usually concentrate on one type of information. The Integrated X Chromosome Database (IXDB, http://ixdb.mpimg-berlin-dahlem.mpg.de/) is a repository for physical mapping data of the human X chromosome and aims at providing a global view of genomic data at a chromosomal level. We present here an update of IXDB which includes schema extensions for storing submaps and sequence information, additional links to external databases, and the integration of an increasing number of physical and transcript mapping data. The gene data was completely updated according to the approved gene symbols of the HUGO Nomenclature Committee. IXDB receives over 1000 queries per month, an indication that its content is valuable to researchers seeking mapping data of the human X chromosome.

Issues in developing integrated genomic databases and application to the human X chromosome.

MOTIVATION: In the past decade, a vast amount of mapping data has been generated on the human X chromosome, without a mechanism which would provide a global view of exactly what has been achieved. Large datasets are available electronically, but in heterogeneous formats and with incompatible access modes. In addition, relationships between objects in different datasets are often not specified. RESULTS: We discuss the problem of integrating these data into one database and define a number of requirements that are vital for any integration approach. We have developed IXDB, the Integrated X chromosome database, which fulfils those requirements and aims at providing a global view on genomic data at a chromosomal level. IXDB represents a conceptual framework based on identifying, storing and analysing relationships between biological objects, and includes a series of tools to automate the integration of such information. It currently focuses on physical mapping data, as a starting point towards a map of the human X chromosome that should provide a uniform and global research resource for ongoing and future sequencing and functional studies. AVAILABILITY: IXDB is available at http://ixdb.mpimg-berlin-dahlem.mpg.de. The iace2ixdb software and a description of the Iace data format are available from the authors. CONTACT: hrc@genoscope.cns.fr

Oligophrenin-1 encodes a rhoGAP protein involved in X-linked mental retardation.

Primary or nonspecific X-linked mental retardation (MRX) is a heterogeneous condition in which affected patients do not have any distinctive clinical or biochemical features in common apart from cognitive impairment. Although it is present in approximately 0.15-0.3% of males, most of the genetic defects associated with MRX, which may involve more than ten different genes, remain unknown. Here we report the characterization of a new gene on the long arm of the X-chromosome (position Xq12) and the identification in unrelated individuals of different mutations that are predicted to cause a loss of function. This gene is highly expressed in fetal brain and encodes a protein of relative molecular mass 91K, named oligophrenin-1, which contains a domain typical of a Rho-GTPase-activating protein (rhoGAP). By enhancing their GTPase activity, GAP proteins inactivate small Rho and Ras proteins, so inactivation of rhoGAP proteins might cause constitutive activation of their GTPase targets. Such activation is known to affect cell migration and outgrowth of axons and dendrites in vivo. Our results demonstrate an association between cognitive impairment and a defect in a signalling pathway that depends on a Ras-like GTPase.

IXDB, an X chromosome integrated database.

The integrated X chromosome database (IXDB) is a repository for physical mapping data of the human X chromosome. Its current content is the result of a strict integration of data stemming from many different sources. The main features of IXDB include a flexible and extendible schema, a comfortable and fully cross-referenced WWW interface (http://ixdb.mpimg-berlin-dahlem.mpg.de ) and a graphical map viewer implemented in JAVA. The database stores objects used in physical mapping as well as the maps resulting from this work, but a strong emphasis is placed on recording experiments that connect objects together. This should greatly contribute to fulfilling one of the major goals of the database: to support the construction of an integrated physical, genetic, transcript and sequence map of the human X chromosome.

An integrated YAC map of the human X chromosome.

The human X chromosome is associated with a large number of disease phenotypes, principally because of its unique mode of inheritance that tends to reveal all recessive disorders in males. With the longer term goal of identifying and characterizing most of these genes, we have adopted a chromosome-wide strategy to establish a YAC contig map. We have performed > 3250 inter Alu-PCR product hybridizations to identify overlaps between YAC clones. Positional information associated with many of these YAC clones has been derived from our Reference Library Database and a variety of other public sources. We have constructed a YAC contig map of the X chromosome covering 125 Mb of DNA in 25 contigs and containing 906 YAC clones. These contigs have been verified extensively by FISH and by gel and hybridization fingerprinting techniques. This independently derived map exceeds the coverage of recently reported X chromosome maps built as part of whole-genome YAC maps.

A radiation hybrid map spanning the entire human X chromosome integrating YACs, genes, and STS markers.

We present a radiation hybrid (RH) map of human Chromosome (Chr) X, using 50 markers on 72 radiation hybrids. The markers, obtained from the consensus map, form a grid spanning the entire chromosome. To check the RH map, the marker order was determined by analysis of presence or absence of retained human DNA fragments in the RHs; the comparison with the consensus showed a similar order. Any STSs, microsatellites, genes, and clones can be positioned and ordered relative to the marker grid. This approach integrates genetic, physical, and large-scale clone mapping and is used to link YAC contigs containing data from various experimental sources.