Cloning of a temperature-regulated gene encoding a chloroplast omega-3 desaturase from Arabidopsis thaliana.

Previous genetic evidence suggested that the fad8 and fad7 genes of Arabidopsis thaliana encode chloroplast membrane-associated omega-3 desaturases. A putative fad8 cDNA was isolated by heterologous hybridization using a gene encoding an endoplasmic reticulum-localized omega-3 desaturase (fad3) as a probe. The cDNA encodes a protein of 435 amino acid residues with a molecular mass of 50,134 D. Constitutive expression of the cDNA in transgenic plants of a fad7 mutant resulted in genetic complementation of the mutation, indicating that the fad7 and fad8 gene products are functionally equivalent. Expression of the fad8 cDNA in transgenic plants often resulted in the co-suppression of both the endogenous fad7 and fad8 genes in spite of the fact that these two genes share only about 75% nucleotide identity. In contrast to all other known plant desaturases, including fad7, the steady-state level of fad8 mRNA is strongly increased in plants grown at low temperature. This suggests that the role of fad8 is to provide increased omega-3 desaturase activity in plants that are exposed to low growth temperature. The fad8-1 mutation created a premature stop codon 149 amino acids from the amino-terminal end of the fad8 open reading frame, suggesting that this mutation results in a complete loss of fad8 activity.     

Cloning of a higher-plant plastid omega-6 fatty acid desaturase cDNA and its expression in a cyanobacterium.

Oligomers based on amino acids conserved between known plant omega-3 and cyanobacterium omega-6 fatty acid desaturases were used to screen an Arabidopsis cDNA library for related sequences. An identified clone encoding a novel desaturase-like polypeptide was used to isolate its homologs from Glycine max and Brassica napus. The plant deduced amino acid sequences showed less than 27% similarity to known plant omega-6 and omega-3 desaturases but more than 48% similarity to cyanobacterial omega-6 desaturase, and they contained putative plastid transit sequences. Thus, we deduce that the plant cDNAs encode the plastid omega-6 desaturase. The identity was supported by expression of the B. napus cDNA in cyanobacterium. Synechococcus transformed with a chimeric gene that contains a prokaryotic promoter fused to the rapeseed cDNA encoding all but the first 73 amino acids partially converted its oleic acid fatty acid to linoleic acid, and the 16:1(9c) fatty acid was converted primarily to 16:2(9c, 12) in vivo. Thus, the plant omega-6 desaturase, which utilizes 16:1(7c) in plants, can utilize 16:1(9c) in the cyanobacterium. The plastid and cytosolic homologs of plant omega-6 desaturases are much more distantly related than those of omega-3 desaturases.     

Nuclear-encoded chloroplast ribosomal protein L12 of Nicotiana tabacum: characterization of mature protein and isolation and sequence analysis of cDNA clones encoding its cytoplasmic precursor.

Poly(A)+ mRNA isolated from Nicotiana tabacum (cv. Petite Havana) leaves was used to prepare a cDNA library in the expression vector lambda gt11. Recombinant phage containing cDNAs coding for chloroplast ribosomal protein L12 were identified and sequenced. Mature tobacco L12 protein has 44% amino acid identity with ribosomal protein L7/L12 of Escherichia coli. The longest L12 cDNA (733 nucleotides) codes for a 13,823 molecular weight polypeptide with a transit peptide of 53 amino acids and a mature protein of 133 amino acids. The transit peptide and mature protein share 43% and 79% amino acid identity, respectively, with corresponding regions of spinach chloroplast ribosomal protein L12. The predicted amino terminus of the mature protein was confirmed by partial sequence analysis of HPLC-purified tobacco chloroplast ribosomal protein L12. A single L12 mRNA of about 0.8 kb was detected by hybridization of L12 cDNA to poly(A)+ and total leaf RNA. Hybridization patterns of restriction fragments of tobacco genomic DNA probed with the L12 cDNA suggested the existence of more than one gene for ribosomal protein L12. Characterization of a second cDNA with an identical L12 coding sequence but a different 3'-noncoding sequence provided evidence that at least two L12 genes are expressed in tobacco.     

Chloroplast fructose-1,6-bisphosphatase: the product of a mosaic gene.

We show here that light stimulates the expression of nuclear genes in wheat leaves for chloroplast fructose-1,6-bisphosphatase (FBPase) and describe a sequence of amino acids in this enzyme which may be responsible, via thioredoxin, for the light regulation of its activity. This data results from (a) our isolation and characterization of a cDNA of this enzyme which contains its entire coding sequence, and (b) our use of this cDNA as a probe to detect mRNA levels in wheat plants subjected to different light regimes. The similarity in amino acid sequence of the encoded enzyme from diverse sources suggests that the FBPase genes all had a common origin. However, their control sequences have been adjusted so that they are appropriately expressed and their coding sequences modified so that the enzymic activity of their products are suitably regulated in the particular cellular environment in which they must function. The light-activated regulatory sequences in the gene for the chloroplast protein have probably come together by a shuffling of DNA segments.     

Isolation and sequence analysis of a complementary DNA encoding rat liver L-gulono-gamma-lactone oxidase, a key enzyme for L-ascorbic acid biosynthesis

L-Gulono-gamma-lactone oxidase, one of the microsomal flavin enzymes, catalyzes the last step of L-ascorbic acid biosynthesis in many animals; however, it is missing in scurvy-prone animals such as humans, primates, and guinea pigs. A cDNA clone for this enzyme was isolated by screening a rat liver cDNA expression library in lambda gt11 using antibody directed against the enzyme. The cDNA clone contained 2120 nucleotides and an open reading frame of 1320 nucleotides encoding 440 amino acids of the protein with a molecular weight of 50,605. The amino-terminal sequence (residues 1-33) of the enzyme isolated from rat liver completely coincided with the corresponding part of the deduced amino acid sequence. The identity of the cDNA clone was further confirmed by the agreement of the composition of the deduced amino acids with that determined by amino acid analysis of the enzyme. Hydropathy analysis of the deduced amino acid sequence revealed several hydrophobic regions, suggesting that they anchor the protein into the microsomal membrane. The deduced amino acid sequence showed no obvious homology with the flavin-binding regions of other eight flavoenzymes.     

Cloning and characterization of a seed-specific omega-3 fatty acid desaturase cDNA from Perilla frutescens

A cDNA encoding omega-3 fatty acid desaturase was isolated from developing perilla seeds and characterized. On the basis of its deduced amino acid sequence comparison, this cDNA was assumed to be a new isoform of microsomal omega-3 fatty acid desaturase gene. Accumulation of the mRNA for this cDNA showed seed-specific expression.     

Identification and characterization of an animal delta(12) fatty acid desaturase gene by heterologous expression in Saccharomyces cerevisiae

We have cloned a Caenorhabditis elegans cDNA encoding a Delta12 fatty acid desaturase and demonstrated its activity by heterologous expression in Saccharomyces cerevisiae. The predicted protein is highly homologous both to the cloned plant genes with similar function and to the published sequence of the C. elegans omega-3 fatty acid desaturase. In addition, it conforms to the structural constraints expected of a membrane-bound fatty acid desaturase including the canonical histidine-rich regions. This is the first report of a cloned animal Delta(12) desaturase gene. Expression of this cDNA in yeast resulted in the accumulation of 16:2 and 18:2 (linoleic) acids. The increase of membrane fluidity brought about by this change in unsaturation was measured. The production of polyunsaturated fatty acids in yeast cells and the concomitant increase in membrane fluidity was correlated with a modest increase in growth rate at low temperature and with increased resistance to ethanol and oxidative stress.     

The plant S-adenosyl-L-methionine:Mg-protoporphyrin IX methyltransferase is located in both envelope and thylakoid chloroplast membranes.

Chlorophyll biosynthesis requires a metabolic dialog between the chloroplast envelope and thylakoids where biosynthetic activities are localized. Here, we report the first plant S-adenosyl-l-methionine:Mg-protoporphyrin IX methyltransferase (MgP(IX)MT) sequence identified in the Arabidopsis genome owing to its similarity with the Synechocystis sp. MgP(IX)MT gene. After expression in Escherichia coli, the recombinant Arabidopsis thaliana cDNA was shown to encode a protein having MgP(IX)MT activity. The full-length polypeptide exhibits a chloroplast transit peptide that is processed during import into the chloroplast. The mature protein contains two functional regions. The C-terminal part aligns with the Synechocystis full-length protein. The corresponding truncated region binds to Ado-met, as assayed by UV crosslinking, and is shown to harbor the MgP(IX)MT activity. Downstream of the cleaved transit peptide, the 40 N-terminal amino acids of the mature protein are very hydrophobic and enhance the association of the protein with the membrane. In A. thaliana and spinach, the MgP(IX)MT protein has a dual localization in chloroplast envelope membranes as well as in thylakoids. The protein is active in each membrane and has the same apparent size corresponding to the processed mature protein. The protein is very likely a monotopic membrane protein embedded within one leaflet of the membrane as indicated by ionic and alkaline extraction of each membrane. The rationale for a dual localization of the protein in the chloroplast is discussed.     

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.     

Nuclear-encoded chloroplast ribosomal protein L27 of Nicotiana tabacum: cDNA sequence and analysis of mRNA and genes.

A tobacco (Nicotiana tabacum cv. Petite Havana) leaf cDNA library was constructed in the expression vector lambda gt11. Immunological and nucleic acid hybridization screening yielded several cDNAs encoding an M(r) 19,641 precursor to an M(r) 14,420 mature protein which is homologous to Escherichia coli ribosomal protein L27. One cDNA (L27-1; 882 nucleotides long) contains 104 bp of 5'-noncoding sequence, 51 codons for a transit peptide, 128 codons for the predicted mature L27 polypeptide, and 241 bp of 3'-noncoding sequence, including the poly(A)29 tail. A beta-galactosidase-L27 fusion protein was bound to nitrocellulose filters, expressed, and used as an affinity matrix to purify monospecific antibody to L27 protein from an antiserum of rabbits immunized with 50S chloroplast ribosomal proteins. Using this monospecific antibody, protein L27 was identified among HPLC-purified tobacco chloroplast ribosome 50S subunit proteins. The predicted amino terminus of the mature L27 protein was confirmed by partial sequencing of the HPLC-purified L27 protein. The mature L27 protein has 66%, 61%, 56%, and 48% amino acid sequence identity with the L27-type ribosomal proteins of Bacillus subtilis, E. coli, Bacillus stearo-thermophilus, and yeast mitochondria (MRP7), respectively, in the homologous overlapping regions. The transit peptide of tobacco chloroplast ribosomal protein L27 has 41% amino acid sequence similarity with the MRP7 mitochondrial targeting sequence. Tobacco chloroplast L27 protein also has a 40 amino acid long carboxyl-terminal extension (compared to its bacterial counterparts) which is similar to the corresponding portion of yeast MRP7.(ABSTRACT TRUNCATED AT 250 WORDS)     

Characterization of Geranium (Pelargonium graveolens) Chloroplast EF-Tu cDNA

A geranium (Pelargonium graveolens) chloroplast translational elongation factor EF-Tu (tufA) cDNA was isolated. The geranium tufA cDNA is 1,584 bp long with 20 bp of 5 untranslated region (UTR) and 139 bp of 3 UTR. It encodes 474 amino acids including a putative chloroplast transit peptide of 65 amino acids. The deduced polypeptides of the geranium tufA cDNA contains four GTP binding sequences in its N-terminal region and two chloroplast EF-Tu signature regions in the C-terminal region. The predicted molecular weight of the mature geranium chloroplast EF-Tu protein was about 45,000 and its amino acid sequence identity with the chloroplast EF-Tu proteins of tobacco, pea, Arabidopsis, rice, and soybean ranges from 85% to 91%. The geranium tufA appears to exist as a single copy gene like Arabidopsis and rice, whereas other known dicot plants have more than one copy in their nuclear genomes.     

Molecular characterization and physiological role of ascorbate peroxidase from halotolerant Chlamydomonas sp. W80 strain

A cDNA clone encoding an ascorbate peroxidase was isolated from the cDNA library from halotolerant Chlamydomonas W80 by a simple screening method based on the bacterial expression system. The cDNA clone contained an open reading frame encoding a mature protein of 282 amino acids with a calculated molecular mass of 30,031 Da, preceded by the chloroplast transit peptide consisting of 37 amino acids. In fact, ascorbate peroxidase was localized in the chloroplasts of Chlamydomonas W80 cells; the activity was detected in the stromal fraction but not in the thylakoid membrane. The deduced amino acid sequence of the cDNA showed 54 and 49% homology to chloroplastic and cytosolic ascorbate peroxidase isoenzymes of spinach leaves, respectively. The enzyme from Chlamydomonas W80 cells was purified to electrophoretic homogeneity. The molecular properties of the purified enzyme were similar to those of the other algal ascorbate peroxidases rather than those of ascorbate peroxidases from higher plants. The enzyme was relatively stable in ascorbate-depleted medium compared with the chloroplastic ascorbate peroxidase isoenzymes of higher plants. The presence of NaCl (3%) as well as of beta-d-thiogalactopyranoside was needed for the expression of Chlamydomonas W80 ascorbate peroxidase in Escherichia coli.     

Human NAD(+)-dependent mitochondrial malic enzyme. cDNA cloning, primary structure, and expression in Escherichia coli

Mitochondrial NAD(+)-dependent malic enzyme (EC 1.1.1.40) is expressed in rapidly proliferating cells and tumor cells, where it is probably linked to the conversion of amino acid carbon to pyruvate. In this paper, we report the cDNA cloning, amino acid sequence, and expression in Escherichia coli of functional human NAD(+)-dependent mitochondrial malic enzyme. The cDNA is 1,923 base pairs long and contains an open reading frame coding for a 584-amino acid protein. The molecular mass is 65.4 kDa for the unprocessed precursor protein. Comparison of the amino acid sequence of the human protein with the published NADP(+)-dependent mammalian cytosolic or plant chloroplast malic enzymes reveals highly conserved regions interrupted with long stretches of amino acids without significant homology. Expression of the processed protein in E. coli yielded an enzyme with the same kinetic and allosteric properties as malic enzyme purified from human cells.     

Cloning of a bovine orphan transporter and its short splicing variant

We have isolated a cDNA (bv7-3) encoding a member of the Na+,Cl(-)-dependent transporter family and its short splicing variant (bv7-3s) by screening a bovine retina cDNA library. Sequence analysis revealed that bv7-3 encodes a protein of 729 amino acids and is a bovine homologue of the rat orphan transporter v7-3-2. bv7-3s contains 265 amino acids, sharing 252 N-terminal amino acids with bv7-3. Both mRNAs for bv7-3 and bv7-3s were detected in nervous system by Northern blot analysis. In immunofluorescence analysis in transfected HEK 293T cells, myc-tagged bv7-3 was mainly detected on the plasma membrane, whereas myc-tagged bv7-3s showed a pattern of intracellular membrane staining.     

The primary structure of rat ribosomal protein L7. The presence near the amino terminus of L7 of five tandem repeats of a sequence of 12 amino acids

The covalent structure of rat ribosomal protein L7 was determined in part from the sequence of nucleotides in a recombinant cDNA and in part from the sequence of amino acids in portions of the protein. The complementary analyses supplemented and confirmed each other. Ribosomal protein L7 contains 258 amino acids and has a molecular weight of 30,040. The protein has an unusual and striking structural feature near the NH2 terminus: five tandem repeats of a sequence of 12 residues. Rat L7 appears to be related to ribosomal protein L7 from the moderate halophile Vibrio costicola and perhaps to L30 from Bacillus stearothermophilus, to L7 from the moderate halophile NRCC 41227, and to L22 from Nicotinia tobaccum chloroplast. In addition, there is a sequence of 24 amino acids in rat protein L7 that may be related to segments of the same number of residues in Escherichia coli ribosomal proteins S10, S15, L9, and L22.     

Molecular cloning and characterization of a novel rat CXC chemokine, rPBP, the homologue of human and mouse PBP

We have previously cloned the mouse platelet basic protein (mPBP), a homologue of human PBP, from mouse thymic stromal cells. Using EST alignment and RT-PCR, the rat homologue of human and mouse PBP was cloned from lung and named as rPBP. The complete open reading frame and part of the 3'- and 5'-non-coding regions were obtained through rapid amplification of cDNA ends. The rPBP cDNA encodes a protein of 111 amino acids containing a signal peptide of 37 amino acids at the N-terminus, with the mature protein of 74 amino acids. The rPBP is a new member of ELR+CXC chemokines. The mature protein of rPBP shares 69% and 45% homology with mouse and human PBP, respectively. In situ hybridization assay revealed rPBP to be predominantly localized in the pulmonary vascular endothelial cells. The eukaryotic expression vector pCDNA3-rPBP was constructed and transiently transfected into COS-7 cells. In the in vitro chemotaxis assay, the polymorphonuclear leukocytes (PMNs) were chemoattracted to the supernatants from transfected COS-7 cells in a dose-dependent manner. The implication of rPBP found in rat lung is that this chemokine may have the function to recruit PMNs to fight against pulmonary infection.     

Membrane-anchored prolyl hydroxylase with an export signal from the endoplasmic reticulum

We cloned a novel prolyl 4-hydroxylase (PH; EC 1.14.11.2) homolog cDNA from tobacco (Nicotiana tabacum) BY-2 cells based on expression sequence tag information. Like other PHs, this tobacco PH polypeptide has two conserved histidine residues, and it comprises 286 amino acids with a calculated molecular mass of 32 kDa. Interestingly, this protein and homologs in Arabidopsis and rice have predicted transmembrane sequences in their N-terminal regions. This PH homolog was expressed in BY-2 cells as a His-tagged protein, and the expressed protein showed PH activity. Incubation of membranes with high salt, urea, and protease with or without detergents indicated that this protein is an integral membrane protein with a type II configuration. Its membrane-anchored nature is specific for plants because no integral membrane PH has been found in animals. A membrane fractionation study and immunocytochemical studies indicate that this protein localizes in both the endoplasmic reticulum (ER) and Golgi apparatus. Analysis of this protein fused to green fluorescent protein indicated that basic amino acids in the cytoplasmic, N-terminal region of the PH play a role in its export from the ER.     

A homologue of the nuclear coded 49 kd subunit of bovine mitochondrial NADH-ubiquinone reductase is coded in chloroplast DNA.

The mitochondrial NADH-ubiquinone reductase (complex I) is an assembly of approximately 26 different polypeptides. In vertebrates and invertebrates, seven of its subunits are the products of genes in the mitochondrial DNA, and homologues of these genes have been found previously in the chloroplast genomes of Marchantia polymorpha and Nicotiana tabacum, although their function in the chloroplast is unknown. The remainder of the subunits of the mitochondrial complex are nuclear gene products that are imported into the organelle, amongst them the 49 kd subunit, a component of the iron--sulphur subcomplex of the enzyme. In the present work, the N-terminal sequence of this protein has been determined, and this has been used to design two mixtures of synthetic oligonucleotides, each containing 32 different sequences 17 bases long. These mixtures have been used as hybridization probes to isolate cDNA clones from a bovine library. The DNA sequences of these clones have been determined and they encode the mature 49 kd protein, with the exception of amino acids 1 and 2. The protein sequence of 430 amino acids is closely related to those of proteins that are encoded in open reading frames (ORFs) present in the chloroplast genomes of M.polymorpha and N.tabacum. Only one cysteine is conserved and the sequences provide no indication that the 49 kd protein contains iron--sulphur centres. These ORFs are found in the single copy regions of chloroplast DNA in close proximity to four of the homologues of the mammalian mitochondrial genes that encode subunits of complex I.(ABSTRACT TRUNCATED AT 250 WORDS)