A cDNA clone encoding a 10.8 kDa photosystem I polypeptide of barley

A cDNA clone encoding the barley photosystem I polypeptide which migrates with an apparent molecular mass of 16 kDa on SDS-polyacrylamide gels has been isolated. The 634 bp sequence of this clone has been determined and contains one large open reading frame coding for a 15,457 Da precursor polypeptide. The molecular mass of the mature polypeptide is 10,821 Da. The amino acid sequence of the transit peptide indicates that the polypeptide is routed towards the stroma side of the thylakoid membrane. The hydropathy plot of the polypeptide shows no membrane-spanning regions.     

Cloning and characterization of cDNAs coding for Vicia faba polyphenol oxidase

Three cDNA clones were isolated which code for the ubiquitous chloroplast enzyme, polyphenol oxidase (PPO), from Vicia faba. Analysis of the cloned DNA reveals that PPO is synthesized with an N-terminal extension of 92 amino acid residues, presumed to be a transit peptide. The mature protein is predicted to have a molecular mass of 58 kDa which is in close agreement to the molecular mass estimated for the in vivo protein upon SDS-PAGE. Differences in the DNA sequence of two full-length and one partial cDNA clones indicate that PPO is encoded by a gene family. Analysis of the deduced amino acid sequence shows that the chloroplast PPO shares homology with the 59 kDa PPOs in glandular trichomes of solanaceous species. A high degree of sequence conservation was found with the copper-binding domains of the 59 kDa tomato PPO as well as hemocyanins and tyrosinases from a wide diversity of taxa.     

Cloning and nucleotide sequence of cDNA encoding human liver serine-pyruvate aminotransferase

Cloned cDNAs for human liver serine-pyruvate aminotransferase (Ser-PyrAT) were obtained by screening of a human liver cDNA library with a fragment of cDNA for rat mitochondrial Ser-PyrAT as a probe. Two clones were isolated from 50,000 transformants. Both clones contained approximately 1.5 kb cDNA inserts and were shown to almost completely overlap each other on restriction enzyme mapping and DNA sequencing. The nucleotide sequence of the mRNA coding for human liver Ser-PyrAT was determined from those of the cDNA clones. The mRNA comprises at least 1487 nucleotides, and encodes a polypeptide consisting of 392 amino acid residues with a molecular mass of 43,039 Da. The amino acid composition determined on acid hydrolysis of the purified enzyme showed good agreement with that deduced from the nucleotide sequence of the cDNA. In vitro translation of the mRNA derived from one of the isolated clones, pHspt12, as well as that of mRNA extracted from human liver, yielded a product of 43 kDa which reacted with rabbit anti-(rat mitochondrial Ser-PyrAT) serum. Comparison of the deduced amino acid sequences of human Ser-PyrAT and the mature form of rat mitochondrial Ser-PyrAT revealed 79.3% identity. Although human Ser-PyrAT appears to be synthesized as the mature size, the 5'-noncoding region of human Ser-PyrAT mRNA contains a nucleotide sequence which would encode, if translated, an amino acid sequence similar to that of the N-terminal extension peptide of the precursor for rat mitochondrial Ser-PyrAT.     

The primary structure of a cDNA for PsaN,encoding an extrinsic lumenal polypeptide of barley photosystem I

A cDNA clone encoding a 15.501 Da photosystem I (PSI) subunit of barley was isolated using an oligonucleotide based on the NH₂-terminal amino acid sequence of the isolated protein. The polypeptide, which migrates with an apparent molecular mass of 9.5 kDa on denaturing SDS-PAGE, has been designated PSI-N, and the corresponding gene is PsaN. Analysis of the deduced protein sequence indicates a mature protein of 85 amino acid residues and a molecular mass of 9818 Da. PSI-N is a hydrophilic, extrinsic protein with no predicted membrane-spanning regions. The transit peptide of 60 residues (5683 Da) contains a predicted hydrophobic -helix, suggesting that the protein is routed into the thylakoid lumen. Thus, PSI-N is the second known lumenal protein component associated with PSI, together with PSI-F.     

Structure and expression of an inhibitor of fungal polygalacturonases from tomato

A polygalacturonase inhibitor protein (PGIP) was characterized from tomato fruit. Differential glycosylation of a single polypeptide accounted for heterogeneity in concanavalin A binding and in molecular mass. Tomato PGIP had a native molecular mass of 35 to 41 kDa, a native isoelectric point of 9.0, and a chemically deglycosylated molecular mass of 34 kDa, suggesting shared structural similarities with pear fruit PGIP. When purified PGIPs from pear and tomato were compared, tomato PGIP was approximately twenty-fold less effective an inhibitor of polygalacturonase activity isolated from cultures of Botrytis cinerea. Based on partial amino acid sequence, polymerase chain reaction products and genomic clones were isolated and used to demonstrate the presence of PGIP mRNA in both immature and ripening fruit as well as cell suspension cultures. Nucleotide sequence analysis indicates that the gene, uninterrupted by introns, encodes a predicted 36.5 kDa polypeptide containing amino acid sequences determined from the purified protein and sharing 68% and 50% amino acid sequence identity with pear and bean PGIPs, respectively. Analysis of the PGIP sequences also revealed that they belong to a class of proteins which contain leucine-rich tandem repeats. Because these sequence domains have been associated with protein-protein interactions, it is possible that they contribute to the interaction between PGIP and fungal polygalacturonases.     

Isolation and characterisation of a bovine cDNA encoding eukaryotic initiation factor 2 alpha

Two cDNA clones have been isolated, from a bovine lymphosarcoma library, that encode the alpha-subunit of eukaryotic initiation factor 2 (eIF-2 alpha). The predicted 315 amino acid sequence showed more than 99% amino acid identity with rat and human eIF-2 alpha. Galactose-regulated expression of a full length bovine eIF-2 alpha cDNA in yeast resulted in the synthesis of a polypeptide of the predicted molecular mass (36 kDa). Furthermore, the expressed polypeptide cross-reacted with an antibody raised against rabbit eIF-2 alpha confirming the identity of the cDNA.     

Isolation and characterization of mosquito ferritin and cloning of a cDNA that encodes one subunit

Ferritin, an iron storage protein, was isolated from larvae and pupae of Aedes aegypti grown in an iron-rich medium. Mosquito ferritin is a high molecular weight protein composed of several different, relatively small, subunits. Subunits of molecular mass 24, 26, and 28 kDa are equally abundant, while that of 30 kDa is present only in small amounts. The N-terminal sequence of the 24 and 26 kDa subunits are identical for the first 30 amino acids, while that of the 28 kDa subunit differs. Studies using antiserum raised against a subunit mixture showed that the ferritin subunits were present in larvae, pupae, and adult females, and were increased in animals exposed to excess iron. The antiserum also was used to screen a cDNA library from unfed adult female mosquitoes. Nine clones were obtained that differed only in a 27 bp insertion in the 3′ end. Rapid amplification of cDNA ends (RACE) was used to obtain the complete protein coding sequence. A putative iron-responsive element (IRE) is present in the 5′-untranslated region. The deduced amino acid sequence shows a typical leader sequence, consistent with the fact that most insect ferritins are secreted, rather than cytoplasmic proteins. The sequence encodes a mature polypeptide of 20,566 molecular weight, smaller than the estimated size of any of the subunits. However, the sequence exactly matches the N-terminal sequences of the 24 and 26 kDa subunits as determined by Edman degradation. Of the known ferritin sequences, that of the mosquito is most similar to that of somatic cells of a snail. © 1995 Wiley-Liss, Inc.     

The closely related homomeric and heterodimeric mannose-binding lectins from garlic are encoded by one-domain and two-domain lectin genes, respectively.

Lectin cDNA clones for two different lectins from garlic (Allium sativum L.) bulbs, ASAI and ASAII (ASA, Allium sativum agglutinin), were isolated and characterized. The first lectin, ASAI, is a heterodimer composed of two different subunits of 11.5 kDa and 12.5 kDa. It is translated from an mRNA of 1400 nucleotides encoding a polypeptide of 306 amino acids with two very similar domains. N-terminal sequencing of the two polypeptides of the mature lectin confirmed that both subunits are derived from the same precursor and that each corresponds to one of the two domains in the sequence. In contrast to ASAI, the second garlic lectin, ASAII, is a homodimer of two identical 12-kDa subunits. It is translated from an mRNA of approximately 800 nucleotides encoding a polypeptide of 154 amino acids. Interestingly, the coding region of the ASAII cDNA clones is almost identical to that of the second domain of the ASAI cDNA clones.     

Molecular cloning of the Atlantic cod chymotrypsinogen B

The cDNA encoding Atlantic cod (Gadus morhua) chymotrypsinogen B has been isolated and sequenced. Its deduced amino acid sequence consists of a 16-residue signal sequence and a mature polypeptide of 247 residues, being two residues longer than its vertebrate analogs. This mature polypeptide corresponds to a calculated molecular mass of 26.5 kDa and shares 70% sequence identity with cod chymotrypsinogen A. However, the identity between cod chymotrypsinogen B and its other vertebrate analogues is 63-66%. In common with most fish serine proteases, cod chymotrypsinogen B contains a high number of methionine residues. The presence of a threonine instead of a highly conserved serine residue at position 189 is a novel characteristic of this enzyme. Cod chymotrypsin B, as its type B vertebrate analogs, has an alanine at position 226, whereas a glycine is most commonly found at this position in the type A chymotrypsins.     

Isolation and characterization of a cDNA clone encoding an 18-kDa hydrophobic photosystem I subunit (PSI-L) from barley (Hordeum vulgare L.)

Photosystem I in barley contains a polypeptide with an apparent molecular mass of 14 kDa. The polypeptide is N-terminally blocked to amino acid sequencing, but partial amino acid sequences have been determined from three fragments obtained by chemical and enzymatic cleavage. Using an oligonucleotide probe specifying this amino acid sequence, a full length cDNA clone was isolated. The deduced amino acid sequence does not correspond to any previously identified photosystem I subunit. We designate the novel photosystem I subunit PSI-L and the corresponding nuclear gene PsaL. The cDNA clone encodes a precursor polypeptide of 209 amino acid residues with a deduced molecular mass of 22,210 Da. The precursor has a transit peptide typical of proteins imported into chloroplasts. Based on a putative maturation site, the deduced molecular mass of the mature protein is 18 kDa. The PSI-L polypeptide is hydrophobic and predicted to have at least two membrane-spanning alpha-helices. Northern blot analysis shows that the expression of the PsaL gene is light-induced similar to other of the barley photosystem I genes. Southern blot analysis indicates that PsaL is a single copy gene. Partial amino acid sequences of an N-terminally blocked 9-kDa polypeptide show high sequence similarity to the PSI-G polypeptide of spinach and Chlamydomonas reinhardtii. The gene product of PsaG in spinach has previously been assigned as subunit V (Steppuhn, J., Hermans, J., Nechushtai, R., Ljungberg, U., Thümmler, F., Lottspeich, F., and Herrmann, R. G. (1988) FEBS Lett. 237, 218-224). The present study suggests that PSI-L is equivalent to subunit V and that PSI-G is a subunit migrating closely to PSI-H (subunit VI) and PSI-C (subunit VII).     

Biosynthesis pathway of gp90MEL-14, the mouse lymph node-specific homing receptor

The mouse lymph node specific homing receptor gp90MEL-14 is a 95-kDa molecular mass ubiquitinated cell surface molecule involved in the binding of lymphocytes to high endothelial venules in peripheral lymph nodes. The molecule is thought to consist of a core protein to which ubiquitin side chains are covalently bound. Recently we cloned the cDNA encoding the core protein; this cDNA clone encodes for a polypeptide with an estimated molecular mass of 37 kDa. We have studied the biosynthesis of gp90MEL-14 in an effort to explain the difference in molecular mass between the core protein and the 95-kDa mature molecule. Pulse labeling experiments show a rapid synthesis of a 70-kDa precursor form that contains high-mannose N-linked oligosaccharides. On processing of the high-mannose oligosaccharides into complex N-linked oligosaccharides, the precursor matures in a single step into the 95-kDa form. Experiments using deglycosylating enzymes and inhibitors of N-linked glycosylation demonstrate that the molecular mass of deglycosylated gp90MEL-14 is 45 kDa; extensive N-linked glycosylation is responsible for the difference in molecular mass with the mature 95-kDa form. The core protein molecular weight of in vitro transcribed and translated gp90MEL-14 cDNA is consistent with the estimated molecular mass of 37 kDa, calculated from the cDNA sequence of the core protein, and 8 to 10 kDa less than the protein molecular mass of gp90MEL-14 translated in vivo in the presence of tunicamycin (45 kDa). Inasmuch as we have ruled out glycosylation as accounting for this discrepancy, this is consistent with the addition of one ubiquitin moiety to the core protein during biosynthesis. Limited proteolysis confirms the similarity between in vitro transcribed gp90MEL-14 cDNA and the tunicamycin form of gp90MEL-14.     

Purification, identification, and cDNA cloning of Cha o 2, the second major allergen of Japanese cypress pollen.

The second major allergen of Chamaecyparis obtusa (Japanese cypress) pollen, Cha o 2, has been purified and its cDNA cloned. Of patients with pollinosis caused by C. obtusa, 82.5% produce IgE antibodies which react with purified Cha o 2. The purified protein has a molecular mass of 46 kDa and its 12 N-terminal amino acid sequence displays a high homology with that of Cry j 2, the second major allergen of Cryptomeria japonica pollen. cDNA clones coding for Cha o 2 have been isolated using Cry j 2 cDNA as a probe. Cha o 2 cDNA clones were sequenced and found to code a putative 50-residue signal sequence and a 464-residue mature protein with a molecular weight of 50 kDa. Two possible N-linked glycosylation sites were found in the sequence. The deduced amino acid sequence of Cha o 2 shows 74.3% identity with that of Cry j 2. In its primary structure, Cha o 2 shows significant identity with those of the polygalacturonases of avocado, tomato, and maize as well as Cry j 2.     

PSI-O, a new 10-kDa subunit of eukaryotic photosystem I

A novel polypeptide with an apparent molecular mass of 9 kDa was detected after sodium dodecyl sulphate–polyacrylamide gel electrophoresis of Arabidopsis photosystem I (PSI) and was N-terminally sequenced. Corresponding cDNA clones encode a precursor protein of 140 amino acid residues which was imported into isolated intact chloroplasts and processed to the mature protein, designated PSI-O. The mature protein has two transmembrane helices and a calculated mass of 10 104 Da. The PSI-O protein was also shown to be present in PSI isolated from barley and spinach, and was essentially absent in chloroplast grana. Expressed sequences encoding similar proteins are available from many species of plants and green algae.     

Characterization of cDNA clones encoding the extrinsic 23 kDa polypeptide of the oxygen-evolving complex of photosystem II in pea

The 23 kDa polypeptide of the oxygen-evolving complex of photosystem II has been extracted from pea photosystem II particles by washing with 1 M NaCl and purified by anion-exchange chromatography. The N-terminal amino acid sequence has been determined and specific antisera have been raised in rabbits and used to screen a pea-leaf cDNA library in gt11. Determination of the nucleotide sequence of two clones provided the nucleotide sequence for the full 23 kDa polypeptide. The deduced amino acid sequence showed it to code for a mature protein of 186 amino acid residues with an N-terminal presequence of 73 amino acid residues showing a high degree of conservation with previously reported 23 kDa sequences from spinach and Chlamydomonas. Southern blots of genomic DNA from pea probed with the labelled cDNA gave rise to only one band suggesting that the protein is encoded by a single gene. Northern blots of RNA extracted from various organs indicated a message of approximately 1.1 kb, in good agreement with the size of the cDNA, in all chlorophyll-containing tissues. Western blots of protein extracted from the same organs indicated that the 23 kDa polypeptide was present in all major organs of the plant except the roots.Abbreviations bis-Tris bis (2-hydroxyethyl) imino-tris (hydroxymethyl)-methane - pfu plaque-forming units     

Molecular cloning and characterization of thermostable esterase and lipase from Geobacillus thermoleovorans YN isolated from desert soil in Egypt

Genes encoding an esterase (EstA) and lipase (LipA) from Geobacillus thermoleovorans YN, a strain isolated from Egyptian desert soil, were cloned and the respective proteins were expressed in Escherichia coli and characterized. Whereas LipA was cloned directly by PCR amplification from genomic DNA, a genomic library composed of 3000 clones was screened on tributyrin agar plates to find EstA. An open reading frame of 744 bps encoding a polypeptide of 247 amino acid residues was identified as esterase due to its conserved GXSXG motif and its high similarity toward other carboxyl esterases. LipA (416 aa residues) is encoded by an ORF of 1251 bps and constitutes a pre-protein with a calculated molecular mass of 46 kDa including a signal sequence of 28 aa resulting in a mature lipase of 43 kDa. Both, LipA and EstA were sub-cloned and expressed under control of the temperature-inducible λ-promoter and purified by IMAC and gel filtration. The molecular mass of the purified EstA was 29 kDa. Both enzymes were most active at pH ∼9.5 and remarkably stable at pH 5 and 10.5. Temperature optima and stabilities (up to 70 °C) of both enzymes as well as their reaction kinetics and substrate spectra were determined.     

Analysis of cDNA Clones Encoding the Entire Ferredoxin I Precursor Polypeptide from Spinach

We report the isolation and characterization of a recombinant cDNA phage from a lambda gt11 expression library made from polyadenylated spinach RNA that encodes the entire precursor polypeptide of ferredoxin I. The deduced sequence predicts a molecular mass of 10.5 kDa (97 amino acid residues) for the mature protein and a transit peptide of 50 residues (5.2 kDa). In vitro synthesized ferredoxin precursor was used for import experiments with isolated unbroken spinach chloroplasts. The polypeptide was correctly directed to the organelle stroma and processed to the size of the mature protein. Northern analysis indicates a mRNA size of ca. 850 nucleotides which is close to the size of the cDNA insert (ca. 700 bp).     

Polyenoic fatty acid isomerase from the marine alga Ptilota filicina: protein characterization and functional expression of the cloned cDNA

The recently described enzyme, polyenoic fatty acid isomerase (PFI), from the marine alga Ptilota filicina J. Argardh has been analyzed with respect to its protein structure and an associated cofactor. The enzyme was purified to homogeneity (as judged by SDS-PAGE and silver staining). By sedimentation equilibrium ultracentrifugation the mass of the native enzyme was estimated to be 125 kDa. The N-terminal peptide sequence derived from this protein was used to isolate two very similar cDNA clones encoding novel 500-amino acid proteins, both with calculated molecular masses of 55.9 kDa and pIs of 4.87. The data predict translation of a preprotein containing a signal peptide of 21 amino acids that is removed during maturation. Deglycosylation assays demonstrate that native PFI from P. filicina is a glycoprotein. The purified protein is chromophoric with a flavin-like UV spectrum and sequence analysis reveals the presence of a flavin-binding motif near the mature N-terminus. Heterologous expression of active PFI in Arabidopsis, using one of the cDNA clones, was successful as evidenced by conversion of arachidonic acid to a conjugated triene in an in vitro assay of the transgenic plant tissues.     

Cysteinyl-tRNA synthetase from Saccharomyces cerevisiae. Purification, characterization and assignment to the genomic sequence YNL247w

Cysteinyl-tRNA synthetase (CRS) from Saccharomyces cerevisiae was purified 2300-fold with a yield of 33%, to high-specific activity (k_cal4.3 s⁻¹ at 25°C for the aminoacylation of yeast tRNA^Cys). SDS-PAGE revealed a single polypeptide corresponding to a molecular mass of 86 kDa. Polyclonal antibodies to the purified protein inactivated CRS activity and detected only one polypeptide of 86 kDa, the native extract subjected to SDS-PAGE followed by immunoblotting. In contrast to bacterial CRS which is a monomer of about 50 kDa, the native yeast enzyme behaved as a dimer, as assessed by gel filtration and cross-linking. Its subunit molecular mass is in good agreement with the value of 87.5 kDa calculated for the protein encoded by the yeast genomic sequence YNL247w. The latter was previously tentatively assigned to CRS, based on limited sequence similarities to the corresponding enzyme from other sources. Determination of the amino acid sequence of internal polypeptides derived from the purified yeast enzyme confirmed this assignment. Alignment of the primary sequences of prokaryotic and yeast CRS reveals that the larger size of the latter is accounted for mostly by several insertions within the sequence.