Assignment of the gene locus for human phosphoglucomutase 3 to chromosome 6q12-qter

Segregation of human PGM3 has been analyzed in somatic cell hybrids between mouse A9 cells and human fibroblasts carrying a reciprocal translocation: 46,XX, t(6;7) (q12;p14). The enzyme marker segregates with the 7p+ chromosome indicating that the PGM3 gene is located on 6q12 greater than qter.     

Localization of the human myelin basic protein gene (MBP) to region 18q22----qter by in situ hybridization

A restriction endonuclease fragment derived from a cloned portion of human genomic DNA corresponding to the myelin basic protein gene has been used to map the position of this gene by in situ hybridization to human metaphase chromosomes. Ten percent of the radioactively labeled sites observed were on chromosome 18. Eighty-four percent of the grains on chromosome 18 were located within the region corresponding to 18q22----qter. This represents a greater than 10-fold increase in labeling at this position over the background grain distribution found along all of the other chromosomes.     

Assignment of the human aminopeptidase N (peptidase E) gene to chromosome 15q13-qter

The gene for aminopeptidase N (EC 3.4.11.2) has been located on the human chromosome 15q13-qter using HindIII-cleaved DNA from a panel of hybrids between rodent and human cells. The Southern blots were probed by the 5'-EcoRI fragment of the recently cloned human aminopeptidase N cDNA.     

Assignment of the human ferrochelatase gene (FECH) and a locus for protoporphyria to chromosome 18q22.

We have mapped the human gene for ferrochelatase (FECH; ferroheme-protolyase, EC 4.99.1.1) to chromosome 18 by hybridization of cDNA to sorted chromosomes. The probe was obtained by PCR-directed amplification of a human marrow cDNA library in lambda gt 10. Subchromosomal localization of ferrochelatase to 18q22 was determined by chromosomal hybridization in situ using a human ferrochelatase genomic clone in lambda EMBL 3 that contained a 20-kb insert. Since ferrochelatase activity is deficient in patients with the inherited disease erythropoietic protoporphyria, a locus for this disease may be assigned to 18q22, one of few monogenic defects that have been mapped to this chromosome.     

Assignment of the human progesterone receptor to the q22 band of chromosome 11

Summary The human progesterone receptor gene was localized by in situ hybridization to the q22 band of chromosome 11.     

Assignment of the human dihydrofolate reductase gene to the q11----q22 region of chromosome 5.

Cells from a dihydrofolate reductase-deficient Chinese hamster ovary cell line were hybridized to human fetal skin fibroblast cells. Nineteen dihydrofolate reductase-positive hybrid clones were isolated and characterized. Cytogenetic and biochemical analyses of these clones have shown that the human dihydrofolate reductase (DHFR) gene is located on chromosome 5. Three of these hybrid cell lines contained different terminal deletions of chromosome 5. An analysis of the breakpoints of these deletions has demonstrated that the DHFR gene resides in the q11----q22 region.     

Mitochondrial neurogastrointestinal encephalomyopathy syndrome maps to chromosome 22q13.32-qter.

Mitochondrial neurogastrointestinal encephalomyopathy (MNGIE) syndrome is a rare, multisystem disorder characterized clinically by ptosis, progressive external ophthalmoplegia, gastrointestinal dysmotility, leukoencephalopathy, thin body habitus, and myopathy. Laboratory studies reveal defects of oxidative-phosphorylation and multiple mtDNA deletions frequently in skeletal muscle. We studied four ethnically distinct families affected with this apparently autosomal recessive disorder. Probands from each family were shown, by Southern blot, to have multiple mtDNA deletions in skeletal muscle. We mapped the MNGIE locus to 22q13.32-qter, distal to D22S1161, with a maximum two-point LOD score of 6.80 at locus D22S526. Cosegregation of MNGIE with a single chromosomal region in families with diverse ethnic backgrounds suggests that we have mapped an important locus for this disorder. We found no evidence to implicate three candidate genes in this region, by using direct sequence analysis for DNA helicase II and by assaying enzyme activities for arylsulfatase A and carnitine palmitoyltransferase.     

Assignment of the human calpastatin gene (CAST) to chromosome 5 at region q14----q22

The human calpastatin gene (CAST) was assigned to chromosome 5 by spot-blot hybridization analysis with flow-sorted chromosomes, and it was further sublocalized to bands 5q14----q22 using in situ hybridization to metaphase chromosomes.     

Assignment of the human gene for cholesteryl ester transfer protein to chromosome 16q12-16q21

We have used a cDNA probe for human cholesteryl ester transfer protein (CETP) to determine the chromosomal location for the human gene. Southern blot analysis of DNA from 17 independent mouse-human somatic cell hybrids demonstrated the presence of the gene for human CETP on chromosome 16. Regional mapping of the gene by in situ hybridization was consistent with these results and indicated that the gene resides in the 16q12-21 region of the chromosome. These findings provide an additional polymorphic marker for chromosome 16, as several relatively common restriction fragment length polymorphisms of the gene have previously been reported, and they have significance for studies directed at the identification of genetic factors affecting plasma lipoprotein metabolism and atherosclerosis.     

Isolation of anonymous,polymorphic DNA fragments from human chromosome 22q12-qter

Summary A series of 195 random chromosome 22-specific probes, equivalent to approximately 1% of the size of this chromosome, have been isolated from a chromosome 22-specific bacteriophage lambda genomic library. These probes were mapped to four different regions of chromosome 22 on a panel of five somatic cell hybrids. Restriction fragment length polymorphisms were detected by 28 of the probes mapping to 22q12-qter. Evolutionarily conserved sequences in human, mouse, and Chinese hamster DNA were detected by 12% of the isolated probes.     

The human cytochrome P450 CYP3 locus: assignment to chromosome 7q22-qter

Summary DNA haplotypes (HT) and frameworks (FW) linked to the -globin locus were determined by restriction fragment analysis using eight restriction enzymes on chromosomes bearing the HbA gene (HBB^*A) or the HbE gene (HBB^*E) in the So, an Austro-Asiatic population of northeast Thailand with an HBB^*E frequency near 0.5. All HBB^*E genes were present with FW2, and only two haplotypes were observed (25 HT 27-2,-+-++++-; 10 HT 41-2, +----++-). In a control group from the general population of Northeast Thailand the HT distribution was more diverse, and 2 of 20 HBB^*E genes were present in FW 3. High frequencies of HBB^*E in FW 3 in Southeast Asia are apparently limited to the Khmer population of Cambodia. There were no differences in the hematologic parameters in subjects homozygous for HBB^*E/FW2 or HBB^*E/FW3.     

Identification of twelve new RFLP-markers on chromosome 22q11-qter

Summary We have previously identified and regionally localized 195 chromosome-22-specific DNA markers. We now report restriction fragment length polymorphisms detected by 9 phage markers mapped to 22q11-q12, two cosmid clones mapped to 22q12-q13 and one plasmid mapped to 22q13-qter. These markers may be useful tools for mapping disease genes such as the NF2 locus, on chromosome 22.     

Assignment of the developmentally regulated gene NEDD1 to human chromosome 12q22 by fluorescence in situ hybridization

The developmentally regulated mouse gene Nedd 1 encodes a protein showing similarities with the -subunit of heterotrimeric GTP-binding proteins and has growth suppressing activity when overexpressed in various cultured cell types. We have mapped the human homolog (NEDD1) of the mouse gene to chromosome 12q22 by fluorescence in situ hybridization using R-banded human (pro)metaphase chromosomes.     

Assignment of the human ST2 gene to chromosome 2 at q11.2

The humanSt2 locus has been assigned to chromosome 2, using a human ST2 cDNA clone, by a human/rodent somatic cell hybrid mapping panel. TheSt2 locus has also been mapped to chromosome 2811.2, using a human ST2 genomic DNA clone, by in situ hybridization. The locus is very tightly linked to theIl-1r1 locus. Together with the structural similarity of ST2 to IL-1RI, these data suggest functional relationships between these two genes.     

Assignment of the human phosphoserine phosphatase gene (PSP) to the pter leads to q22 region of chromosome 7

Phosphoserine phosphatase (PSP) catalyzes the hydrolysis of phosphoserine to serine. PSP expression has been examined in human-mouse somatic cell hybrids retaining different combination of human chromosomes. Human PSP is expressed only when the pter leads to q22 segment of the human 7 and its enzyme marker beta-glucuronidase (GUSB) are retained in cell hybrids. The structural gene, PSP, is therefore assigned to this region of the human 7.