The human gene for parathyroid hormone (PTH) was chromosomally mapped using human-rodent hybrids and Southern filter hybridization of cell hybrid DNA. A recombinant DNA probe containing human PTH cDNA insert (pPTHm122) hybridized to a 3.7-kb fragment in human DNA cleaved with the restriction enzyme EcoRI. By correlating the presence of this fragment in somatic cell hybrid DNA with the human chromosomal content of the hybrid cells, the PTH gene was mapped to the short arm of the chromosome 11.
The human growth hormone receptor (hGHR) is encoded by exons 2-10 of the hGHR gene on chromosome 5p13·1-p12. There are several different 5 untranslated region (5 UTR) variants of hGHR mRNA (V1-V9) that all encode the same protein. We have recently mapped the V1-V9
cDNA encoding human preproPTH (hpreproPTH) was expressed in Escherichia coli to study the processing of the precursor to hPTH and its secretion by the bacterial secretory apparatus. We first constructed hybrid genes that differed randomly in the distance between the E. coli lac promoter's ribosomal binding site and DNA encoding a fusion protein with beta-galactosidase activity and the prepro sequence of hpreproPTH on the aminoterminus. Starting with clones identified as efficient producers of beta-galactosidase on indicator agar plates, the coding sequence for hpreproPTH was reconstituted intact. In a different construction we placed the hpreproPTH coding sequence downstream from the lac promoter at a distance of 12 base pairs from the ribosomal binding site. PTH immunoreactive proteins from multiple clones were identified by protein gel electrophoresis and by protein microsequencing. PTH-related proteins encoded by different plasmids were shown to be hpreproPTH with amino-terminal extensions of either two or four amino acids and as authentic hpreproPTH. Two hPTH fragments, hPTH(3-84) and hPTH(8-84), were also observed. The trypsin accessibility of hpreproPTH and of the two hPTH fragments in pulse-chase, cell-fractionation experiments using intact and lysed spheroplasts lets us conclude that the mammalian signal sequence directs hpreproPTH to the surface of the spheroplast membrane but is not appropriately cleaved by the signal peptidase.
The gene coding for rat parathyroid hormone-like peptide (PTHLH) was previously assigned to rat chromosome 2 (Hendy et al., 1988). We reexamined this assignment. According to our results, the gene is on rat chromosome 4. Taking into account the known localizations of the KRAS2 (Kras-2) oncogene and the PTHLH gene, this assignment strongly suggests that a synteny group is conserved on rat chromosome 4, mouse chromosome 6, and human chromosome 12.
The single copy parathyroid hormone-like peptide gene (Pthlh) was mapped to distal mouse chromosome 6 using genetic linkage analysis with a panel of DNA samples from interspecific backcross mice. In all 114 meiotic events examined, the Pthlh locus cosegregated with the locus for the Kirsten ras-2 gene (Kras-2) which was previously localized to distal mouse chromosome 6. In addition, Pthlh was localized to chromosome 6 band F-G and the mouse parathyroid hormone Pth was localized to chromosome 7 band F, by in situ hybridization. These studies confirm the previous localization of Pthlh to mouse chromosome 6 using somatic cell hybrids and show that the Pthlh/PTHLH locus is a part of a conserved linkage group between distal mouse chromosome 6 and the proximal segment of the short arm of human chromosome 12.
Application of the techniques of molecular biology is having a dramatic impact upon endocrinology (for a review, see Hendy & Kronenberg, 1982). This is specifically illustrated here by considering the use of recombinant DNA technology to study some of the main factors that are involved in calcium homeostasis, including parathyroid hormone, calcitonin and vitamin D‐dependent calcium‐binding protein. To varying degrees for these proteins, it has been possible to elucidate the sequence of nucleotides in the appropriate messenger RNA and measure the concentration of specific mRNA in the parathyroid, thyroid or intestine. It has also been possible in some cases to begin to establish the number and the structure of the genes that are involved and to assign a particular gene to a specific chromosome.
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