cDNA sequence and chromosomal localization of human platelet-derived growth factor A-chain and its expression in tumour cell lines.

The amino-acid sequence of the precursor of the human tumour cell line-derived platelet-derived growth factor (PDGF) A-chain has been deduced from complementary DNA clones and the gene localized to chromosome 7. The protein shows extensive homology to the PDGF B-chain precursor. Expression of the PDGF A-chain gene is independent of that of the PDGF B-chain in a number of human tumour cell lines, and secretion of a PDGF-like growth factor of relative molecular mass 31,000 correlates with expression of A- but not B-chain messenger RNA.

Molecular genetics of inherited variation in human color vision.

The hypothesis that red-green "color blindness" is caused by alterations in the genes encoding red and green visual pigments has been tested and shown to be correct. Genomic DNA's from 25 males with various red-green color vision deficiencies were analyzed by Southern blot hybridization with the cloned red and green pigment genes as probes. The observed genotypes appear to result from unequal recombination or gene conversion (or both).

Genes encoding pancreatic polypeptide and neuropeptide Y are on human chromosomes 17 and 7.

Pancreatic polypeptide and neuropeptide Y share 50% amino acid homology (18 out of 36 residues), suggesting that they may have common ancestral origins. cDNA clones complementary to human mRNAs encoding pancreatic polypeptide and neuropeptide Y were used to detect specific human genomic DNA sequences in human-mouse somatic cell hybrid lines. The pancreatic polypeptide gene (PPY) segregated with human chromosome 17, while the neuropeptide Y gene (NPY) segregated with human chromosome 7.

Sialidosis and galactosialidosis: chromosomal assignment of two genes associated with neuraminidase-deficiency disorders.

The inherited human disorders sialidosis and galactosialidosis are the result of deficiencies of glycoprotein-specific alpha-neuraminidase (acylneuraminyl hydrolase, EC 3.2.1.

Heterogeneity of N-acetylglucosamine 1-phosphotransferase within mucolipidosis III.

The primary defect responsible for mucolipidosis III is a deficiency of UDP-N-acetylglucosamine:lysosomal enzyme N-acetylglucosamine 1-phosphotransferase activity (GlcNAc phosphotransferase). Genetic complementation analysis of cultured fibroblasts derived from 12 patients with mucolipidosis III identified complementation groups A, B, and C (Honey, N. K.

Chromosome 1 localization of the human alpha-L-fucosidase structural gene with a homologous site on chromosome 2.

Two cDNA clones coding for human alpha-L-fucosidase, one from the coding region and the other primarily from the 3' untranslated region, were used to map the location of the alpha-L-fucosidase gene. Southern filter analysis of somatic cell hybrid lines mapped the structural gene to the short arm of human chromosome 1, and in situ hybridization to chromosomes of human leukocytes further localized the homologous area to the 1p36.1----p34.

Human genes for insulin-like growth factors I and II and epidermal growth factor are located on 12q22----q24.1, 11p15, and 4q25----q27, respectively.

The genes coding for insulin-like growth factors I and II and epidermal growth factor have been localized to human chromosomes 12q22----q24.1, 11p15, and 4q25----q27, respectively.

Assignment of the pepsinogen gene complex (PGA) to human chromosome region 11q13 by in situ hybridization.

The genes coding for human pepsinogen (PGA3, PGA4, and PGA5) were assigned to chromosome region 11q13 by in situ hybridization. Previously we localized the PGA gene complex to a centromeric region of chromosome 11 (p11----q13) by Southern blot analysis of mouse-human somatic cell hybrids. Our in situ hybridization results confirm this assignment and further localize the genes to a smaller region on the long arm.

The gene for human transforming growth factor alpha is on the short arm of chromosome 2.

Transforming growth factor alpha is a polypeptide growth factor that participates in the reversible transformation of cells in vitro and is secreted by many transformed cell lines. It also shares sequence and functional homologies with epidermal growth factor. Working with a cloned cDNA probe (lambda hTGF1-10) and derivatives, we have mapped this gene (TGFA) to 2p13 with the use of somatic cell hybrids and in situ hybridization.

Assignment of the human fibronectin structural gene to chromosome 2.

A cloned human cDNA probe for fibronectin (FN) containing 1.3 kb of the human FN coding region has been used to determine the chromosome that encodes the structural gene in human-mouse somatic cell hybrids. The results show that human chromosome 2 encodes the FN structural gene.

The chromosome 11 gene map: genes for growth and development, Wilms' tumor deletions, and cancer chromosome breakpoints.

Human chromosome 11 is clearly a model autosome encoding genes and characteristics associated with both normal and abnormal growth and development, and several significant disorders. A fine-structure molecular, genetic, and physical map of this chromosome would add considerably to our knowledge of the organization and control of human genes and to an understanding of normal and abnormal human biology.

Interleukin-1 gene (IL1) assigned to long arm of human chromosome 2.

A complementary DNA (cDNA) probe for the predominant (pI 7) form of human monocyte-derived interleukin-1 (IL1) and a collection of 30 human-mouse somatic cell hybrids were used to assign the IL1 gene to human chromosome 2 by Southern blot analysis of hybrid cell DNA digested with the restriction endonuclease BglII. In situ hybridization to human metaphase chromosomes localized the IL1 gene to the long arm of chromosome 2 at position 2q13-2q21 between two fragile sites.

Regional assignment of the erythropoietin gene to human chromosome region 7pter----q22.

The chromosomal location of the human gene for erythropoietin (EPO) was determined by Southern blot hybridization analysis of a panel of human-mouse somatic hybrid cell DNAs. DNAs from cell hybrids containing reduced numbers of human chromosomes were treated with the restriction enzyme PstI and screened with a cloned human EPO cDNA probe. EPO is assigned to human chromosome 7 based on the complete cosegregation of EPO with this chromosome in all 45 cell hybrids tested.

Human beta-hexosaminidase alpha chain: coding sequence and homology with the beta chain.

We have isolated a cDNA clone, p beta H alpha-5, from an adult human liver library that contains the entire coding sequence of the alpha chain of beta-hexosaminidase. The cDNA insert of p beta H alpha-5 is 1944 base pairs long and contains a 168-base-pair 5' untranslated region, a 186-base-pair 3' untranslated region, and an open reading frame of 1587 base pairs corresponding to 529 amino acids (Mr, 60,697). The first 17-22 amino acids satisfy the requirements of a signal sequence.

Chromosomal locations of human tissue plasminogen activator and urokinase genes.

A panel of human-mouse somatic cell hybrids and specific complementary DNA probes were used to map the human tissue plasminogen activator and urokinase genes to human chromosomes 8 and 10, respectively. This result is in contrast to a previous assignment of a plasminogen activator gene to chromosome 6. As neoplastic cells produce high levels of plasminogen activator, it is of interest that aberrations of chromosome 8 have been linked to various leukemias and lymphomas and that two human oncogenes, c-mos and c-myc, have also been mapped to chromosome 8.

Deletion in chromosome 11p associated with a hepatitis B integration site in hepatocellular carcinoma.

Hepatitis B virus (HBV), a virus with known carcinogenic potential, integrates into cellular DNA during long-term persistent infection in man. Hepatocellular carcinomas isolated from viral carriers often contain clonally propagated viral DNA integrations. As small chromosomal deletions are associated with several types of carcinomas, the occurrence of chromosomal deletions in association with HBV integration in hepatocellular carcinoma was studied.

Evolution of the functional human beta-actin gene and its multi-pseudogene family: conservation of noncoding regions and chromosomal dispersion of pseudogenes.

We have assigned six members of the human beta-actin multigene family to specific human chromosomes. The functional gene, ACTB, is located on human chromosome 7, and the other assigned beta-actin-related sequences are dispersed over at least four different chromosomes including one locus assigned to the X chromosome. Using intervening sequence probes, we showed that the functional gene is single copy and that all of the other beta-actin related sequences are recently generated in evolution and are probably processed pseudogenes.

Isolation of polymorphic DNA segments from human chromosome 21.

A somatic cell hybrid line containing only human chromosome 21 on a mouse background has been used as the source of DNA for construction of a recombinant phage library. Individual phages containing human inserts have been identified. Repeat-free human DNA subclones have been prepared and used to screen for restriction fragment length polymorphisms to provide genetic markers on chromosome 21.

Tissue factor gene localized to human chromosome 1 (1pter----1p21).

Tissue factor (tissue thromboplastin, coagulation factor III), a protein component of cell membranes, is an essential cofactor for factor VII-dependent initiation of blood coagulation. Since no tissue factor-deficient condition has been described, it is one of only a few proteins of the coagulation system for which the pattern of inheritance has not been ascertained. Because of the species-specificity of tissue factor activity and the availability of a very sensitive chromogenic assay, it was possible in the present study to use somatic cell hybrids to assign the chromosomal location of the tissue factor structural gene (F3) to human chromosome 1 (1pter----1p21).

Variable numbers of pepsinogen genes are located in the centromeric region of human chromosome 11 and determine the high-frequency electrophoretic polymorphism.

A panel of 26 mouse-human somatic cell hybrids containing different human chromosome complements was analyzed with a cloned human pepsinogen cDNA probe to determine the chromosomal location and the number of genes encoding these proteins. A complex containing variable numbers of pepsinogen genes was localized to the centromeric region of human chromosome 11 (p11----q13). Examination of somatic cell hybrids containing single copies of chromosome 11 and the corresponding human parental cell lines revealed a restriction fragment length polymorphism determined by pepsinogen haplotypes that contained two or three genes, respectively.

Transformation associated p53 protein is encoded by a gene on human chromosome 17.

The human gene for the transformation-associated p53 phosphoprotein (P53) was assigned to the short arm of chromosome 17 using human-rodent somatic cell hybrids and Southern filter hybridization of cell hybrid DNA. The filters were hybridized to radiolabeled DNA from a genomic clone which contained P53 nucleotide sequences. Hybridization of the probe to a 2.

I-cell disease and pseudo-Hurler polydystrophy: heterozygote detection and characteristics of the altered N-acetyl-glucosamine-phosphotransferase in genetic variants.

The human disorders I-cell disease and pseudo-Hurler polydystrophy (also known as mucolipidosis II and III, respectively) are caused by an inherited deficiency of UDP-GlcNAc: lysosomal enzyme precursor GlcNAc-P transferase activity. The most common genetic variants of these diseases (complementation group A) can be identified in homozygotes and heterozygotes using a GlcNAc-P transferase assay with artificial acceptors and commercially available radiochemicals. The kinetic characteristics of the residual GlcNAc-P transferase activity in complementation group A fibroblasts indicates that the low activity is due to a low Vmax.

Human gamma-chain genes are rearranged in leukaemic T cells and map to the short arm of chromosome 7.

Three gene families that rearrange during the somatic development of T cells have been identified in the murine genome. Two of these gene families (alpha and beta) encode subunits of the antigen-specific T-cell receptor and are also present in the human genome. The third gene family, designated here as the gamma-chain gene family, is rearranged in murine cytolytic T cells but not in most helper T cells.

Localization of the human prealbumin gene to chromosome 18.

A human liver cDNA library was screened using an oligonucleotide probe based on the amino acid sequence of human prealbumin. The cDNA insert of one positive clone was sequenced and found to contain the entire coding sequence of human prealbumin plus untranslated 5' and 3' regions. This cDNA was used to probe DNA from a panel of mouse/human somatic cell hybrids.

Genes for beta chain of human T-cell antigen receptor map to regions of chromosomal rearrangement in T cells.

The T-cell antigen receptor is a cell-surface molecule that participates in the immune response. In the present experiments the genes encoding the beta chain of the T-cell receptor were found to reside on the long arm of human chromosome 7 at or near band q32. Related sequences were found on the short arm of chromosome 7 in bands p15-21 in some experiments.