Luca Lenzi

Gene expression profile analysis in human T lymphocytes from patients with Down Syndrome.

Down Syndrome (DS) is caused by the presence of three copies of the whole human chromosome 21 (HC21) or of a HC21 restricted region; the phenotype is likely to have originated from the altered expression of genes in the HC21. We apply the cDNA microarray method to the study of gene expression in human T lymphocytes with trisomy 21 in comparison to normal cells.

The murine DSCR1-like (Down Syndrome Candidate Region 1) gene family: conserved synteny with the human orthologous genes

A recently recognized gene family, conserved from yeast to humans, includes Down syndrome candidate region 1 gene (DSCR1), Adapt78 (recognized as the hamster ortholog of the DSCR1 isoform 4), ZAKI-4 (renamed DSCR1-like 1, DSCR1L1) and DSCR1L2 (a novel gene on human chromosome 1), along with yeast and C. elegans single members (Strippoli P., Lenzi L., Petrini M., Carinci P., Zannotti M., 2000. A new gene family including DSCR1 (Down Syndrome Candidate Region 1) and ZAKI-4: characterization from yeast to human and identification of DSCR1-like 2, a novel human member. Genomics 64, 252-263). The proposed family labels were a putative single-strand nucleic acid binding domain similar to the RNA recognition motif, and a unique, highly-conserved serine-proline motif. We have used a bioinformatics-driven molecular biology approach to characterize the murine members of DSCR1-like gene family. Systematic expressed-sequence-tags (EST) database search and reverse-transcription polymerase chain rection (RT-PCR) product sequencing allowed identification of the murine DSCR1, DSCR1L1 and DSCR1L2. The sequences of the respective protein products are of 198, 197 and 241 amino acids, respectively, and are very similar to the corresponding human proteins. The very broad expression pattern of the murine DSCR1 genes is similar to that of the human genes. Using a radiation hybrid panel, we mapped the murine DSCR1-like family members. The murine DSCR1 ortholog is located on the chromosome 16, in a region corresponding to that on human chromosome 21 just upstream of the Down syndrome candidate region. DSCR1L1 and DSCR1L2 murine genes are also located in chromosomal segments of chromosome 17 and 4, respectively, exactly corresponding to those containing the respective human homologs on chromosomes 6 and 1. Description of the mouse orthologs for DSCR1-like genes will allow knockout mice to be obtained for specific family members.

UniGene Tabulator: a full parser for the UniGene format

UNLABELLED UniGene Tabulator 1.0 provides a solution for full parsing of UniGene flat file format; it implements a structured graphical representation of each data field present in UniGene following import into a common database managing system usable in a personal computer. This database includes related tables for sequence, protein similarity, sequence-tagged site (STS) and transcript map interval (TXMAP) data, plus a summary table where each record represents a UniGene cluster. UniGene Tabulator enables full local management of UniGene data, allowing parsing, querying, indexing, retrieving, exporting and analysis of UniGene data in a relational database form, usable on Macintosh (OS X 10.3.9 or later) and Windows (2000, with service pack 4, XP, with service pack 2 or later) operating systems-based computers. AVAILABILITY The current release, including both the FileMaker runtime applications, is freely available at http://apollo11.isto.unibo.it/software/

Cysteine and tyrosine-rich 1 (CYYR1), a novel unpredicted gene on human chromosome 21 (21q21.2), encodes a cysteine and tyrosine-rich protein and defines a new family of highly conserved vertebrate-specific genes.

A novel human gene has been identified by in-depth bioinformatics analysis of chromosome 21 segment 40/105 (21q21.1), with no coding region predicted in any previous analysis. Brain-derived DNA complementary to RNA (cDNA) sequencing predicts a 154-amino acid product with no similarity to any known protein. The gene has been named cysteine and tyrosine-rich protein 1 gene (symbol cysteine and tyrosine-rich 1, CYYR1). The CYYR1 messenger RNA was found by Northern blot analysis in a broad range of tissues (two transcripts of 3.4 and 2.2 kb). The gene consists of four exons and spans about 107 kb, including a very large intron of 85.8 kb. Analysis of expressed sequence tags shows high CYYR1 expression in cells belonging to the amine precursor uptake and decarboxylation system. We also cloned the cDNA of the murine ortholog Cyyr1, which was mapped by a radiation hybrid panel on chromosome 16 within the region corresponding to that containing the respective human homolog on chromosome 21. Sequence and phylogenetic analysis led to identification of several genes encoding CYYR1 homologous proteins. The most prominent feature identified in the protein family is a central, unique cysteine and tyrosine-rich domain, which is strongly conserved from lower vertebrates (fishes) to humans but is absent in bacteria and invertebrates.

Segmental paralogy in the human genome: a large-scale triplication on 1p, 6p, and 21q.

Few cases of large-scale segmental paralogy have been reported in the human genome. We have identified a large (approximately 500 kb) segment on human chromosome (HC) 21 (21q22) that is triplicated on HC 1 (1p35) and HC 6 (6p12-21). We also identified a new member of CLIC (Chloride Intracellular Channel) family on 21q, namely CLIC6. All three segments appear to include three functional members of three different gene families: DSCR1-like (Down Syndrome Candidate Region 1-like), CLIC, and AML/Runt (Acute Myeloid Leukemia/Runt). Molecular evolution analysis shows a common evolutionary origin for the triplicated regions. This finding of a further large-scale genomic triplication that went undetected at previously systematic automated searches provides a new model for gene divergence study and underlines the need for new tools to effectively detect inter-chromosomal similarity. An algorithm to overcome current limitations is proposed.