The adenine nucleotide translocator of higher plants is synthesized as a large precursor that is processed upon import into mitochondria.

Two maize genes and cDNAs encoding the mitochondrial adenine nucleotide translocator (ANT), a nuclear-encoded inner mitochondrial membrane carrier protein, have previously been isolated in this laboratory. Sequence analysis revealed the existence of much longer open reading frames than the corresponding fungal and mammalian ANT genes. Potato ANT cDNAs have subsequently been isolated and sequenced and alignment of the deduced plant amino acid sequences with the equivalent fungal and mammalian polypeptides indicated that the plant proteins contain N-terminal extensions. When the plant cDNA clones are expressed in vitro they direct the synthesis of precursor proteins that are specifically processed at the N-terminus upon import into isolated mitochondria. N-terminal amino acid sequence data obtained from the native proteins purified from both maize and potato mitochondria has allowed identification of the putative processing sites. Further import analysis has shown that two distinct regions of the maize precursor protein contain targeting information, the 97 amino acids at the N-terminus and the 267 C-terminal amino acids. This is the first report that provides experimental evidence that the adenine nucleotide translocator of higher plants is synthesized as a large precursor protein that is specifically cleaved upon import into mitochondria. Import of ANT into higher plant mitochondria therefore appears to be different to the corresponding process in fungal and mammalian systems where targeting of ANT to mitochondria is mediated by internal signals and there is no N-terminal processing.     

Nucleotide and deduced amino acid sequences of a GTP-binding protein family with molecular weights of 25,000 from bovine brain

We have purified a novel GTP-binding protein (G protein) with a Mr of about 24,000 to homogeneity from bovine brain membranes (Kikuchi, A., Yamashita, T., Kawata, M., Yamamoto, K., Ikeda, K., Tanimoto, T., and Takai, Y. (1988) J. Biol. Chem. 263, 2897-2904). In the present studies, we have isolated and sequenced the cDNA of this G protein from a bovine brain cDNA library using oligonucleotide probes designed from the partial amino acid sequences. The cDNA of the G protein has an open reading frame encoding a protein of 220 amino acids with a calculated Mr of 24,954. This G protein is designated as the smg-25A protein (smg p25A). The amino acid sequence deduced from the smg-25A cDNA contains the consensus sequences of GTP-binding and GTPase domains. smg p25A shares about 28 and 44% amino acid homology with the ras and ypt1 proteins, respectively. In addition to this cDNA, we have isolated two other homologous cDNAs encoding G proteins of 219 and 227 amino acids with calculated Mr values of 24,766 and 25,975, respectively. These G proteins are designated as the smg-25B and smg-25C proteins (smg p25B and smg p25C), respectively. The amino acid sequences deduced from the three smg-25 cDNAs are highly homologous with one another in the overall sequences except for C-terminal 32 amino acids. Moreover, three smg p25s have a consensus C-terminal sequence, Cys-X-Cys, which is different from the known C-terminal consensus sequences of the ras and ypt1 proteins, Cys-X-X-X and Cys-Cys, respectively. These results together with the biochemical properties of smg p25A described previously indicate that three smg p25s constitute a novel G protein family.     

cDNA cloning of ovine pulmonary SP-A, SP-B, and SP-C: isolation of two different sequences for SP-B

Pulmonary surfactant promotes alveolar stability by lowering the surface tension at the air-liquid interface in the peripheral air spaces. The three surfactant proteins SP-A, SP-B, and SP-C contribute to dynamic surface properties involved during respiration. We have cloned and sequenced the complete cDNAs for ovine SP-A and SP-C and two distinct forms of ovine SP-B cDNAs. The nucleotide sequence of ovine SP-A cDNA consists of 1,901 bp and encodes a protein of 248 amino acids. Ovine SP-C cDNA contains 809 bp, predicting a protein of 190 amino acids. Ovine SP-B is encoded by two mRNA species, which differ by a 69-bp in-frame deletion in the region coding for the active airway protein. The larger SP-B cDNA comprises 1,660 bp, encoding a putative protein of 374 amino acids. With the sequences reported, a more complete analysis of surfactant regulation and the determination of their physiological function in vivo will be enabled.     

Molecular cloning of a human co-beta-glucosidase cDNA: evidence that four sphingolipid hydrolase activator proteins are encoded by single genes in humans and rats

Authentic cDNAs encoding the activator protein for acid beta-glucosidase (EC3.2.1.45), co-beta-glucosidase, were cloned from the pCD and lambda gt11 human cDNA libraries. Initial screening with oligonucleotide mixtures encoding amino acid sequences of co-beta-glucosidase identified partial cDNAs which were used to obtain a potentially full-length cDNA from the lambda gt11 library. This clone (2767 bp), EGTISI, contained 5' (38 bp) and 3' (1157 bp) noncoding sequences, a translation initiation site, and an open reading frame encoding 524 amino acids which included a typical hydrophobic signal sequence (16 amino acids). Computer analyses identified three regions of high similarity to co-beta-glucosidase encoded by tandem sequences in EGTISI. Searches revealed that two of these regions encoded peptides of known function; SAP1 (sphingolipid activator protein 1) and protein C (a new sphingolipid activator protein) were encoded by EGTISI sequences 5' and 3', respectively, to those for co-beta-glucosidase. The third region of similarity, encoding a theoretical peptide (undefined function), was located most 5' in the cDNA. EGTISI and its encoded polypeptide had high similarity (77% nucleotide identity and about 80% amino acid similarity) to a rat Sertoli cell cDNA and its encoded sulfated glycoprotein-1. These results indicate that a single highly conserved gene encodes the precursor for four potential sphingolipid activator proteins in rat and man.     

Cloning and sequencing of mouse GABA transporter complementary DNA

A cDNA encoding the mouse GABA transporter has been isolated and sequenced.The results show that the mouse GABA transporter cDNA differs from that of the rat by 60 base pairs at the open reading frame region but the deduced amino acid sequences of the two cDNAs are identical and both composed of 599 amino acids.However,the amino acid sequence is different from the sequence deduced from a recently published mouse GABA transporter cDNA.     

Cloning and sequence analysis reveal structural variation among related zein genes in maize

We have isolated a gene encoding one of the 19,000 dalton zein proteins from a maize genomic library constructed in Charon 4A. This gene occurs on a 7.7 kb Eco RI fragment, and based on Southern hybridization analysis, represents one of several homologous sequences present in the maize genome. The nucleotide sequence of the gene predicts a protein composed of 235 amino acids, including a signal peptide of 21 amino acids. There are no intervening sequences in the gene. By comparing the nucleotide sequence of this gene with that of a homologous cDNA clone, we have identified a basis for microheterogeneity within the gene family. The 5′ nucleotide sequences of the genomic and cDNA clones are identical, but they differ in the center of the protein, where repeated amino acid sequences occur. A nucleotide sequence encoding a conserved peptide of 20 amino acids is repeated nine times in the center of both of these clones.     

Identification of a novel class of elastase isozyme, human pancreatic elastase III, by cDNA and genomic gene cloning

By using porcine elastase I cDNA as a probe, we have isolated two different but closely related cDNAs encoding elastase-like proteases from a human pancreatic cDNA library. The amino acid sequences deduced from the cloned cDNA sequences showed 56-61% identity with those of both pancreatic elastases I and II, similar to the homology between elastases I and II. The active form of the elastase-like proteases appeared to be composed of 242 amino acids and preceded by a signal peptide and propeptide of 28 amino acids. Dot blot analysis of various tissue mRNAs demonstrated that the genes for the cloned cDNAs are expressed at a high level only in the pancreas. In addition, sequence analysis of the cloned genomic genes corresponding to one of the cDNAs showed that they are members of the elastase gene family. These results indicate that the two enzymes encoded by the cDNAs should be classified into a third class of elastase isozyme. Therefore, we designated them as human pancreatic elastases IIIA and IIIB. They strongly resembled cholesterol-binding pancreatic protease, suggesting that they may possess not only a digestive function but also function(s) related to cholesterol metabolism or transport in the intestine.     

Pumpkin hydroxypyruvate reductases with and without a putative C-terminal signal for targeting to microbodies may be produced by alternative splicing

Two full-length cDNAs encoding hydroxypyruvate reductase were isolated from a cDNA library constructed with poly(A)⁺ RNA from pumpkin green cotyledons. One of the cDNAs, designated HPR1, encodes a polypeptide of 386 amino acids, while the other cDNA, HPR2 encodes a polypeptide of 381 amino acids. Although the nucleotide and deduced amino acid sequences of these cDNAs are almost identical, the deduced HPR1 protein contains Ser-Lys-Leu at its carboxy-terminal end, which is known as a microbody-targeting signal, while the deduced HPR2 protein does not. Analysis of genomic DNA strongly suggests that HPR1 and HPR2 are produced by alternative splicing.     

Identification and characterization of cDNAs encoding four novel proteins that interact with translin associated factor-X

Translin-associated factor X (TRAX) is the predominantly cytoplasmic binding partner of TB-RBP/translin in mouse testis. Four mouse testis cDNAs encoding specific TRAX-interacting proteins were isolated from a yeast two-hybrid library screen. One novel cDNA designated Tsnaxip1 (TRAX-interacting protein-1) encodes 709 amino acids. We isolated a cDNA encoding the 427 carboxy-terminal amino acids of MEA-2, a Golgi-associated, maleenhanced autoantigen; a cDNA encoding 429 amino acids with 73% homology to centrosomal Akap9; and a cDNA encoding 346 amino acids with 75% homology to SUN1, a predicted human protein that contains a SUN domain (which is present in some perinuclear proteins). Interactions were verified using in vitro synthesized fusion proteins. All four genes were expressed in the testis and enriched in germ cells. Confocal microscopy studies using green fluorescent protein fusion proteins determined that these TRAX-interacting proteins colocalize with TRAX. The data suggest that TRAX may have a function associated with perinuclear organelles during spermatogenesis.     

A single gene codes for two forms of rat nucleolar protein B23 mRNA

Protein B23 (38 kDa, pI = 5.1) is an abundant RNA-associated nucleolar phosphoprotein and putative ribosome assembly factor. A full length cDNA clone (lambda JH1) encoding a major expressed form of rat protein B23, now designated B23.1, was reported recently (Chang, J. H., Dumbar, T. S., and Olson, M. O. J. (1988) J. Biol. Chem. 263, 12824-12837). In this paper the isolation from a rat brain library and sequence of a cDNA clone (lambda JH2) coding for a second form (B23.2) of protein B23 is reported. Isoforms B23.1 and B23.2 are polypeptides of 292 and 257 amino acids, respectively. The 5'-untranslated regions of the two cDNAs and the amino-terminal 255 amino acids of the proteins are identical in the two isoforms. However, the 3'-untranslated regions of the mRNAs are completely different, and the dipeptide Gly-Gly in B23.1 (residues 256 and 257) is replaced by Ala-His in B23.2 indicating that the former is not a precursor of the latter. The finding of AGGT sequences in the 3' regions of lambda JH1 suggest the presence of intron-exon boundaries at the point where the two cDNAs begin to differ. To investigate the origin of the two isoforms, two rat genomic libraries were screened with oligonucleotide probes based on sequences from the unique regions of the two cDNAs. One of the genomic clones isolated (lambda JH125) contained a 6.5-kilobase fragment encoding the 3' end of both cDNAs. lambda JH125 contains four exons designated W, X, Y, and Z in the order indicated. Exons W and X encode 36 amino acids at the carboxyl terminus of B23.2, whereas exons W, Y, and Z encode the carboxyl-terminal 71 amino acid residues of B23.1. Exons X and Z each contain distinct 3'-untranslated sequences in which are found polyadenylation signals. These data suggest that two different mRNAs are formed by alternative splicing of separate 3' segments onto a common 5' region.     

Signal sequence of preproglycinin affects production of the expressed protein in Escherichia coli

The effect of the signal peptide portion on the bacterial production of preproglycinin, a precursor of soybean storage protein, was examined. Nucleotide sequences corresponding to the signal peptide and the mature N-terminal region were deleted stepwise from the cDNA encoding the glycinin A1aB1b subunit precursor, and the deleted cDNAs were placed under the control of trc promoter in an expression vector pKK233-2. When the amounts of the protein products in Escherichia coli from each expression plasmid were determined, no accumulation of preproglycinin was observed from the plasmids with the full length or the five amino acids of the signal sequence. However, significant accumulation of the preproglycinin homologue proteins was noted from the plasmids retaining less than three amino acids of the signal sequence depending on the extent of deletion. N-terminal amino acid sequences of the products coincided with those predicted from the deleted cDNAs. The preproglycinin homologue proteins expressed from the mutant plasmids assembled into trimers of about 8S.     

Recombinant expression of maize nucleotide excision repair protein Rad23 in Escherichia coli

Nucleotide excision is a highly conserved DNA repair pathway for correcting DNA lesions that cause distortion of the double helical structure. The protein heterodimer XPC-Rad23 is involved in recognition of and binding to such lesions. We have isolated full-length cDNAs encoding two different members of the maize Rad23 family. The deduced amino acid sequences of both maize orthologues show a high degree of homology to plant and animal Rad23 proteins. The cDNA encoding maize Rad23A was cloned as an in-frame C-terminal fusion of glutathione S-transferase. This chimera was expressed in Escherichia coli as a soluble protein and purified to homogeneity using glutathione-agarose followed by MonoQ column chromatography. Purified recombinant maize Rad23 protein was used to generate polyclonal antibodies that cross-react with a approximately 48-kDa protein in extracts from plant as well as mammalian cells. The purified recombinant protein and antibodies would be useful reagents to study the biochemistry of nucleotide excision repair in plants.     

The primary structure of porcine liver acylamino acid-releasing enzyme deduced from cDNA sequences

Two overlapping cloned cDNAs encoding the entire amino acid sequences of the subunits of acylamino acid-releasing enzyme (AARE) [EC 3.4.19.1] have been isolated from porcine liver cDNA lambda gt10 cDNA libraries and sequenced. Sequence analyses of the cDNA and several Achromobacter protease I-digested peptides of the purified protein revealed that porcine liver AARE consists of four identical subunits, and each comprising a single chain of 732 amino acids with acetylmethionine at the N-terminus.     

Novel multigene families encoding highly repetitive peptide sequences. Sequence analyses of rat and mouse proline-rich protein cDNAs

Multigene families encode the proline-rich proteins that are so prominent in human saliva and are dramatically induced in mouse and rat salivary glands by isoproterenol treatment and by feeding tannins. A cDNA encoding an acidic proline-rich protein of rat has been sequenced (Ziemer, M. A., Swain, W. F., Rutter, W. J., Clements, S., Ann, D. K., and Carlson D. M. (1984) J. Biol. Chem. 259, 10475-10480). This study presents the nucleotide sequences of five additional proline-rich protein cDNAs complementary to both mouse and rat parotid and submandibular gland mRNAs. Amino acid compositions deduced from the nucleotide sequences are typical for proline-rich proteins: 25-45% proline, 18-22% glycine, and 18-22% glutamine and generally an absence of sulfur-containing amino acids except for the initiator methionine. These proline-rich proteins display unusual repeating peptide sequences of 14-19 amino acids. The derived amino acid sequence of the cDNA insert of plasmid pMP1 from mouse has a 19-amino acid sequence which is repeated four times. The inserts of plasmids pUMP40 and pUMP4 also from mouse encode for 12 and 11 repeats of a 14-amino acid peptide, respectively. These repetitive sequences, and others from rat and mouse cDNAs and from human genomic clones, all show very high homologies and likely evolved from duplication of internal portions of an ancestral gene. Gene conversion could account for the high degree of conservation of nucleotide sequences of the repeat regions. Protein derived from the nucleotide sequences are all characterized by four general regions: a putative signal peptide, a transition region, the repetitive region, and a carboxyl-terminal region. The 5'-flanking sequences and sequences encoding the putative signal peptides are highly conserved (greater than 94%) in all six cDNAs. This sequence conservation may be important in the regulation of the biosynthesis of these unusual proteins.     

Screening of Rice Genes from the cDNA Catalog Using the Data Obtained by Protein Sequencing

The partial amino acid sequences of 121 rice proteins separated by two-dimensional gel electrophoresis (2D-PAGE), were determined for a protein sequence data file. In the Rice Genome Research Program (RGP), more than 20,000 cDNA clones randomly selected from rice cDNA libraries have been sequenced to construct a cDNA catalog. Complimentary DNAs encoding about 30% of proteins in the protein sequence data file could be identified in the catalog by computer search. It was deduced that 20,000–40,000 genes are present in the rice genome. Only half of about 20,000 cDNAs sequenced in the RGP, corresponding to 1/4–1/2 of genes present in the entire rice genome, should have unique sequences after considering gene redundancy. This is consistent with the fact that the cDNAs encoding about 30% of the sequenced proteins could be identified in the catalog. If the size of the cDNA catalog is enlarged further, cDNAs encoding all proteins separated by 2D-PAGE could be easily identified from the catalog by using the protein sequence data.     

Sequence conservation of the catalytic regions of amylolytic enzymes in maize branching enzyme-I.

We have identified cDNA clones encoding branching enzyme-I (BE-I) from a maize kernel cDNA library. The combined nucleotide sequence of the cDNAs indicates that maize BE-I is initially synthesized as a precursor protein with a putative 64-residue transit peptide at the amino terminus, and that the mature enzyme contains 759 amino acid residues with a calculated molecular mass of 86,236 Da. The four regions, which constitute the catalytic site of amylolytic enzymes, are conserved in the sequences of BE-I and bacterial branching enzymes. This result demonstrates that branching enzyme belongs to a family of the amylolytic enzymes. The BE-I gene is highly expressed in the early stages of kernel development, and the level of the message concentration decreases slowly as kernel maturation proceeds.