Cloning of an Arabidopsis thaliana cDNA coding for farnesyl diphosphate synthase by functional complementation in yeast

A cDNA encoding farnesyl diphosphate synthase, an enzyme that synthesizes C15 isoprenoid diphosphate from isopentenyl diphosphate and dimethylallyl diphosphate, was cloned from an Arabidopsis thaliana cDNA library by complementation of a mutant of Saccharomyces cerevisiae deficient in this enzyme. The A. thaliana cDNA was also able to complement the lethal phenotype of the erg20 deletion yeast mutant. As deduced from the full-length 1.22 kb cDNA nucleotide sequence, the polypeptide contains 343 amino acids and has a relative molecular mass of 39689. The predicted amino acid sequence presents about 50% identity with the yeast, rat and human FPP synthases. Southern blot analyses indicate that A. thaliana probably contains a single gene for farnesyl diphosphate synthase.     

Cloning and tissue distribution of Leptin mRNA in the pig∗

Abstract

The sequence of the pig ob cDNA, which codes for the protein leptin, has been determined by screening a pig adipose cDNA library with an RT‐PCR amplified cDNA fragment of this gene. The 501 bp ob cDNA has 89% identity to the human ob cDNA, 92% identity to the bovine ob cDNA, 84% identity to the mouse ob cDNA and 84% identity to the rat ob cDNA. At the amino acid level, pig leptin which codes for a protein with a predicted molecular weight of 18,661‐dalton, has 86% identity to human leptin, 93% identity to bovine leptin, 84% identity to rat leptin and 84% identity to mouse leptin. RT‐PCR screening of RNA isolated from pig adipose, skeletal muscle, cardiac muscle, pancreas, stomach, kidney, spleen and jejunum detected ob mRNA only in adipose tissue; Northern blots with an ob cDNA probe identified a 4.0 kb species in adipose tissue. The conservation of sequence and expression pattern of leptin in the pig reported here indicates that as in other species, this protein likely plays an important role in controlling food intake and fat deposition in the pig.     

Primary structure, genomic organization and heterologous expression of a glucose transporter from Arabidopsis thaliana.

Both genomic and full length cDNA clones of an Arabidopsis thaliana sugar carrier, STP1, have been obtained using a cDNA clone of the H+/hexose cotransporter from the green alga Chlorella kessleri as hybridization probe. The peptide predicted from these sequences in 522 amino acids long and has a molecular weight of 57,518 kd. This higher plant sugar carrier contains 12 putative transmembrane segments and is highly homologous to the H+/hexose cotransporter from Chlorella, with an overall identity in the amino acid sequence of 47.1%. It is also homologous to the human HepG2 glucose transporter (28.4%), and other sugar carriers from man, rat, yeast and Escherichia coli. The definite proof for the function of the STP1 protein as a hexose transporter and data on its substrate specificity were obtained by heterologous expression in the fission yeast Schizosaccharomyces pombe. Transformed yeast cells transport D-glucose with a 100-fold lower KM value than control cells. Moreover only the transformed cells were able to accumulate the non-metabolizable D-glucose analogue 3-O-methyl-D-glucose, indicating that the Arabidopsis carrier catalyses an energy dependent, active uptake of hexoses. Expression of STP1 mRNA is low in heterotrophic tissues like roots or flowers. High levels of expression are found in leaves.     

Cloning and sequencing of cDNA for the rat plasminogen activator inhibitor-1

A cDNA encoding rat plasminogen activator-inhibitor (PAI-1) has been isolated from an HTC rat hepatoma cell cDNA library constructed in phage lambda gt10. The cDNA contains 118 bp of 5'-untranslated sequence, 1206 bp encoding a 402-amino acid (aa) protein and 1747 bp of 3'-untranslated sequence. The protein-coding sequence and the derived amino acid sequence share 82% and 81% identity, respectively, with human PAI-1 cDNA and protein. The rat cDNA encodes a preprotein with a 23-aa leader peptide and a predicted N-terminal serine for the mature protein. Three of four potential N-glycosylation acceptor sites as well as the active site of rat PAI-1 are identical to the human protein. The 3'-untranslated region contains a number of unusual regions, including 80 bp of tandemly repeated GpA dinucleotides, a 115-bp stretch which shares greater than 90% sequence identity with a region within the 3'-untranslated cDNA of human PAI-1, and two 70-bp stretches of highly T-rich sequence located close to the 3'-terminus of the cDNA.     

Cloning of the cDNA for the Human ATP Synthase OSCP Subunit (ATP50) by Exon Trapping and Mapping to Chromosome 21q22.1-q22.2

Exon trapping was used to clone portions of potential genes from human chromosome 21. One trapped sequence showed striking homology with the bovine and rat ATP synthase OSCP (oligomycin sensitivity conferring protein) subunit. We subsequently cloned the full-length human ATP synthase OSCP cDNA (GDB/HGMW approved name ATP50) from infant brain and muscle libraries and determined its nucleotide and deduced amino acid sequence (EMBL/GenBank Accession No. X83218). The encoded polypeptide contains 213 amino acids, with more than 80% identity to bovine and murine ATPase OSCP subunits and over 35% identity to Saccharomyces cerevisiae and sweet potato sequences. The human ATP50 gene is located at 21q22.1-q22.2, just proximal to D21S17, in YACs 860G11 and 838C7 of the Chumakov et al. (Nature 359:380, 1992) YAC contig. The gene is expressed in all human tissues examined, most strongly in muscle and heart. This ATP50 subunit is a key structural component of the stalk of the mitochondrial respiratory chain F₁F₀-ATP synthase and as such may contribute in a gene dosage-dependent manner to the phenotype of Down syndrome (trisomy 21).     

Sequence conservation between porcine and human LRRK2

Leucine-rich repeat kinase 2 (LRRK2) is a member of the ROCO protein superfamily (Ras of complex proteins (Roc) with a C-terminal Roc domain). Mutations in the LRRK2 gene lead to autosomal dominant Parkinsonism. We have cloned the porcine LRRK2 cDNA in an attempt to characterize conserved and therefore likely functional domains. The LRRK2 cDNA contains an open reading frame of 7,578 bp. The predicted LRRK2 protein consists of 2,526 amino acids of 86–93% identity with its mammalian couterparts. The deduced amino acid sequence of encoded porcine LRRK2 protein displays extensive homology with its human counterpart, with greatest similarities in those regions that contain the kinase domain, the Roc domain and the COR motif. Expression of porcine LRRK2 mRNA in various organs and tissues is similar to its human counterpart and not limited to the brain. The obtained data show that the LRRK2 sequence and expression patterns are conserved across species. The porcine LRRK2 gene was mapped to chromosome 5q25. The results obtained suggest that the LRRK2 gene might be of particular interest in our attempt to generate a transgenic porcine model for Parkinson’s disease. The sequence of the porcine LRRK2 cDNA, encoding the LRRK2/dardarin protein, and the genomic sequence of LRRK2 have been submitted to DDBJ/EMBL/GenBank under the Accessions Numbers EU019992, and EU019994, respectively.     

DNA cloning and amino acid sequence determination of a major constituent protein of mammalian nucleoli

Using a cDNA probe encoding the nucleolar protein N038 of Xenopus laevis, we have isolated clones that code for the corresponding mammalian protein from cDNA libraries of mouse embryonal carcinoma and fetal liver cells. The murine cDNA-derived amino acid sequence defines a polypeptide of 292 amino acids (including the initial methionine) of a total molecular weight of 32560 and identifies a single 1.5 kb mRNA on Northern blot hybridization. This polypeptide, which is highly homologous to the Xenopus protein N038, displays an organization in three major domains: (1) an aminoterminal portion of 119 amino acids, which shows a striking homology to nucleoplasmin of Xenopus; (2) a central portion of 68 amino acids that contains two extended acidic domains, a shorter of 13 residues and a longer of 29 residues, separated by an interval enriched in positively charged amino acids; (3) a carboxyterminal portion of 105 amino acids, which is almost identical to the reported partial amino acid sequence of human and rat nucleolar protein termed B23. The sequence comparisons show that the murine protein is the mammalian counterpart to the nucleolar protein N038 of Xenopus and is compatible with the idea that both proteins N038 represent the amphibian and murine equivalents to the human and rat nucleolar phosphoprotein B23. Special sequence features and predicted conformations of this protein are discussed in relation to the specific localization and the possible functions of this major nucleolar protein.     

Identification and characterization of the mouse MutS homolog 5: Msh5

We have identified and characterized the complete cDNA and gene for the mouse MutS homolog 5 (Msh5), as a step toward understanding the molecular genetic mechanisms involved in the biological function of this new MutS homologous protein in mammals. The Msh5 cDNA contains a 2502-bp open reading frame (ORF) that encodes an 833-amino acid protein with a predicted molecular weight of 92.6 kDa, which shares 89.8% amino acid sequence identity with the human hMSH5 protein. Northern blot analysis demonstrated the presence of a Msh5 mRNA approximately 2.9-kb in length, most abundantly expressed in mouse testis. Yeast two-hybrid analysis indicated that the mouse Msh5 protein positively interacted with the human hMSH4 protein—suggesting that Msh5 shares common functional properties with its human counterpart. Sequence and structural analyses show that the mouse gene Msh5 spans approximately 18 kb and contains 24 exons that range in length from 36 bp for exon 7 to 392 bp for exon 1. Structural comparison with the human hMSH5 gene revealed that all of the Msh5 internal exons, but not introns, are conserved in length with the human hMSH5. The Msh5 gene is located on mouse Chromosome (Chr) 17 in a location that is syntenic to the region of human Chr 6 harboring the hMSH5 gene. The identification and characterization of Msh5 will facilitate studies of the potential functional roles of this new member of the MutS family. Received: 11 May 1999 / Accepted: 16 July 1999     

Molecular cloning and sequence analysis of human dipeptidyl peptidase IV, a serine proteinase on the cell surface.

The cDNA coding for the human dipeptidyl peptidase IV (DPPIV) has been isolated and sequenced. The nucleotide sequence (3465 bp) of the cDNA contains an open reading frame encoding a polypeptide comprising 766 amino acids, one residue less than those of rat DPPIV. The predicted amino acid sequence exhibits 84.9% identity to that of the rat enzyme, and contains nine potential N-linked glycosylation sites, one site more than those in the rat enzyme. A putative catalytic triad for serine proteinases, serine, aspartic acid and histidine, are found in a completely conserved COOH-terminal region (positions 625-752).     

Molecular cloning and expression in Escherichia coli of a cDNA encoding human pancreatic elastase 2

We have cloned a DNA that is complementary to the messenger RNA that encodes human pancreatic elastase 2 from a human pancreatic cDNA library using a cloned cDNA for rat pancreatic elastase 2 messenger RNA. This complementary DNA contains the entire protein coding region of 807 nucleotides which encodes preproelastase of 269 amino acids, and 4 and 82 nucleotides of the 5'- and 3'-untranslated sequences, respectively. When this deduced amino acid sequence was compared with known amino acid sequences it showed 82% homology with rat pancreatic elastase 2. This deduced sequence also contains a 16-amino-acid peptide identical with the N-terminal sequence determined for native human pancreatic proelastase 2. Taking the above findings together, we conclude that the cloned cDNA encodes a mature enzyme of 241 amino acids including 16 and 12 amino acids for a signal peptide and an activation peptide, respectively. Moreover, the predicted key amino acid residues involved in determining the substrate specificity of mammalian pancreatic elastase 2 are retained in the human enzyme. Cloned human pancreatic elastase 2 cDNA was expressed in E. coli as a mature and pro-form protein. Both resulting proteins showed immunoreactivity toward anti-elastase serum and enzymatic activity. We have also cloned and sequenced a porcine pancreatic elastase 2 cDNA.     

Purification of chloroplast elongation factor Tu and cDNA analysis in tobacco: the existence of two chloroplast elongation factor Tu species

We have purified a chloroplast elongation factor Tu (EF-Tu) from tobacco (Nicotiana tabacum) and determined its N-terminal amino acid sequence. Two distinct cDNAs encoding EF-Tu were isolated from a leaf cDNA library of N. sylvestris (the female progenitor of N. tabacum) using an oligonucleotide probe based on the EF-Tu protein sequence. The cDNA sequence and genomic Southern analyses revealed that tobacco chloroplast EF-Tu is encoded by two distinct genes in the nuclear genome of N. sylvestris. We designated the corresponding gene products EF-Tu A and B. The mature polypeptides of EF-Tu A and B are 408 amino acids long and share 95.3% amino acid identity. They show 75–78% amino acid identity with cyanobacterial and chloroplast-encoded EF-Tu species.     

Molecular cloning of rat and mouse membrane cofactor protein (MCP, CD46): preferential expression in testis and close linkage between the mouse Mcp and Cr2 genes on distal chromosome 1

 Human membrane cofactor protein (MCP, CD46) is widely distributed and is one of the plasma membrane complement inhibitors. We isolated cDNA clones encoding genetic homologues of human MCP from a rat testis cDNA library. Northern blot analysis indicated that rat MCP is preferentially expressed in testis, similar to what is found with guinea pig MCP. We identified several different cDNAs, which were presumably generated by alternative splicing from a single-copy gene. The most prevalent isoform corresponded to the Ser/Thr/Pro-rich C type of human MCP. Mouse MCP cDNA was cloned by polymerase chain reaction based on the nucleotide sequence of rat MCP. The deduced amino acid sequence showed 77.8% identity to rat MCP. Mouse MCP was also preferentially expressed in testis. Unique expression in testis in rat and mouse as well as guinea pig suggests that MCPs in these species not only act as complement regulatory proteins but may also have more specialized functions in fertilization or reproduction. Genetic mapping by linkage analysis indicated that the mouse Mcp gene is located on distal chromosome 1, closely linked to the complement receptor 2 (Cr2) gene. Received: 24 February 1998 / Revised: 11 May 1998     

Human Phenol SulfotransferaseSTP2Gene: Molecular Cloning, Structural Characterization, and Chromosomal Localization

Sulfonation is an important pathway in the biotransformation of many drugs, xenobiotics, neurotransmitters, and steroid hormones. The thermostable (TS) form of phenol sulfotransferase (PST) preferentially catalyzes the sulfonation of “simple” planar phenols, and levels of activity of TS PST in human tissues are controlled by inheritance. Two different human liver TS PST cDNAs have been cloned that encode proteins with amino acid sequences that are 96% identical. We have determined the structure and chromosomal localization of the gene for one of these two cDNAs,STP2,as a step toward understanding molecular genetic mechanisms involved in the regulation of this enzyme activity in humans.STP2spans approximately 5.1 kb and contains nine exons that range in length from 74 to 347 bp. The locations of mostSTP2exon–intron splice junctions are identical to those of a gene for the thermolabile form of PST in humans,STM;a rat PST gene; a human estrogen ST (EST) gene,STE;and a guinea pig EST gene. The two initialSTP2exons, IA and IB, were identified by performing 5′-rapid amplification of cDNA ends with human liver cDNA as template. Exons IA and IB are noncoding and represent two different human liver TS PST cDNA 5′-untranslated region sequences. The two apparent 5′-flanking regions of theSTP2gene, regions flanking exons IA and IB, contain no canonical TATA boxes, but do contain CCAAT elements.STP2was localized to human chromosome 16 by performing the PCR with DNA from NIGMS human/rodent somatic cell hybrids as template. Structural characterization ofSTP2will make it possible to begin to study molecular genetic mechanisms involved in the regulation of TS PST activity in human tissue.     

Characterization of a full-length petunia cDNA encoding a polypeptide of the light-harvesting complex associated with photosystem I

We have isolated and characterized a full-length cDNA clone (LHCI-15) which specifies a new chlorophyll-binding protein. This protein is associated with the light-harvesting complex of photosystem I (LHCI). The DNA sequence predicts a precursor protein of 270 amino acids, which shares significant homology with the amino acid sequence of another chlorophyll-binding protein; the chlorophyll a/b-binding (Cab) protein of the photosystem II light-harvesting complex (LHCII). There are two extensive regions of homology (at least 45 residues each) which have approximately 50% amino acid sequence identity. These regions coincide with two of the proposed membrane-spanning alpha helices in the Cab proteins of the LHCII and probably include conserved chlorophyll-binding sites. The LHCI-15 cDNA hybridizes to at least 7 genomic EcoRI DNA fragments, which are very closely related at the nucleotide sequence level.     

Isolation and characterization of a <Emphasis Type="Italic">Paramecium</Emphasis> cDNA clone encoding a putative serine/threonine protein kinase

Mitogen-activated protein (MAP) kinases, a closely related family of protein kinases, are involved in cell cycle regulation and differentiation in yeast and human cells. They have not been documented in ciliates. We used PCR to amplify DNA sequences of a ciliated protozoan—Paramecium caudatum—using primers corresponding to amino acid sequences that are common to MAP kinases. We isolated and sequenced one putative MAP kinase-like serine/threonine kinase cDNA from P. caudatum. This cDNA, called pcstk1 (Paramecium caudatum Serine/Threonine Kinase 1) shared approximately 35% amino acid identity with MAP kinases from yeast. MAP kinases are activated by phosphorylation of specific threonine and tyrosine residues. These two amino acid residues are conserved in the PCSTK1 sequence at positions Thr 159 and Tyr 161. The PSTAIRE motif, which is characteristic of the CDK2 gene family, cannot be found in ORF of PCSTK1. The highest homology score was to human STK9, which contains MAP type kinase domains. Comparisons of expression level have shown that pcstk1 is expressed equally in cells at different stages (sexual and asexual). We discussed the possibility, as in other organisms, that a family of MAP kinase genes exists in P. caudatum.     

Characterization of human adenylate kinase 3 (AK3) cDNA and mapping of the AK3 pseudogene to an intron of the NF1 gene.

We have isolated cDNA clones for human adenylate kinase isozyme 3 (AK3) with a genomic probe from the neurofibromatosis type 1 (NF1) region. Three overlapping clones isolated from a human frontal-cortex cDNA library gave rise to a consensus sequence of 1.7 kb. The open reading frame identified in this sequence predicted a peptide of 223 residues. A database search revealed striking homology, about 58% amino acid sequence identity, between this predicted protein and bovine AK3. Human AK3 protein also showed significant homology to other members of the adenylate kinase family isolated from various species. Genomic Southern analysis suggested that multiple AK3 loci exist in the human genome, including one located in an intron of NF1 on chromosome 17. The chromosome-17 locus appears to be a processed pseudogene, since it is intronless and contains a polyadenylate tract; it nevertheless retains coding potential because the open reading frame is not impaired by any observed base substitutions.     

Isolation of a cDNA encoding a novel GTP-binding protein of Arabidopsis thaliana

A cDNA encoding for a 68 kDa GTP-binding protein was isolated from Arabidopsis thaliana (aG68). This clone is a member of a gene family that codes for a class of large GTP-binding proteins. This includes the mammalian dynamin, yeast Vps1p and the vertebrate Mx proteins. The predicted amino acid sequence was found to have high sequence conservation in the N-terminal GTP-binding domain sharing 54% identity to yeast Vps1p, 56% amino acid identity to rat dynamin and 38% identity to the murine Mx1 protein. The northern analysis shows expression in root, leaf, stem and flower tissues, but in mature leaves at lower levels. Southern analysis indicates that it may be a member of a small gene family or the gene may contain an intron.