The cloning and characterization of Tetrahymena pyriformis translation elongation factor 1b alpha and gamma subunits

The multi-subunit eukaryotic translation elongation factor 1 (eEF1) consists of two functionally distinct parts: G-protein eEF1A and guanine nucleotide exchange factor eEF1B. Here, we report on the cloning of cDNAs of both the alpha and gamma subunits of the eEF1B from the ciliated protozoan Tetrahymena pyriformis. The open reading frame of the eEF1Bgamma cDNA encodes a 399-amino acid long polypeptide with a calculated molecular mass of 45.2 kDa. The eEF1Balpha cDNA contains an open reading frame encoding a polypeptide of 228 amino acids. The calculated molecular mass of this protein is 25.2 kDa. The overall deduced amino acid sequences of eEF1Balpha and eEF1Bgamma show a considerable homology with the families of alpha and gamma proteins from other eukaryotic organisms. We demonstrated that eEF1Bgamma is an RNA-binding protein which is able to bind to different RNAs.     

Isolation and sequence of rat testis cDNA for a calcium binding polypeptide similar to the regulatory subunit of calcineurin.

We have cloned and sequenced rat testis cDNAs coding for a calcium binding polypeptide similar to calcineurin beta subunit, the Ca(2+)-binding subunit of the Ca2+/calmodulin stimulated protein phosphatase. Rat testis cDNA library was screened with a monoclonal antibody Va1 raised against bovine brain calcineurin beta subunit. The deduced amino acid sequence is similar to that of human brain calcineurin beta subunit with respect to containing four putative calcium binding sites. However, distinct differences were found: 1) The cloned cDNA had six amino acids polypeptide tail at carboxy-terminal which is absent in human brain calcineurin beta subunit. This amino acids tail makes the carboxy-terminal highly hydrophilic in contrast to the human brain beta subunit which is hydrophobic at carboxy-terminal; 2) eleven amino acids at the N terminal of the cloned cDNA were completely different from the corresponding region of the brain calcineurin beta subunit.     

cDNA cloning and sequencing of phospholipase A2 from the pyloric ceca of the starfish Asterina pectinifera

Three cDNA from the pyloric ceca of the starfish Asterina pectinifera, (namely, cDNA 1, 2, and 3), encoding phospholipase A₂ (PLA₂), were isolated and sequenced. These cDNAs were composed of 415 bp with an open reading frame of 414 bp at nucleotide positions 1–414, which encodes 138 amino acids including N-terminal Met derived from the PCR primer. The amino acid sequence deduced from the cDNA 1 was completely consistent with the sequence determined with the starfish PLA₂ protein, while those deduced from cDNA 2 and cDNA 3 differed at one and twelve amino acid residual positions, respectively, from the sequence of the PLA₂ protein, suggesting the presence of multiple forms in the starfish PLA₂. All of the sequences deduced from cDNA 1, 2, and 3 required two amino acid deletions in pancreatic loop region, and sixteen insertions and three deletions in β-wing region when aligned with the sequence of mammalian pancreatic PLA₂. In phylogenetic tree, the starfish PLA₂ should be classified into an independent group, but hardly to the established groups IA and IB. The characteristic structure in the pancreatic loop and β-wing regions may account for the specific properties of the starfish PLA₂, e.g. the higher activity and characteristic substrate specificity compared with commercially available PLA₂ from porcine pancreas.     

A novel gene of tomato preferentially expressed in fruit encodes a protein with a Ca2+-dependent lipid-binding domain

A cDNA clone, called CLB1, was isolated from a cDNA library from tomato (Lycopersicon esculentum) and characterized. The CLB1 cDNA contains an open reading frame of 1518 bp, and encodes a putative protein of 506 amino acids with a predicted molecular mass of 54 633 Da. The deduced CLB1 amino acid sequence contains a domain that exhibits from 26% to 37% identity with the Ca²⁺-dependent lipid-binding domains of cytosolic phospholipase A₂, protein kinase C, Rabphilin-3A, and Synaptotagmin I of animals. Southern blot analysis indicates that the CLB1 gene belongs to a small gene family in the tomato genome. The CLB1 mRNA is preferentially expressed in fruit tissues.     

Three functional isoforms of GAR-2, a Caenorhabditis elegans G-protein-linked acetylcholine receptor, are produced by alternative splicing.

We have previously isolated a cDNA clone from Caenorhabditis elegans that encodes a novel form of G-protein-linked acetylcholine receptor, termed GAR-2. GAR-2 is similar to but pharmacologically distinct from muscarinic acetylcholine receptors. Here we report the identification of two gar-2 cDNA clones that are different from the previous one. These newly identified cDNAs encode polypeptides of 664 and 627 amino acids, whereas the previous one encodes a polypeptide of 614 amino acids. The three GAR-2 isoforms, which differ only in the third intracellular loop, arise from alternative splicing. Electrophysiological analyses using the Xenopus oocyte system showed that all three GAR-2 isoforms couple to the activation of G-protein-gated inwardly rectifying K+ (GIRK1) channel with similar drug specificity. Our results indicate that alternative splicing plays an important role in promoting molecular diversity of G-protein-linked acetylcholine receptors in C. elegans.     

Hydroxypyruvate Reductase with a Carboxy-Terminal Targeting Signal to Microbodies is Expressed in Arabidopsis

Five Arabidopsis EST cDNA clones of hydroxypyruvate reductase(HPR), a photorespiratory enzyme in leaf peroxisomes, were sequenced.Deduced amino acid sequences revealed that HPR in Arabidopsiscontained the carboxy-terminal targeting signal to microbodies.Nucle-otide sequence analysis showed that the cDNA with thelongest insert contained an open reading frame of 1,158 bp whichencoded a polypeptide with 386 amino acids with a calculatedmolecular mass of 42,251 Da. A Southern blot analysis suggestedthat the Arabidopsis HPR gene, like that of the pumpkin HPRgene, exists as a single copy. Two kinds of pumpkin HPR mRNAmight be produced from a single gene by alternative splicing,but the structure of the genomic DNA indicated that the ArabidopsisHPR gene did not undergo alternative splicing. We detected apolypeptide with a molecular mass of 42 kDa in green leavesof Arabidopsis using an HPR-specific antibody. Immunoelectronmicroscopy revealed that Arabidopsis HPR protein was exclusivelylocalized in leaf peroxisomes in green leaves. These resultsindicate that HPR is expressed in a form with a carboxy-terminaltargeting signal to microbodies and is localized in microbodiesin Arabidopsis, suggesting that the differences in the genestructure and the regulation of gene expression of HPR are probablydue to species-specific differences in plants. (Received November 11, 1996; Accepted February 1, 1997)     

Identification of the candidate ALS2 gene at chromosome 2q33 as a human aldehyde oxidase gene

Denver, Tokyo, and Salt Lake City investigators recently published different complimentary deoxyribonucleic acid (cDNA) sequences for human liver xanthine dehydrogenase/xanthine oxidase (XD/XO). The gene encoding the Denver cDNA was subsequently linked to juvenile familial amyotrophic lateral sclerosis (JFALS) at chromosome 2q33 and has been proposed as the ALS2 locus. The present investigation was undertaken to elucidate the differences between the three cDNA sequences, and we provide evidence that the Denver cDNA encodes aldehyde oxidase (AO): first, the Denver cDNA sequence diverged significantly from the Tokyo and Salt Lake City cDNA sequences which were very similar; second, the deduced protein sequence from the Denver cDNA was very similar to the amino acid sequence of purified rabbit liver AO protein; third, the deduced Denver protein sequence was 76% identical to the encoded 101 amino acid long peptides from partial cDNAs for rabbit and rat AO and 81.7% identical to 300 amino acids from an incomplete cDNA encoding bovine AO; fourth, the Denver gene was expressed in liver, kidney, lung, pancreas, prostate, testes, and ovary while the Tokyo XD gene was expressed predominantly in liver and small intestine; fifth, the Denver gene was previously mapped to chromosome 2q33 which is syntenic to the mouse AO locus on chromosome 1. Our results have revealed dramatic similarities in protein and DNA sequence in the human molybdenum hydroxylases, have uncovered unanticipated complexity in the human molybdenum hydroxylase genes, and advance the potential for AO derived oxygen radicals in JFALS and other human diseases.     

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.     

Nucleotide sequences of two pea cDNA clones encoding the small subunit of ribulose 1,5-bisphosphate carboxylase and the major chlorophyll a/b-binding thylakoid polypeptide

Two major chloroplast proteins are encoded by nuclear genes and synthesized on free cytoplasmic ribosomes: the small subunit of ribulose 1,5-bisphosphate carboxylase and the apoprotein components of the chlorophyll a/b light harvesting complex. We have recently reported the isolation of two cDNA clones from pea which encode both the small subunit of ribulose 1,5-bisphosphate carboxylase (pSS15) and the polypeptide 15 (pAB96), the major chlorophyll a/b binding protein (Broglie, R., Bellemare, G., Bartlett, S., Chua, N.-H., and Cashmore, A. R. (1981) Proc. Natl. Acad. Sci. U.S.A. 78, 7304-7308). To further characterize these clones, we determined their nucleotide sequence. Clone pSS15 contains a 691-base pair cDNA insert which encodes the entire 123 amino acids of the mature small subunit protein. In addition, this clone also encodes 33 amino acids of the NH2-terminal transit peptide extension and 148 nucleotides of the 3' noncoding region preceding the poly(A)tail. A second cDNA clone (pAB96) contains an 833-nucleotide insert which encodes most of polypeptide 15. The DNA sequence of this cloned cDNA was used to deduce the previously undetermined amino acid sequence of this integral thylakoid membrane protein. The nucleotide sequence of the cDNA clone, pSS15, should provide information concerning the role of the transit sequence in the transport of cytoplasmically synthesized chloroplast proteins. Similarly, the deduced amino acid sequence of polypeptide 15 will provide information for predicting its orientation in thylakoid membranes as well as its role in binding chlorophyll.     

Molecular cloning of a protein associated with soybean seed oil bodies that is similar to thiol proteases of the papain family

A 34,000-Da protein (P34) is one of the four major soybean oil body proteins observed by sodium dodecyl sulfate-polyacrylamide gel electrophoresis of isolated organic solvent-extracted oil bodies from mature seeds. P34 is processed during seedling growth to a 32,000-Da polypeptide (P32) by the removal of an amino-terminal decapeptide (Herman, E.M., Melroy, D.L., and Buckhout, T.J. (1990) Plant Physiol, in press). A soybean lambda ZAP II cDNA library constructed from RNA isolated from midmaturation seeds was screened with monoclonal antibodies directed against two different epitopes of P34. The isolated cDNA clone encoding P34 contains 1,350 base pairs terminating in a poly(A)+ tail and an open reading frame 1,137 base pairs in length. The open reading frame includes a deduced amino acid sequence which matches 23 of 25 amino-terminal amino acids determined by automated Edman degradation of P34 and P32. The cDNA predicts a mature protein of 257 amino acids and of 28,641 Da. The open reading frame extends 5' from the known amino terminus of P34 encoding a possible precursor and signal sequence segments with a combined additional 122 amino acids. Prepro-P34 is deduced to be a polypeptide of 42,714 Da, indicating that the cDNA clone apparently encodes a polypeptide of 379 amino acids. A comparison of the nucleotide and deduced amino acid sequences in the GenBank Data Bank with the sequence of P34 has shown considerable sequence similarity to the thiol proteases of the papain family. Southern blot analysis of genomic DNA indicated that the P34 gene has a low copy number.     

Cloning of a glucose phosphate isomerase/neuroleukin-like sperm antigen involved in sperm agglutination

The mouse monoclonal antibody (mAb) A36 produced by us and shown to induce extensive, "tangled" sperm agglutination was used to isolate cDNAs encoding its cognate antigen. Three overlapping cDNA clones specifically recognized by the mAb were isolated from a human testis cDNA expression library in lambdagt11. Sequencing of these cDNAs yielded the complete nucleotide sequence of a 3-kilobase cDNA that encodes the mAb-related polypeptide, designated sperm antigen-36 (SA-36), composed of 558 deduced amino acids. SA-36 cDNA contained a 5' untranslated region of 234 nucleotides (nt), an open reading frame of 1674 nt, and a 3' untranslated region of 1138 nt. SA-36 cDNA displayed > 99% homology to glucose phosphate isomerase (GPI)/neuroleukin (NLK) mRNA. This surprising homology was confirmed in Western blots demonstrating that mAb A36 reacted specifically with GPI obtained from rabbit muscle and from baker's yeast. Moreover, polyclonal, monospecific antibodies produced against beta-galactosidase/SA-36-3 fusion protein stained human spermatozoa and caused intensive agglutination of these cells in a manner similar to that with the mAb. Taken together, the data presented here demonstrated that mAb A36 cognate sperm surface antigen, encoded by SA-36 cDNA, is a GPI/NLK-like protein involved in sperm agglutination.     

Factor X activator from Vipera lebetina venom is synthesized from different genes

Vipera lebetina venom contains specific coagulant Factor X activator (VLFXA) that cleaves the Arg52-Ile53 bond in the heavy chain of human factor X. VLFXA is a glycoprotein that is composed of a heavy chain (HC) and two light chains (LC) linked by disulfide bonds. The complete amino acid sequences of the three chains of the factor X activator from V. lebetina snake venom are deduced from the nucleotide sequences of cDNAs encoding these chains. The full-length cDNA (2347 bp) sequence of the HC encodes an open reading frame (ORF) of 612 amino acids that includes signal peptide, propeptide and mature metalloproteinase with disintegrin-like and cysteine-rich domains. The light chain LC1 contains 123 and LC2 135 amino acid residues. Both light chains belong to the class of C-type lectin-like proteins. The N-termini of VLFXA chains and inner sequences of peptide fragments detected by liquid chromatography-electrospray ionization tandem mass spectrometry (LC MS/MS) from protein sequence are 100% identical to the sequences deduced from the cDNA. The molecular masses of tryptic fragments of VLFXA chains analyzed by matrix-assisted laser desorption ionization time of flight mass spectrometry (MALDI-TOF MS) also confirm the protein sequences deduced from the cDNAs. These are the first cloned factor X activator heavy and light chains. We demonstrate that the heavy and light chains are synthesized from different genes.     

The alpha 1 chain of type XIII collagen consists of three collagenous and four noncollagenous domains, and its primary transcript undergoes complex alternative splicing.

We have recently reported a characterization of cDNA clones that encode an apparently novel human collagen that undergoes alternative splicing. These cDNAs covered one-third of the corresponding 2.5-2.8-kilobase mRNAs. We have now determined the complete primary structure of the protein encoded by several overlapping cDNAs isolated from a human endothelial cell library. Since the deduced translation product of the cDNAs is different in structure from all other collagen types, we have given the collagen chain encoded by the cDNAs the designation alpha 1 (XIII). The deduced polypeptide consists of three collagenous domains and four noncollagenous domains, two of them separating the collagenous domains and two located at the N-terminal and C-terminal ends of the polypeptide. Cysteine residues are found in three of the noncollagenous domains and also in the extreme N-terminal collagenous domain. Surprisingly, comparison of the nucleotide sequences encoded by the overlapping cDNA clones demonstrates that there are several alpha 1 (XIII) collagen mRNAs in HT-1080 human fibrosarcoma cells and human endothelial cells which differ in coding potential. Nuclease S1 mapping experiments suggest that these different mRNAs arise through alternative splicing of the precursor RNA at five locations within the coding region. This property makes type XIII collagen unique among all the collagen types studied so far. Its polypeptide length, therefore, may vary between 614 and 526 amino acids, depending on what internal splicing has taken place.     

Cloning, expression, and sequence homologies of cDNA for human carbonic anhydrase II

A cDNA clone for human carbonic anhydrase (CA) II was isolated from a kidney lambda gt10 library. Expression of the cDNA insert in Cos-7 cells produced an immunoprecipitable product and enzymatically active carbonic anhydrase. The cDNA insert is 1551 bp in length and contains an open reading frame which encodes a 260-amino-acid polypeptide. The deduced amino acid sequence is identical to that reported for human CA II. The protein coding region of this cDNA for human CA II shows 81 and 70% nucleotide identity with cDNAs for CA II from mouse and chick, respectively. Even the long 3'-untranslated region of the cDNA for human CA II (703 bp) is 64 and 42% identical to those of CA II from mouse and chick, showing remarkable conservation of the CA II cDNAs in amniotes. The protein coding region of the human CA II cDNA is 64 and 65% identical with those of human CA I and CA III, which are thought to have arisen from a common precursor by gene duplication.     

A cDNA clone encoding an IgE-binding protein from Brassica anther has significant sequence similarity to Ca2+-binding proteins

Thirteen cDNA clones encoding IgE-binding proteins were isolated from expression libraries of anthers of Brassica rapa L. and B. napus L. using serum IgE from a patient who was specifically allergic to Brassica pollen. These clones were divided into two groups, I and II, based on the sequence similarity. All the group I cDNAs predicted the same protein of 79 amino acids, while the group II predicted a protein of 83 amino acids with microheterogeneity. Both of the deduced amino acid sequences contained two regions with sequence similarity to Ca²⁺-binding sites of Ca²⁺-binding proteins such as calmodulin. However flanking sequences were distinct from that of calmodulin or other Ca²⁺-binding proteins. RNA-gel blot analysis showed the genes of group I and II were preferentially expressed in anthers at the later developmental stage and in mature pollen. The recombinant proteins produced in Escherichia coli was recognized in immunoblot analysis by the IgE of a Brassica pollen allergic patient, but not by the IgE of a non-allergic patient. The cDNA clones reported here, therefore, represent pollen allergens of Brassica species.