Progress in Arabidopsis genome sequencing and functional genomics.

Arabidopsis thaliana has a relatively small genome of approximately 130 Mb containing about 10% repetitive DNA. Genome sequencing studies reveal a gene-rich genome, predicted to contain approximately 25000 genes spaced on average every 4.5 kb. Between 10 to 20% of the predicted genes occur as clusters of related genes, indicating that local sequence duplication and subsequent divergence generates a significant proportion of gene families. In addition to gene families, repetitive sequences comprise individual and small clusters of two to three retroelements and other classes of smaller repeats. The clustering of highly repetitive elements is a striking feature of the A. thaliana genome emerging from sequence and other analyses.

Interspecific and progeny relationships in the genus Stylosanthes inferred from chloroplast DNA sequence variation.

The chloroplast trnL (UAA) intron and trnL (UAA)-trnF (GAA) intergenic spacer region have been sequenced from 37 samples, 36 of which representing 19 Stylosanthes species and one from the related genus Zornia. The DNA sequences were used to study phylogenetic relationships in the tropical forage legume genus Stylosanthes, by means of parsimony analysis using the heuristic search method of the computer program PAUP. The resulting cladograms divide Stylosanthes into four separate clades. Within the clades, species are poorly resolved owing to low sequence divergence. Small intra-specific chloroplast DNA variation is observed in S. humilis, S. scabra and the species complex S. guianensis. Variation between S. humilis populations is considered to be geographically structured. The overall results agree well with previously established inter-specific relationships and provide evidence for the genetic origin of the alloploid species S. hamata, S. scabra, S. ingrata, S. sympodialis, S. subsericea, S. capitata and S. fruticosa. This understanding of evolutionary relationships in Stylosanthes, in combination with biogeographical concepts provides a way of discerning isolated habitats in Central and South America, which may therefore contribute to strategies of plant collecting.

Sequence and analysis of chromosome 4 of the plant Arabidopsis thaliana.

The higher plant Arabidopsis thaliana (Arabidopsis) is an important model for identifying plant genes and determining their function. To assist biological investigations and to define chromosome structure, a coordinated effort to sequence the Arabidopsis genome was initiated in late 1996. Here we report one of the first milestones of this project, the sequence of chromosome 4. Analysis of 17.38 megabases of unique sequence, representing about 17% of the genome, reveals 3,744 protein coding genes, 81 transfer RNAs and numerous repeat elements. Heterochromatic regions surrounding the putative centromere, which has not yet been completely sequenced, are characterized by an increased frequency of a variety of repeats, new repeats, reduced recombination, lowered gene density and lowered gene expression. Roughly 60% of the predicted protein-coding genes have been functionally characterized on the basis of their homology to known genes. Many genes encode predicted proteins that are homologous to human and Caenorhabditis elegans proteins.