Gene expression in rat dermal papilla cells: analysis of 2529 ESTs.

Dermal papilla (DEPA) cells are resident at the base of hair follicles and are fundamental to hair growth and development. Cultured DEPA cells, in contrast to normal fibroblast cells, are capable of inducing de novo hair follicle growth in vivo. By differential screening of a DEPA cDNA library, we have demonstrated that dermal papilla cells are different from fibroblasts at the molecular level. We further studied these cells by random sequencing of 5130 clones from the DEPA cDNA library. Fifty percent had a BLASTX E value < or =1 x 10(-25). Twenty-one percent had similarity to proteins involved in cell structure/motility with 4 of the top 10 most abundant clones encoding extracellular matrix proteins. Clones encoding growth factor molecules were also abundant. The remaining 50.7% of clones had low similarity scores, demonstrating many novel molecules. For example, we identified a new CTGF family member, the rat homologue of Elm1.

Cereal genome analysis using rice as a model.

Researchers are eagerly waiting for the physical map of rice to become completed and available for use as a model for all cereals. The most significant advances of the past year have been the progress toward positional cloning of genes and the identification of quantitative trait loci (QTL) from detailed restriction fragment length polymorphism maps. Future focus will be: first, the enhanced dissemination and integration of the available data in World Wide Web accessible databases for easy comparison of genetic and physical mapping data across various species; second, the expanded distribution of a wide variety of DNA materials (cDNA clones, yeast artificial chromosomes, bacterial artificial chromosomes and other probes) for use in other cereals on the basis of the rice model map; and third, the applied breeding by locating and isolating sequences corresponding to important agronomic traits, often correlating with QTL.

Characterization and genetic mapping of simple sequence repeats in the rice genome.

We searched partial sequences of over 22,706 rice cDNA and 1220 genomic DNA clones to find and characterize simple sequence repeats (SSRs) in the rice genome. The most frequently found repeated SSR motif in both cDNA and genomic DNA sequences was d(CCG/CGG)n. The second most frequently found SSR was d(AG/CT)n. In contrast with mammalian genomes, in which d(AC/GT)n sequences are the most abundant, d(AG/GT)n sequences were not frequently observed in rice. Sequences containing d(CCG/CGG)n, d(AG/CT)n repeats, and other SSRs were chosen for polymorphism detection. It was predicted that 17 of 20 SSRs in cDNA sequences were located in 5'-untranslated regions near initiation codons. Twenty-two loci can be mapped on our RFLP linkage map by these SSRs. Six markers were tested with 16 japonica rice varieties as templates for PCR. Two markers exhibited amplified fragment length polymorphism among these rice varieties, implying that SSRs are polymorphic among rice varieties which have similar genetic backgrounds. Even these polymorphic SSRs are located within or around genes which code ubiquitous proteins.