Human biotin-containing subunit of 3-methylcrotonyl-CoA carboxylase gene (MCCA): cDNA sequence, genomic organization, localization to chromosomal band 3q27, and expression

3-Methylcrotonyl-CoA carboxylase (MCCase; EC 6.4.1.4) is a mitochondrial biotin enzyme and plays an essential role in the catabolism of leucine and isovalerate in animals, bacterial species, and plants. MCCase consists of two subunits, those that are biotin-containing and non-biotin-containing. The genes responsible for these subunits have been isolated in soybean, Arabidopsis thaliana, and tomatoes, but not in mammals. In humans, MCCase deficiency has been thought to be a rare metabolic disease, but the number of patients with MCCase deficiency appears to be increasing with a wide range of clinical presentations, some that result in a lethal condition and others that are asymptomatic. In this report, we have isolated and carried out chromosomal mapping of the gene for the biotin-containing subunit (A subunit) of the human MCCase gene, MCCA. The cDNA predicts an open reading frame coding for a 725-amino-acid protein with mitochondrial signal peptide, biotin carboxylase, and biotin-carrier domains. The gene is composed of at least 19 exons and covers more than 70 kb of sequence on band q27 of chromosome 3. MCCA was abundantly expressed in mitochondria-rich organs, such as the heart, skeletal muscles, kidney, and liver. In exon 13, we observed a His/Pro polymorphism at codon 464 (an A to C transition at nucleotide position 1391 in the cDNA sequence). Then, we determined the DNA sequences of the 5' untranslated region and entire coding regions in two patients with MCCase deficiency, but no sequence substitution was detected, suggesting that the gene mutations might be in the non-biotin-containing subunit (B subunit) gene, MCCB, in these patients.     

Characterization of two different genes (cDNA) for cytochrome c oxidase subunit VIa from heart and liver of the rat.

By antibody screening of a rat liver and a rat heart cDNA library in lambda gt11 two clones coding for the liver- and heart-specific subunit VIa of rat cytochrome c oxidase were isolated. In the heart cDNA sequence a TAA stop codon was found in frame 18 bp 5' upstream of the first methionine codon, thus excluding a leader sequence for this protein. The two cDNAs contain the full-length coding region of two subunits. The amino acid sequences of the two subunits show only 50% homology, whereas 74% homology was found between rat heart and bovine heart subunit VIa. By Northern blot analysis it is shown that the gene for subunit VIa from heart is only expressed in heart and skeletal muscle, whereas that from liver is also expressed in kidney, brain, heart and weakly in muscle.     

The complete sequence of a full length cDNA for human liver glyceraldehyde-3-phosphate dehydrogenase: evidence for multiple mRNA species.

A recombinant M13 clone (O42) containing a 65 b.p. cDNA fragment from human fetal liver mRNA coding for glyceraldehyde-3-phosphate dehydrogenase has been identified and it has been used to isolate from a full-length human adult liver cDNA library a recombinant clone, pG1, which has been subcloned in M13 phage and completely sequenced with the chain terminator method. Besides the coding region of 1008 b.p., the cDNA sequence includes 60 nucleotides at the 5'-end and 204 nucleotides at the 3'-end up to the polyA tail. Hybridization of pG1 to human liver total RNA shows only one band about the size of pG1 cDNA. A much stronger hybridization signal was observed using RNA derived from human hepatocarcinoma and kidney carcinoma cell lines. Sequence homology between clone 042 and the homologous region of clone pG1 is 86%. On the other hand, homology among the translated sequences and the known human muscle protein sequence ranges between 77 and 90%; these data demonstrate the existence of more than one gene coding for G3PD. Southern blot of human DNA, digested with several restriction enzymes, also indicate that several homologous sequences are present in the human genome.     

Isolation and characterization of a cDNA clone encoding rat nucleoside diphosphate kinase

A cDNA clone for cytosolic nucleoside diphosphate (NDP) kinase was isolated from a cDNA library of rat skeletal muscle using synthetic oligonucleotides as probes. The clone constitutes a 621-base pair cDNA sequence including the 456-base pair coding region and 137-base pair 3'-untranslated one with polyadenylation site. The complete primary structure of NDP kinase was deduced from the coding sequence. An NH2-terminal amino acid sequence analysis suggested that the translated enzyme protein suffered proteolytic cleavage followed by modification at the alpha-NH2 group of the newly produced NH2-terminal amino acid residue. Taking this into account, it was tentatively concluded that the mature NDP kinase consists of 147 amino acid residues with a molecular weight of 16,724. Northern blot hybridization analysis showed that NDP kinase mRNA could be detected in total RNA fractions of brain, spleen, heart, lung, liver, kidney, testis as well as skeletal muscle, and that there was no difference in the size of mRNAs from these tissues. Tissue distribution of the mRNA nearly paralleled those of protein moiety and activity of the enzyme.     

Primary structure of non-histone protein HMG1 revealed by the nucleotide sequence

The isolation and sequencing of a cDNA clone coding for the entire sequence of pig thymus non-histone protein HMG1 are described. The sequence analysis reveals a complete 2192-nucleotide sequence with a 5'-terminal untranslated region of 11 nucleotides, 642 nucleotides of an open reading frame that encoded 214 amino acids, and a 3'-terminal untranslated region of 1539 nucleotides. The HMG1 protein, deduced from the nucleotide sequence, has a molecular weight of 24,785 and a C-terminal of a continuous run of 30 acidic amino acids, encoded by a simple repeating sequence of (GAN)30. The predicted amino acid sequence is homologous to HMG1, HMG2, and HMG-T sequences from several sources, suggesting that the protein conformation is under evolutionary constraints. Northern blot analysis reveals that another hybridizable RNA species of smaller size is present. Southern blot analyses suggest that pig genome contains several HMG1 gene equivalents.     

The structure and expression of a distantly related member of the beta-gamma crystallin super gene family from Xenopus.

In an attempt to understand amphibian crystallin gene regulation, we have isolated and partially characterized several genomic clones which hybridized to the gamma 1 cDNA probe from Rana temporaria. A complete sequence of one of these clones showed slight homology to the mammalian beta and gamma crystallins. The deduced amino acid sequence of the coding region and its alignment as a folding unit indicated that all the topologically equivalent residues involved in maintaining the protein folding pattern are highly conserved. Northern blot analysis of total RNAs derived from several adult tissues, including eye lens, suggested that an RNA of approximately 700 nucleotides long is present in lens, heart, spleen and embryos of later stages of development but not in retina, oocytes and embryos of early developmental stages.     

Isolation and characterization of cDNA encoding rabbit reticulocyte 2,3-bisphosphoglycerate synthase

We have isolated and sequenced a cDNA clone containing the entire coding region of rabbit reticulocyte 2,3-bisphosphoglycerate (DPG) synthase. The cDNA was verified by translation of the hybridization-selected RNA and by demonstrating identity of the deduced amino acid (aa) sequence to the sequences of CNBr peptides of the purified enzyme. The aa sequence of the enzyme was homologous to the reported sequence of the human enzyme [Haggarty et al., EMBO J. 2 (1983) 1213-1220], especially in the N-terminal half (aa 1-142). Northern blot analysis of rabbit reticulocyte poly(A)+ RNA revealed a single species of mRNA with about 1700 nucleotides.     

The nucleotide sequence of a rat liver glutathione S-transferase subunit cDNA clone

We have determined the nucleotide sequence of a cloned cDNA derived from liver poly(A) RNA of pentobarbital-treated rats encoding a glutathione S-transferase subunit. This cDNA clone pGTR261 contains one open reading frame of 222 amino acids, a complete 3' noncoding region, and 63 nucleotides in the 5' noncoding region. The cloned DNA hybridizes to rat poly(A) RNA in a tissue-specific fashion, with strong signals to liver and kidney poly(A) RNA(s) of approximately 1100 and approximately 1400 nucleotides in size but little or no hybridization to poly(A) RNAs from heart, lung, seminal vesicles, spleen, or testis under stringent conditions. Our sequence covers the cDNA sequence of pGST94 which contains a partial coding sequence for a liver glutathione S-transferase subunit of Ya size. Comparison of sequences with our earlier clone pGTR112 suggests that there are at least two mRNA species coding for two different subunits of the Ya (Mr = 25,600) subunit family with very limited amino acid substitutions mainly of conserved polarity. The divergent 3' noncoding sequences should be useful molecular probes in differentiating these two different but otherwise very similar subunits in induction and genomic structure analyses. Our results suggest that tissue-specific expression of the glutathione S-transferase subunits represented by the sequences of pGTR261 and pGTR112 may occur at or prior to the level of RNA processing.     

Nucleotide sequence of mouse 5-aminolevulinic acid synthase cDNA and expression of its gene in hepatic and erythroid tissues

The cDNA coding for 5-aminolevulinic acid (ALA) synthase (EC 2.3.1.37) in both liver and anemic spleen of the mouse has been cloned. The liver clone was selected by complementation of an Escherichia coli hemA mutant. Erythroid clones were obtained by screening a cDNA library made from mouse anemic spleen RNA, using the liver cDNA as a probe. The sequences of the spleen-derived and liver-derived cDNAs are identical. The nucleotide sequence and predicted amino acid (aa) sequence of a 1.85-kb spleen-derived cDNA is presented. The mouse ALA synthase as sequence displays extensive homology to ALA synthase of chick embryonic liver. The ALA synthase mRNA, detected by Northern blot analysis, was the same size, approx. 2.3 kb, in mouse liver, anemic spleen, and mouse erythroleukemia cells. It is therefore unlikely that different isozymic forms of ALA synthase are present in mouse erythroid and hepatic tissue and this is not the basis for the different effects of heme and porphyrinogenic compounds on the expression of liver and erythroid ALA synthase.     

Molecular cloning of a gene abundantly expressed during fruiting body initiation in Schizophyllum commune.

Complementary DNA was synthesized on polyadenylated RNA from a dikaryotic mycelium of the basidiomycete Schizophyllum commune bearing fruiting body initials. The complementary DNA was cloned into the PstI site of pBR327 by the deoxyguanidylate-deoxycytidylate tailing approach. After transformation into Escherichia coli cells, a differential screening was performed by colony hybridization with complementary [32P]DNA made on the RNAs of the monokaryon and dikaryon strains. Two clones were selected for further analysis by Northern blotting and hybrid release translation. Clone 1D10 hybridized with an mRNA of 775 nucleotides, coding for a polypeptide with an Mr of 15,000. Although this RNA was present in both monokaryotic and dikaryotic mycelia, its concentration appeared to change considerably over time and with different cultivation conditions. This mRNA is probably the most abundantly expressed sequence in S. commune. Clone 1G2 and its homologs hybridized with an mRNA of 650 nucleotides, coding for a polypeptide with an Mr of 13,000. This gene was exclusively expressed in the dikaryon strain. In liquid-grown cultures, the concentration of this mRNA was low but increased ca. 20-fold during the establishment of fruiting body primordia. A chromosomal fragment of 9 kilobase pairs which contained the 1G2 gene was cloned into pBR327 and used as a probe in Northern blot hybridization. It was found that surrounding sequences were not expressed at the same time or to the same extent as the 1G2 gene.     

Isolation and characterization of cDNA for chicken muscle adenylate kinase

A cDNA clone for muscle adenylate kinase was isolated from a cDNA library of chick skeletal muscle poly(A)+ RNA, and the DNA sequence was determined. The cDNA insert had 854 nucleotides, which consisted of the 5'-untranslated sequence of 57 nucleotides, the sequence of 582 nucleotides coding for 194 amino acids, and the 3'-untranslated sequence of 163 nucleotides and the poly(A) tail of 52 nucleotides. The amino acid sequence predicted from the nucleotide sequence was highly homologous with the reported sequences of human, calf, porcine, and rabbit muscle adenylate kinases. RNA blot analysis of poly(A)+ RNA from various chicken tissues revealed a single species of mRNA of approximately 850 nucleotides and its tissue-specific distribution. The induction of muscle adenylate kinase mRNA synthesis during the chick embryogenesis was also demonstrated by the blot analysis. Southern blot analysis indicated a single gene for muscle adenylate kinase in the chicken genome.