Isolation and characterization of a human heart cDNA encoding a new member of the small heat shock protein family--HSPL27.

A novel cDNA clone was isolated from a human adult heart cDNA library. This cDNA clone is similar to the small heat shock protein (smhsp) in both DNA and amino acid sequences, especially in the conserved region. Sequence analysis has shown that the putative novel smhsp, named 27 kDa heat-shock-protein-like protein (HSPL27) is a protein of 241 amino acids with a deduced molecular mass of 26.7 kDa and a deduced pI of 8.0. We have expressed the HSPL27 in E. coli and the expressed protein was found to be present in the soluble fraction of the bacterial cell lysate. Chromosomal mapping data shows that the HSPL27 gene is located at human chromosome 5q11.2.

A novel cDNA encoding a human homologue of ribosomal protein L29.

During the large scale partial sequencing of human heart cDNA clones, a novel clone which is very similar to the rat ribosomal protein L29 in both DNA and amino acid sequences was found. The cDNA encodes a protein with a deduced molecular weight of 17751 (159 aa). It shows 80.4% homology to protein L29 from the large ribosomal subunit of rat and is related to yeast YL43. The putative protein was named human ribosomal protein L29 (hRPL29). hRPL29 has a large excess of basic residues over acidic ones. The large amount of charged residues makes the protein very hydrophilic and the protein has a deduced pI of 12.16. Internal repeats have been characterised in many ribosomal proteins and a tandem repeat of KAKAKAKA was found to be unique to hRPL29. Analysis of gene organisation by Southern blotting shows that of the approximate 10 copies of hrpL29, all but one are pseudogenes. Northern analysis indicated that the mRNA that encodes human L29 is approx. 800 base pairs in length. An intron of hrpL29 has also been cloned and sequenced by polymerase chain reaction using human genomic DNA as the template.

Mapping of the human ribosomal large subunit protein gene RPL29 to human chromosome 3q29-qter.

The human ribosomal protein L29, which we reported previously, was subsequently shown to have the same nucleotide sequence as that of cell surface heparin/heparan sulfate-binding protein, designated HP/HS interacting protein. A polymerase chain reaction-based strategy was used to distinguish the functional intron-containing gene RPL29 (HGMW-approved symbol) from multiple pseudogenes. By somatic cell hybrid analysis, radiation hybrid mapping, and fluorescence in situ hybridization, we have located RPL29 on the telomeric region of the q arm of chromosome 3. RPL29 is the most distal marker of the long armof chromosome 3. Of the human ribosomal protein genes mapped, RPL29 is the shortest distance from another ribosomal protein gene marker, RPL35 a which has also been mapped to the 3q29-qter region.

Radiation hybrid mapping of human cytosolic malate dehydrogenase (hcMDH) to the short arm of chromosome 2.

Compartmentalization of human cytosolic malate dehydrogenase, hcMDH, together with its isozyme partner-mitochondrial form, hmMDH, plays an important role in the aerobic metabolism of the malate-aspartate shuttle and the citric acid cycle. However, they share few structural homology at the molecular level. The pseudogenes of mMDH has been reported in mice but hcMDH has no pseudogenes as shown by Southern blot analysis. A single band only was detected for the EcoRI digestion with 9.4 kb long of human genomic DNA and HindIII cutting with 2.8 kb long. hcMDH gene was mapped to chromosome 2 by somatic cell hybrid analysis and further localised to 268.72 cR from the top telomere of Chromosome 2 (near 2p15) by radiation hybrid mapping. The genes falling into this region may be related to dilated cardiomyopathy (DCM), several types of cancers and immunoregulation mechanism of cancers.