Chromosomal assignments of human genes for serine proteases trypsin, chymotrypsin B, and elastase

Structural characterization and mapping of the normal epithelial cell-specific 1 gene

The normal epithelial cell-specific 1 (NES1) gene is a recently identified novel serine protease-like gene which is down-regulated during breast cancer progression. The gene product has 34-42% identity with the members of three distinct serine protease families: the trypsin-like family, activators of kringle domain-containing growth factors, and the kallikrein family (X. L. Liu et al., (1996) Cancer Res 56, 3371-3379). Although the cDNA of this gene has been cloned, its genomic structure and chromosomal position are not as yet known. Here, we report the genomic characterization and mapping of the NES1 gene. By subcloning and sequencing a PAC clone containing the complete NES1 gene, we were able to characterize the structure of this gene. The NES1 gene spans 5.5 kb and is composed of five coding exons and one untranslated exon. The positions of the introns were similar to trypsinogen, prostate specific antigen (PSA), and tissue plasminogen activator (TPA). NES1 gene was also localized with somatic cell mapping, radiation hybrid mapping, and fluorescence in situ hybridization techniques to chromosome 19q13.3-q13.4, the same region where the human kallikrein gene family resides. Taken together, our results suggest that the NES1 gene originates from the same ancestor as trypsinogen, PSA, and TPA, but remains in close proximity to PSA.

Genomic cloning and partial characterization of human chymotrypsinogen gene

Chymotrypsinogen is a principal precursor of pancreatic proteolytic enzymes. We previously isolated a cDNA clone for human prechymotrypsinogen from a human pancreatic cDNA library. In the present study, we used this cDNA sequences to isolate genomic DNA clones. Three overlapping cosmid clones spanning approximately 65-kb genomic sequences were isolated from a human cosmid library. The genomic DNA clones were characterized by restriction enzyme mapping and by hybridizing them to subfragments of the cDNA. The sequence tagged sites for human chymotrypsinogen gene were created by designing two oligonucleotides. Furthermore, the isolated genomic clones were confirmed to be localized on chromosome 16q23 by fluorescence in situ hybridization and G-banding analysis.

Molecular cloning and localization to chromosome 6 of mouse INT1L1 gene

The human INT1L1 gene, which exhibits homology to the protooncogene INT1 is very closely linked to the MET gene and cystic fibrosis locus on human chromosome 7. In the present study we have isolated overlapping genomic clones that correspond to the mouse homolog of the INT1L1 gene and have used the cloned DNA as probes to examine the distribution of the mouse INT1L1 gene within a series of 35 mouse-hamster somatic cell hybrids. These analyses have localized the INT1L1 gene to mouse chromosome 6. In addition, we demonstrate that the mouse INT1L1 and MET genes are coamplified in lines of spontaneously transformed mouse NIH3T3 cells, indicating that these genes may remain closely linked within the mouse genome.

cDNA sequence, interspecies comparison, and gene mapping analysis of argininosuccinate lyase

A cDNA clone of the argininosuccinate lyase gene (ASL) was isolated from an adult human liver library by probing with synthetic oligonucleotide probes. This clone and a yeast genomic DNA fragment containing the ASL gene were sequenced using the M13-dideoxynucleotide method. Comparison of the yeast and human clones at the nucleotide and putative amino acid sequence levels indicated identities of 50 and 54%, respectively. The most conserved region of the yeast gene was used to detect human clones in the liver cDNA library to test phylogenetic screening capabilities of conserved genes. ASL was mapped to human chromosome 7pter----q22 using human-mouse somatic cell hybrid DNA and further mapped by in situ hybridization to chromosome 7cen----q11.2 on human metaphase chromosomes. The probe also detected a sequence on chromosome 22. Somatic cell hybrid DNA digested with PvuII revealed a mouse polymorphism between Balb/c and C3H mice in the ASL gene.

Tyrosine aminotransferase and chymotrypsinogen B are linked to haptoglobin on human chromosome 16q: comparison of genetic and physical distances

The loci for haptoglobin (HP) and tyrosine aminotransferase (TAT) are known to reside at 16q22. Chymotrypsinogen B (CTRB), which is syntenic with TAT and HP on mouse chromosome 8, has also been assigned to human chromosome 16 but has not been mapped regionally. A linkage analysis was carried out in 13 informative families using RFLPs for these three markers. For CTRB, two TaqI RFLPs with a polymorphism information content of 0.60 derived from haplotype frequencies are described. The most likely order of loci, deduced from triple informative crosses, and their map distances, obtained by pair-wise linkage analysis, are HP-7 cM-TAT-9 cM-CTRB. By pulsed-field gel electrophoresis, a physical map covering more than 2000 kb was constructed. A maximum physical distance of about 700 kb was obtained for HP and TAT, which contrasts with the genetic distance of 7 cM (approximate confidence limits 2-18 cM). CTRB is at least 800 kb away from these two markers.

Chromosomal assignments of genes for tissue plasminogen activator and urokinase in mouse

The genes encoding the two plasminogen activators, tissue plasminogen activator and urokinase, were mapped to mouse chromosomes using probes derived from the respective mouse cDNAs. DNA from mouse-Chinese hamster and mouse-rat somatic cell hybrids was digested with BamHI and EcoRI, respectively, and analyzed by Southern blot hybridization for the segregation of the two genes. Tissue plasminogen activator and urokinase cosegregated with mouse chromosomes 8 and 14, respectively. The plasminogen activator genes thus fall into two syntenic groups that are conserved in human and mouse.

Chromosome maps of man and mouse, III

Data on loci whose positions are known in both man and mouse are presented in the form of chromosomal displays, a table, and autosomal and X-chromosomal grids. At least 40 conserved autosomal segments with two or more loci, as well as 17 homologous X-linked loci, are now known in the two species, in which mitochondrial DNA is also highly conserved. Apart from the Y, the only chromosome now lacking a conserved group is human 13. Human 17 has a single conserved group which includes both short and long arms, and so may have remained largely intact in mammalian evolution. Human and mouse chromosomal maps show the approximate locations of homologous genes while the mouse map also shows the positions of translocations used in gene location.

Cognate homeo-box loci mapped on homologous human and mouse chromosomes

The homeotic genes of Drosophila, which regulate pattern formation during larval development, contain a 180-base-pair DNA sequence termed the "homeo-box." Nucleotide sequence comparisons indicate that the homeo-box motif is highly conserved in a variety of motazoan species. As in Drosophila, homeo-box sequences of mammalian species are expressed in a temporal and tissue-specific pattern during embryogenesis. These observations suggest functional homologies between dipteran and mammalian homeo-box gene products. To identify possible relationships between homeo-box genes of mice and humans, we have compared the chromosomal location of homeo-box genes in these species. Using in situ hybridization and somatic cell genetic techniques, we have mapped the chromosome 6-specific murine Hox-1 homolog to the region p14-p21 on human chromosome 7. We have also regionally mapped the murine Hox-3 locus to 15F1-3 and its human cognate to 12q11-q21. These comparative mapping data indicate that a syntenic relationship in mice and humans is maintained for all homeo-box loci examined to date. We suggest these regions represent evolutionarily conserved genomic domains encoding homologous protein products that function in regulating patterns of mammalian development.

Assignment of the gene for carboxypeptidase A to human chromosome 7q22----qter and to mouse chromosome 6

A rat cDNA probe for preprocarboxypeptidase A was used to follow the segregation of the human gene for carboxypeptidase A (CPA) in 49 human X mouse somatic cell hybrids using Southern filter hybridization techniques. CPA was assigned to human chromosome 7q22----qter. Similarly, the probe was used to follow the segregation of the mouse gene for carboxypeptidase A (Cpa) in 19 mouse X Chinese hamster somatic cell hybrids. Cpa was assigned to mouse chromosome 6. The gene for carboxypeptidase A forms part of a syntenic group that is conserved in man and mouse.

Chromosomal assignments of genes for trypsin, chymotrypsin B, and elastase in mouse

The mouse genes for the serine proteases trypsin (Try-1), chymotrypsin B (Ctrb), and elastase (Ela-1) were chromosomally assigned using Southern blot hybridization of mouse X Chinese hamster cell hybrid DNA. cDNA probes for the three genes were hybridized to cell hybrid DNA cleaved with BamHI or HindIII and the segregation of Try-1, Ctrb, and Ela-1 was correlated with the segregation of mouse chromosomes. Try-1 is located on chromosome 6, Ctrb is on chromosome 8, and Ela-1 is on chromosome 15. The three genes fall into three syntenic groups that are conserved in the mouse and human genomes.