Assignment of 12 loci to rat chromosome 5: evidence that this chromosome is homologous to mouse chromosome 4 and to human chromosomes 9 and 1 (1p arm)

Twelve loci have been assigned to rat chromosome 5: aldolase B (ALDOB), atrial natriuretic factor (ANF = pronatriodilatin, PND), D4RP1, DSI1, galactosyltransferase (GGTB2), glucose transporter (GLUT1), interferon alpha 1 and related interferon alpha (INFA), interferon beta (INFB), lymphocyte-specific protein-tyrosine kinase (LCK), oncogene MOS, alpha 2U-globulin (major urinary protein, MUP), and orosomucoid (ORM, also called alpha 1-acid glycoprotein, AGP). Among these, the interferon alpha and beta genes map in the q22-23 region, which also contains a transformation suppressor gene (SAI1). The other loci reside outside this region. This study also indicated that the rat genome contains 2 LCK genes, unlike the human and murine genomes. These new assignments on rat chromosome 5 demonstrate that this chromosome is highly homologous to mouse chromosome 4 and carries synteny groups conserved on human chromosome 9 (interferon alpha and beta, galactosyltransferase, orosomucoid, and aldolase B genes) and on the short arm of human chromosome 1 (MYCL, glucose transporter, protein kinase LCK, and atrial natriuretic factor genes).     

Identification and localization of MEP1A-like sequences (MEP1AL1-4) in the human genome.

The human MEP1A gene encodes the meprin alpha subunit that consists of a protease domain conserved in the astacin family of metalloendopeptidases and several C-terminal interaction domains present in other proteins. Using the alpha subunit cDNA, we identified two clones from a human P1-derived artificial chromosome (PAC) library. Fluorescence in situ hybridization (FISH) mapped both PACs (1e12, 65a14) to chromosome 6p21, confirming the MEP1A location. FISH also mapped PAC 65a14 to chromosome 13cen, and to chromosome 9 in three different regions, 9p12-13, 9q21, and 9q22. Southern blot analysis showed that sequences of PAC 65a14 and MEP1A were similar in the 3' end but different in the 5' end, revealing for the first time that the human genome may encode multiple interaction domains highly similar to those of the meprin alpha subunit. The symbols of MEP1AL1, MEP1AL2, MEP1AL3, and MEP1AL4 have been designated for MEP1A-like sequences on 9p12-13, 9q21, 9q22, and 13cen, respectively.     

RXRA and HSPA5 map to the telomeric end of dog chromosome 9

Previous results showed that loci from human chromosome 17q (HSA17q) map to the centromeric two-thirds of dog chromosome 9 (CFA9). In these studies fluorescence in situ hybridization (FISH) using a human total chromosome 17 painting probe, indicated that the telomeric one-third of CFA9 must have homology to one or more human chromosomes other than HSA17. Here we report that this distal part of CFA9 contains a segment syntenic to the telomeric end of HSA9q and mouse chromosome 2 (MMU2). The gene loci encoding retinoid X receptor, alpha (RXRA) and heat shock protein 5 (HSPA5 or GRP78), which are found on HSA9q34 and MMU2, occupy a region on CFA9 distal to NF1 and CRYBA1. FISH of a canine specific genomic cosmid clone for RXRA demonstrated the more telomeric localization of this locus to NF1 on CFA9. A linkage map developed for the distal region of CFA9 included: NF1-(2·7 CM )-CRYBA1-(6·5 CM )-RXRA-(22 CM )-HSPA5. The next best order, RXRA-NF1-CRYBA1-HSPA5 with a difference in the log odds of 1·43 does not correspond to our findings with FISH. The most probable map order places HSPA5 distal to RXRA on CFA9 whereas in humans it lies centromeric of RXRA on HSA9q34.     

Further evidence for the dispersion of the human fibrillar collagen genes.

Recombinant DNA probes specific for the human pro alpha 1(II) and pro alpha 1(III) collagen chains have been used for the chromosomal localization of the two genes. Restriction endonuclease analysis of DNA from human-rodent hybrid cell lines in conjunction with in situ hybridization of human metaphasic chromosomes have shown that the gene coding for the pro alpha 1 chain of type II collagen (COL2A1) is located on chromosome 12 in the segment 12q131----12q132. Likewise, the gene coding for the pro alpha 1 chain of type III collagen (COL3A1) was assigned to the segment 2q31----2q323 of chromosome 2.     

Identification and characterization of polymorphisms at the HAS alpha1-acid glycoprotein (ORM*) gene locus in Caucasians

Human alpha(1)-acid glycoprotein (AGP) or orosomucoid (ORM) is a major acute phase protein that is thought to play a crucial role in maintaining homeostasis. Human AGP is the product of a cluster of at least two adjacent genes located on HSA chromosome 9. Using a range of restriction endonucleases we have investigated DNA variation at the locus encoding the AGP genes in a group of healthy Caucasians. Polymorphisms were identified using BamHI, EcoRI, BglII, PvuII, HindIII, TaqI and MspI. Nonrandom associations were found between the BamHI, EcoRI and BglII RFLPs. The RFLPs detected with PvuII, TaqI and MspI were all located in exon 6 of both AGP genes. The duplication of an AGP gene was observed in 11% of the individuals studied and was in linkage disequilibrium with the TaqI RFLP. The identification and characterization of these polymorphisms should prove useful for other population and forensic studies.     

Cloning and developmental regulation of alpha 1 acid glycoprotein in swine

A cDNA clone of porcine alpha 1 acid glycoprotein (alpha 1AGP) has been isolated and sequenced. Sequence homologies between porcine, human, and rat indicate that porcine alpha 1AGP is similar in structure to the rat and human proteins. RNA blots from days 40, 60, 80, and 110 fetal, newborn, and adult livers showed that alpha 1AGP mRNA is relatively abundant throughout fetal development, particularly at the later stages and in the newborn; there is a rapid decline in abundance following birth. From birth to 3 days of age, there is a three- to four-fold decline in abundance, and alpha 1AGP mRNA is approximately 100 times less abundant in the adult liver than in that of perinatal pigs. Southern blots showed that alpha 1AGP is probably a single-copy gene. The isolation of a cloned cDNA for porcine alpha 1AGP provides a tool to investigate the molecular mechanisms involved in the developmental regulation of the gene and to correlate changes in gene expression during development with fetal growth and well being.     

Mapping of class alpha glutathione S-transferase 2 (GST-2) genes to the vicinity of the d locus on mouse chromosome 9

Recombinant inbred strains of mice were used to localize the genes coding for the class alpha glutathione S-transferase 2 (Gst-2). The genes showed three distinct strain distribution patterns, indicating that they occur in at least three clusters separable by recombination. All three clusters are located in the vicinity of the d locus on mouse chromosome 9, but two of them are closer to d than the third. Linked to Gst-2 on mouse chromosome 9 are two enzyme-encoding loci, Pgm-3 and Mod-1. The human counterparts of Gst-2, Pgm-3, and Mod-1 map to 6p12, 6q12, and 6q12, respectively. Thus, the pericentric region of human chromosome 6 has its homolog in the segment spanning Gst-2, Pgm-3, and Mod-1 on mouse chromosome 9. The fact that the syntenic group extends across the centromere of human chromosome 6 can best be explained by a pericentric inversion postulated to have taken place in the primate lineage leading to Catarhini.     

Structure and expression of the genes coding for human alpha 1-acid glycoprotein.

alpha 1-acid glycoprotein (alpha AGP) is a well-characterized human plasma protein. Its structural properties have been studied for many years but little is known about its function. Amino acid sequence analysis of purified human alpha AGP from plasma pooled from several individuals showed considerable heterogeneity. We have cloned the genomic DNA segment encoding alpha AGP and we show that it contains three adjacent alpha AGP coding regions, AGP-A, B and B', identical in exon--intron organization but with slightly different coding potential. These results account for the heterogeneity observed by protein sequencing. Southern blot analysis indicates that the cloned cluster contains all the alpha AGP coding sequences present in the human genome. The larger majority of alpha AGP mRNA in human liver is transcribed from AGP-A, whose promoter and cap site have been determined while the level of AGP-B and B' mRNA in human liver is very low. Using Hep3B hepatoma cells as a model system for the in vitro study of the acute phase reaction, we show that only AGP-A is strongly induced by treatment with culture medium of LPS stimulated monocytes.     

Human collagen gene COL5A1 maps to the q34.2----q34.3 region of chromosome 9, near the locus for nail-patella syndrome.

Type V collagen is a fibrillar collagen that is widely distributed in tissues as a minor component of extracellular matrix and is usually composed of one pro alpha 2 (V) and two pro alpha 1 (V) chains. In this report, recently isolated cDNA and genomic clones, which encode the pro alpha 1 (V) chain, are used as probes for hybridization to filter-bound DNA from a panel of human-mouse hybrid cell lines and for in situ hybridization to metaphase chromosomes. These studies establish the chromosomal location of the COL5A1 gene, which encodes the pro alpha 1 (V) chain, within segment 9q34.2----q34.3. These findings add to the previously characterized dispersion of collagen genes in the human genome, as this is the first example of a collagen locus on chromosome 9. In addition, these studies place COL5A1 near the locus for the genetic disorder, nail-patella syndrome (hereditary osteo-onychodysplasia), which also maps to 9q34.     

Chromosomal localization of GABAA receptor subunit genes: relationship to human genetic disease

Hybridization of GABAA receptor probes to human chromosomes in situ and to DNA from sorted human chromosomes has localized the genes encoding a beta subunit and three isoforms of the alpha subunit. The alpha 2 and beta genes are both located on chromosome 4 in bands p12-p13 and may be adjacent. The alpha 1 gene is on chromosome 5 (bands q34-q35) and the alpha 3 gene is on the X chromosome. The alpha 3 locus was mapped also on the mouse X chromosome using genetic break-point analysis in an interspecies pedigree. The combined results locate the human alpha 3 gene within band Xq28, in a location that makes it a candidate gene for the X-linked form of manic depression.     

Chromosomal localization of the human alpha 1-antitrypsin gene (PI) to 14q31-32.

In situ hybridization of a recombinant cDNA probe containing the human alpha 1-antitrypsin gene to metaphase chromosomes demonstrated significant hybridization to chromosomal segment 14q31-32. A high percentage of cells analyzed (31%) displayed labeling on chromosome 14. Of all labeled sites on chromosome 14, 60% were found on segment 14q31-32. These results refine the previous assignment of the human alpha 1-antitrypsin gene to segment 14q24.1-32.1.     

Cloning and chromosomal localization of human genes encoding the three chains of type VI collagen.

Type VI collagen is a heterotrimer composed of three polypeptide chains, alpha 1(VI), alpha 2(VI), and alpha 3(VI). By immunological screening of an expression cDNA library, human cDNAs specific for each chain were isolated and characterized. Major mRNA species encoding these chains have a size of 4.2 kb (alpha 1), 3.5 kb (alpha 2), and 8.5 kb (alpha 3). The cDNA clones were also used to map the genes on human chromosomes by somatic cell hybrid analysis and in situ hybridization. The alpha 1 (VI) and alpha 2(VI) collagen genes were both located on chromosome 21, in band q223. This represents a third example of a possible physical proximity of two collagen loci. The alpha 3(VI) collagen gene was localized to chromosome 2, in the region 2q37. The alpha 3(VI) collagen gene is the fifth extracellular matrix gene to be localized to 2q, as four other extracellular matrix genes--i.e., the alpha 1(III) and alpha 2(V) collagen genes, the elastin gene, and the fibronectin gene--have been previously mapped to the distal region of the long arm of chromosome 2.     

X-chromosome localization of the functional gene for the E1 alpha subunit of the human pyruvate dehydrogenase complex

The functional gene locus for the E1 alpha subunit of the human pyruvate dehydrogenase complex has been localized to the p22.1-22.2 region of the X chromosome by in situ hybridization and analysis of somatic cell hybrids with various human X-chromosome rearrangements. Another locus showing significant cross-hybridization with an E1 alpha cDNA probe was detected on chromosome 4, in the region q22. The X-chromosome localization of the pyruvate dehydrogenase E1 alpha subunit gene provides a number of possible explanations for the clinical and biochemical variability which is a major feature of human pyruvate dehydrogenase deficiency.     

Chromosomal location of murine and human IL-1 receptor genes.

The gene for the type I interleukin-1 (IL-1) receptor has been mapped in both mouse and human. In the human genome, a combination of segregation analysis of rodent-human hybrid cells and chromosomal in situ hybridization has placed the gene on the long arm of chromosome 2, at band 2q12. This is near the reported map position of the loci for IL-1 alpha and IL-1 beta (2q13----2q21). The murine gene has been mapped by analysis of restriction fragment length polymorphisms in interspecific backcrosses to the centromeric end of chromosome 1, in a region that is syntenic to a portion of human chromosome 2. The murine Il-1r1 gene has thus been separated from the IL-1 genes, which lie on murine chromosome 2.     

Chromosome-type aberrations induced in chromosome 9 after treatment of human peripheral blood lymphocytes with mitomycin C at the G(0) phase.

To determine the fate of chromosome aberrations induced primarily by clastogenic chemicals, aberrations of chromosome 9 in cultured human peripheral blood lymphocytes were analyzed after exposure to mitomycin C (MMC) at G(0) phase. Chromosome 9 painting by fluorescence in situ hybridization revealed that the translocation of 9p or 9q to another chromosome and the centric fragment representing the entire length of 9p were characteristically generated from chromatid-type aberrations involving the centromeric region of chromosome 9. These changes were not observed at 48 h after culture initiation, but persistently appeared at later stages (72-120 h postinitiation). Induction of centric fragments of 9p and micronuclei without the alpha satellite DNA of chromosome 9 suggested that most of the breaks were induced near the alpha satellite DNA locus on 9q. Modified patterns of chromosome 9 aberrations were also observed, being related to the copy number of the short or long arm of the chromosome. Such unbalanced karyotypes could remain in the lymphocyte genome over further cell divisions for at least 120 h after culture initiation, indicating that these aberrant cells can survive and that they could pose a health risk.     

The rearrangement of the human alpha(1)-acid glycoprotein/orosomucoid gene: evidence for tandemly triplicated genes consisting of two AGP1 and one AGP2

The human alpha(1)-acid glycoprotein (AGP) or orosomucoid (ORM) is controlled by the two tandemly arranged genes, AGP1 and AGP2. The further duplication of the AGP1 gene has been suggested by a few duplicated ORM1 locus haplotypes including ORM1*F1. S and ORM1*B9. S, detected by isoelectric focusing. To clarify the triplication of the AGP gene, 39 DNA samples from Japanese subjects were studied by the long-range PCR of intergenic regions. The analysis of PCR products showed that the tandemly triplicated genes, AGP1A-AGP1B-AGP2, occurred on about 20% of chromosomes. These composites were divided into ORM1A*F1-ORM1B*S-ORM2*M and ORM1A*B9-ORM1B*S-ORM2*M by allelic variations. Furthermore, the former was classified into a few haplotypes by three synonymous sequence variations, which might have arisen through gene conversion-like events. The recombination breakpoints existed between the 5' flanking region and intron 2 of the AGP1B gene. Thus, it is likely that the rearrangement of the AGP gene has often occurred.     

Isolation, characterization, and chromosomal mapping of mouse P450 17 alpha-hydroxylase/C17-20 lyase.

Cytochrome P450 17 alpha-hydroxylase/C17-20 lyase (P45017 alpha) catalyzes the conversion of C-21 steroids to C-19 steroids in gonads. A full-length mouse cDNA encoding P450 17 alpha was isolated from a mouse Leydig cell library and characterized by restriction mapping and sequencing. The predicted amino acid sequence has 83% homology to rat, 66% homology to human, and 62% homology to bovine P45017 alpha amino acid sequences. The protein is 507 amino acids in length, which is 1 amino acid shorter than the human protein and 2 amino acids shorter than the bovine protein. The structural gene encoding P450 17 alpha (Cyp17) was localized utilizing an interspecific testcross to mouse chromosome 19, distal to Got-1. Another cytochrome P450, P4502c (Cyp2c), also is located at the distal end of chromosome 19. CYP17, CYP2c, and GOT1 have been mapped to human chromosome 10, with CYP2C and GOT1 mapped to the distal region, q24.3 and q25.3, respectively. The data in the present study indicate conserved syntenic loci on mouse chromosome 19 and human chromosome 10 and predict that the structural gene encoding P45017 alpha will be found distal to GOT1 on human chromosome 10.     

Chromosome assignment of genes encoding the alpha and beta subunits of glycoprotein hormones in man and mouse

The chromosomal locations of the genes for the common alpha subunit of the glycoprotein hormones and the beta subunit of chorionic gonadotropin in humans and mice have been determined by restriction enzyme analysis of DNA isolated from somatic cell hybrids. The CG alpha gene (CGA), detected as a 15-kb BamHI fragment in human DNA by hybridization to CG alpha cDNA, segregated with the chromosome 6 enzyme markers ME1 (malic enzyme, soluble) and SOD2 (superoxide dismutase, mitchondrial) and an intact chromosome 6 in human-rodent hybrids. Cell hybrids containing portions of chromosome 6 allowed the localization of CGA to the q12 leads to q21 region. The greater than 30- and 6.5-kb BamHI CGB fragments hybridizing to human CG beta cDNA segregated concordantly with the human chromosome 19 marker enzymes PEPD (peptidase D) and GPI (glucose phosphate isomerase) and a normal chromosome 19 in karyotyped hybrids. A KpnI-HindIII digest of cell hybrid DNAs indicated that the multiple copies of the CG beta gene are all located on human chromosome 19. In the mouse, the alpha subunit gene, detected by a mouse thyrotropin (TSH) alpha subunit probe, and the CG beta-like sequences (CG beta-LH beta), detected by the human CG beta cDNA probe, are on chromosomes 4 and 7, respectively.     

Mapping of the human C3G gene coding a guanine nucleotide releasing protein for Ras family to 9q34.3 by fluorescence in situ hybridization

C3G, a human guanine nucleotide releasing protein for Ras protein, was mapped to human chromosome 9q34.3 by fluorescence in situ hybridization with Rbanded chromosomes. C3G was originally identified as one of the CRK-binding proteins, similar to c-ab1 (9q34.1). Our result suggests that the downstream factors of Crk are localized in close proximity on chromosome 9.     

Chromosomal localization of seven neuronal nicotinic acetylcholine receptor subunit genes in humans.

We have determined the chromosomal location of seven human neuronal nicotinic acetylcholine receptor subunit genes by genomic Southern analysis of hamster/human somatic cell hybrid DNAs. The beta 2 subunit gene was localized to human chromosome 1, the alpha 2 and beta 3 subunit genes were localized to human chromosome 8, the alpha 3, alpha 5, and beta 4 subunit genes were localized to human chromosome 15, and the alpha 4 subunit gene was localized to human chromosome 20. Mapping of the beta 2 subunit gene to chromosome 1 establishes a syntenic group with the amylase gene locus on human chromosome 1 and mouse chromosome 3, while mapping of the alpha 3 subunit gene to chromosome 15 confirms the existence of a syntenic group with the mannose phosphate isomerase gene locus on human chromosome 15 and mouse chromosome 9.