Isolation and characterization of rat and human glyceraldehyde-3-phosphate dehydrogenase cDNAs: genomic complexity and molecular evolution of the gene.

Full length cDNAs encoding the glycolytic enzyme glyceraldehyde-3-phosphate dehydrogenase (GAPDH) from rat and man have been isolated and sequenced. Many GAPDH gene-related sequences have been found in both genomes based on genomic blot hybridization analysis. Only one functional gene product is known. Results from genomic library screenings suggest that there are 300-400 copies of these sequences in the rat genome and approximately 100 in the human genome. Some of these related sequences have been shown to be processed pseudogenes. We have isolated several rat cDNA clones corresponding to these pseudogenes indicating that some pseudogenes are transcribed. Rat and human cDNAs are 89% homologous in the coding region, and 76% homologous in the first 100 base pairs of the 3'-noncoding region. Comparison of these two cDNA sequences with those of the chicken, Drosophila and yeast genes allows the analysis of the evolution of the GAPDH genes in detail.     

The ornithine aminotransferase-encoding gene family of rat: cloning, characterization, and evolutionary relationships between a single expressed gene and three pseudogenes

As a first step towards understanding the molecular mechanisms through which the expression of the gene (OAT) encoding ornithine aminotransferase (OAT) is regulated in a tissue-specific manner, we have used a near full length OAT cDNA to isolate related sequences from a rat genomic DNA library. Twenty-one unique clones representing five contigs and spanning approximately 140 kb of genomic DNA were isolated and characterized. From these clones we have identified a single expressed OAT gene and three processed pseudogenes. The comparison of the EcoRI, BamHI, and HindIII fragments contained within these genomic clones with those detected in total genomic DNA by the cDNA probe suggests that essentially all of the OAT-related sequences in the rat genome have been isolated. Thus, the tissue-specific regulation of OAT gene expression appears to be effected through a single expressed gene. Data are presented which suggest that the OAT-1, OAT-2, and OAT-3 pseudogenes arose approximately 28.5, 7.3, and 25.1 Myr ago, respectively. Mutation rates are presented for each codon position of the expressed rat and human OAT genes. The region of the rat genome flanking the boundary of the OAT-3 pseudogene is of additional interest as it shares considerable identity to sequences contained within expressed genes and flanking other processed pseudogenes.     

Isolation and characterization of non-muscle tropomyosin cDNAs of human and mouse origin

Several cDNA clones of human and mouse non-muscle tropomyosin have been isolated. All the human clones possess a common 23 bp sequence immediate 5' of the initiation codon. However, in the further upstream regions, the nucleotide sequences diverge. Two of the mouse cDNA clones pPSI-8 and pPSI-14 have identical nucleotide sequence in the coding region sequenced. However, 5' of the initiation codon these clones have only 40 identical nucleotides and further upstream the nucleotide sequences diverge. Analysis of the genomic DNAs of mouse cells indicated the possibility of a common gene giving rise to both the tropomyosin cDNAs differing in their 5' ends.     

Hormonal regulation of estradiol biosynthesis, aromatase activity, and aromatase mRNA in rat ovarian follicles and corpora lutea

To determine the molecular basis for changes in aromatase (P450arom) activity in rat ovarian follicles and corpora lutea, seven clones for rat P450arom cDNA have been identified and isolated from a rat granulosa cell λgtll cDNA expression library using a 62 mer deoxyoligonucleotide probe (derived from an amino acid sequence of purified human placental aromatase) and a human placental P450arom cDNA probe. One of the rat P450arom cDNA clones contained an insert 1.2 kb in size. Both the human 1.8 kb cDNA and the rat 1.2 kb cDNA probes hybridized to a single species of P450arom mRNA that was 2.6 kb in size. Northern blot analysis revealed that corpora lutea isolated on day 15 of pregnancy contained high amounts of P450arom mRNA, whereas granulosa cells of antral follicles of hormonally primed, hypophysectomized rats (i.e., those from which mRNA was isolated to construct the cDNA library) contained only low amounts of P450arom mRNA. The lower amounts of P450arom in granulosa cells of preovulatory follicles in the estradiol-follicle-stimulating hormone primed hypophysectomized rats were unexpected because follicles incubated in medium containing testosterone substrate produce more estradiol than do corpora lutea isolated on day 15 of pregnancy and incubated under similar conditions. Additional studies will determine the hormonal events responsible for the elevated amounts and constitutive maintenance of P450arom mRNA and aromatase activity in luteal cells in vivo and in vitro.     

Molecular cloning of AMP deaminase isoform L. Sequence and bacterial expression of human AMPD2 cDNA.

Human AMPD2 cDNA clones have been isolated from T-lymphoblast and placental lambda gt11 libraries utilizing a previously cloned rat partial AMPD2 cDNA as the probe. Alignment analysis of all cDNA clones indicates the presence of intervening sequences in several placental isolates. This has been confirmed by sequencing human AMPD2 genomic clones. Intervening sequences can be removed from the cDNA clones by restriction with endonucleases at unique sites within the proposed open reading frame. This results in a 3292-base pair cDNA proposed to contain the entire AMPD2 open reading frame, which would encode a 760-amino acid polypeptide with a predicted subunit molecular mass of 88.1 kDa. Nucleotide and predicted amino acid comparisons with the 264 base pairs of proposed coding sequences in the rat AMPD2 cDNA demonstrate 91% similarity and identity, respectively. A comparison of the predicted human AMPD1 and AMPD2 polypeptides demonstrates homology in their C-terminal domains. Included in this region is the conserved motif, SLSTDDP, proposed to be part of the catalytic site of all AMP deaminases. In contrast, the predicted N-terminal domains of the human AMPD1 and AMPD2 polypeptides are unique. When placed in a prokaryotic expression vector, the human AMPD2 cDNA expresses AMP deaminase activity which can be precipitated with polyclonal antisera specific for isoform L.     

Isolation of genes expressed in specific tissues of Arabidopsis thaliana by differential screening of a genomic library

The small genome size of Arabidopsis thaliana allows the isolation of genes expressed in specific tissues and under controlled conditions by the differential screening of a genomic library, as has been shown previously for yeast and Drosophila. cDNA probes, based on poly(A)+ mRNA isolated from different Arabidopsis organs, were used in colony hybridizations with 1145 randomly chosen genomic clones, representing 27,000 kb of Arabidopsis DNA. Twenty percent of the clones containing low-copy-number sequences hybridized with one or more of the cDNA probes that were synthesized from mRNA isolated from leaves, stems, seed pods, inflorescences, callus tissue, and light-grown and dark-grown plants. Comparison of the colony hybridizations led to the identification of a large variety of clones which contain differentially expressed genes. The pattern of expression was confirmed by Northern analysis. The advantage of the described method is that it yields directly genomic sequences that contain specifically expressed or induced genes. In particular, it circumvents the construction and differential screening of cDNA libraries for every tissue or environmental parameter to be analyzed.     

Isolation and characterization of beta- and gamma-crystallin genes from rat genomic cosmid libraries

Two libraries, together containing about 10(6) colonies, have been constructed by cloning different size fractions of a partial Sau3A digest of rat genomic DNA in the cosmid vector pTM. Upon screening with two cDNA clones, one containing alpha A2-crystallin and one containing beta B1-crystallin sequences, 14 cosmid clones were isolated which were beta B1-crystallin-specific; none was found which contained alpha A2-crystallin sequences. The inserts of the beta B1 clones, which range from 35 to 45 kb in length, contain overlapping DNA segments covering more than 60 kb of rat genomic DNA. The composite BamHI restriction map of this region shows a single beta B1-crystallin gene, which is interrupted by several intronic sequences. Five recombinants hybridizing with two different rat lens gamma-crystallin cDNA clones were also isolated from these libraries. Four of these contain 31- to 41-kb inserts, whereas the fifth recombinant contains a 12.2-kb insert. Hybridization analysis with 5' and 3'-specific cDNA fragments indicates that altogether these inserts contain six gamma-crystallin genes, three of which are located on one insert of only 31 kb.     

Use of interspersed repetitive sequences-PCR products for cDNA selection

In order to increase the efficiency of cDNA selection approaches, we describe the use of interspersed repetitive sequences-PCR (IRS-PCR) products to isolate genes from large-insert genomic clones. IRS-PCR is conducted on total yeast DNA containing a YAC of interest so that there is no need to purify the starting genomic clone. This enables the production of large amounts of genomic substrate for cDNA selection and allows the use of unstable YAC clones. Moreover, the hybridization of the IRS-PCR product to the cDNA clones after selection introduces a positive selection step. We tested these PCR products from YACs for the presence of exons, using cDNAs originating from seven different genes. In each case, at least one exon was present in the IRS-PCR product. We have applied this strategy to four YAC clones originating from the human X Chromosome (Chr). All the selected cDNAs, strongly positive with the IRS-PCR product, did indeed originate from a gene in the region covered by the YAC. In all cases, the previously known genes contained in the genomic clones have been isolated. In addition, we have isolated human genes that have already been described but not assigned to any chromosomal region.     

Cloning and expression of cynomolgus monkey and baboon zona pellucida proteins

Partial clones for the three cynomolgus monkey (Macaca fasicularis) zona pellucida genes (cmZPA, cmZPB, and cmZPC) have previously been isolated. These partial clones contained the sequences for the C-terminal portion of each rcmZP protein. To obtain full-length clones for each cmZP, a fresh cynomolgus monkey ovarian cDNA library was constructed. PCR methodology was employed to speed the isolation of full-length clones for each cmZP cDNA. The 3' primers were designed based on sequence information from the previously identified clones; the 5' primers were designed using the human ZP sequences. The PCR technique yielded full-length clones of cmZPA and cmZPC, but not of cmZPB. Therefore, a genomic clone of cmZPB was isolated and the sequence determined. The exon/intron structure is nearly identical to the human ZPB exon/intron structure. New PCR primers were designed based on the cynomolgus monkey ZPB genomic sequence, and a full-length cmZPB cDNA was obtained. The same primers that were used to generate the cmZPB were also used to generate a baboon (Papio cynocephalus) ZPB (bZPB) cDNA. As was done previously for the human zona pellucida (hZP) cDNAs, the cmZP, and bZPB cDNAs were transferred to shuttle vectors for transfection into Chinese Hamster Ovary (CHO) cells. Stable cell lines for producing each ZP protein were isolated. Each cell line secreted the desired recombinant zona pellucida (rZP) protein into the culture medium, and each protein was purified using an established protocol. In terms of size and purity, the purified recombinant cmZP (rcmZP) and rbZPB proteins resemble the rhZP proteins.     

gamma-Glutamyl transpeptidase: a single copy gene in the rat and a multigene family in the human genome

gamma-Glutamyl transpeptidase (GGT) genomic sequences were isolated from rat and human libraries using a rat GGT cDNA as a cross-species hybridization probe. Characterization of the human GGT clones by restriction mapping clearly establishes that at least four different GGT genes or pseudogenes are present in the human genome. All the rat genomic clones cover a 12.5-kilobase sequence and exhibit a unique restriction pattern. A precise quantitation of the rat GGT gene copy number by Southern blot analysis demonstrates that this sequence is present as a single copy/rat haploid genome. Therefore, the GGT gene organization is different between rat and human species; this raises the possibility of different regulatory mechanisms in the two species.     

Analysis by molecular cloning of the human class II genes

The HLA class II genes control immune responsiveness to defined antigens; they encode cell surface heterodimers composed of alpha and beta glycopeptides. Recently, cDNA and genomic clones encoding these chains have been isolated, which allows molecular analysis of the class II genes. cDNA clones encoding the alpha chain of the HLA-DR antigen as well as that of another HLA class II antigen have been identified and characterized by nucleotide sequence analysis. These clones have been used as probes to isolate additional class II alpha cDNA clones in cDNA libraries and to identify polymorphisms in genomic DNA. Polymorphic restriction sites have been localized within the HLA-DR alpha gene and used as genetic markers in the analysis of families and of disease (insulin-dependent diabetes mellitus) and control populations. In addition, cDNA clones encoding the DR beta and DC beta chains were used as hybridization probes to identify DNA polymorphism. cDNA clones encoding the DR gamma (Ii) chain have also been identified; unlike the DR alpha and DR beta loci, the DR gamma gene is located on some chromosome other than chromosome 6. The genetic complexity of the human class II alpha and beta loci, as revealed by analysis with cDNA and genomic clones, is greater than that of the murine class II genes. The extent of that complexity will be defined by future work in this area.     

Presence of three distinct molecular species of Gi protein alpha subunit. Structure of rat cDNAs and human genomic DNAs

We have cloned a new species of rat Gi alpha (Gi3 alpha) cDNA and genomic DNAs for three distinct human Gi alpha proteins (Gi1 alpha, Gi2 alpha, and Gi3 alpha). Gi3 alpha cDNA codes for a protein of 354 amino acids (Mr 40,522) whose sequence is closely related but distinct from that of the previously isolated rat Gi alpha (Gi2 alpha). By screening the human genomic libraries with the two rat Gi alpha cDNAs as probes, clones encoding human Gi1 alpha, Gi2 alpha, and Gi3 alpha were isolated. The human Gi2 alpha and Gi3 alpha genes are composed of eight coding exons and seven introns and possess a completely identical exon-intron organization. Southern blot analysis indicates that a single copy of each Gi alpha gene is present per haploid human genome.     

Human gastric intrinsic factor: characterization of cDNA and genomic clones and localization to human chromosome 11

A human gastric intrinsic factor (IF) cDNA clone was isolated using a rat cDNA clone as a probe. Comparison of the predicted amino acid sequence revealed 80% identity of human IF with rat IF. These cDNA clones were used to isolate and map two overlapping clones encoding the human IF gene. The first exon of the cloned region (exon 2) contains 30 bp of the 5' untranslated region, the signal peptide, and the first 8 amino acids of the mature protein. Exons 3-10 encode the remainder of the coding and 3' noncoding regions. Southern analysis of genomic DNA indicated the presence of a single human IF gene and also revealed the presence of strong hybridizing sequences in genomic DNA from monkey, rat, mouse, cow, and human, suggesting that the IF gene is well conserved. The IF gene was localized to human chromosome 11 by concurrent cytogenetic and cDNA probe analysis of a panel of human X mouse somatic cell hybrids. Southern analysis of genomic DNA from patients with congenital pernicious anemia (lacking intrinsic factor) revealed normal restriction fragment patterns, suggesting that a sizable gene deletion was not responsible for the deficiency.     

Isolation and Nucleotide Sequence of Rat Cu/Zn Superoxide Dismutase cDNA Clones

Superoxide dismutase (SOD: EC 1.15.1.1) catalyzes the dismutation of oxygen radicals and is thought to protect cells against free radical damage. We have isolated and sequenced cDNA clones of the rat Cu/Zn SOD, and have used these clones to map the rat genomic sequences coding for this enzyme. Rat Cu/Zn SOD is coded for by a single copy gene which is transcribed into an mRNA species of approximately 800 bases. Comparison of the nucleotide sequences of rat and human SOD cDNAs shows that they are homologous over 83% of the coding sequences and that in the 3′-untranslated region the extent of homology drops to 66%. The predicted rat SOD amino acid sequence is very similar to that of other eukaryotic SODs, showing 70% homology with the SODs of other mammals. Sequence conservation is particularly high in domains believed to be of functional importance.     

Molecular biology of Diazepam Binding Inhibitor peptide

Complementary DNA (cDNA) clones containing the entire coding sequence for Diazepam Binding Inhibitor (DBI) peptide, a 10-kDa precursor of putative natural ligands of benzodiazepine recognition sites, were isolated from rat, human and cow libraries. The sequence of all these clones is highly conserved; however, the N-terminal sequence predicted by the human DBI clone differed from that of the other two clones. DBI cDNA, utilized as hybridization probe in Southern blot analysis, revealed that DBI of both human and rat might be encoded by a multiple family of 4–6 genes. Furthermore, we have used in situ chromosomes hybridization to map human DBI genes. The results indicate that a human DBI gene is localized on chromosome 2 and that three of the four hybridization signals detected by the human DBI probe are located on three other chromosomes. These findings raise a question as whether multiple DBI genes encode for different molecular forms of DBI. In the attempt to test this hypothesis, cow cDNA and human genomic libraries were screened with DBI cDNA. In this paper I report the isolation of clones from these libraries which, although hybridizing well to DBI cDNA, possess a low percentage of homology (46.7%), randomly distributed within the coding region of DBI cDNA. Whether or not these clones encode for peptides sharing the same physiological role as DBI is under investigation.Special issue dedicated to Dr. Erminio Costa