An unusual seed-specific 3-ketoacyl-ACP synthase associated with the biosynthesis of petroselinic acid in coriander.

Petroselinic acid (18:1 delta6) is the major component of the seed oil of Umbelliferae species such as coriander (Coriandrum sativum) as well as Araliaceae and Garryaceae species. This unusual fatty acid is synthesized in plastids by the delta4 desaturation of palmitoyl-acyl carrier protein (16:0-ACP) and subsequent elongation of delta4-hexadecenoyl (16:1 delta4)-ACP. To characterize the enzymatic nature of the elongation reaction, an in vitro assay was developed with 16:1 delta4-ACP and 16:0-ACP as substrates. Extracts from developing coriander seeds elongated 16:1 delta4-ACP in a competitive assay at rates ten-fold greater than that with 16:0-ACP. In contrast, extracts from castor seeds, which do not synthesize petroselinic acid, displayed a strong preference for the elongation of 16:0-ACP rather than 16:1 A4-ACP. In addition, the elongation of 16:1 A4-ACP and 16:0-ACP by coriander seed extracts was strongly inhibited by cerulenin at concentrations as low as 10 microM. This finding suggested that the elongation of 16:1 A4-ACP and 16:0-ACP in coriander seed is catalyzed by a 3-ketoacyl-ACP synthase (KAS) 1-type enzyme(s), rather than a KAS II-type activity that is typically associated with 16:0-ACP elongation. Consistent with this, a cDNA for a diverged form of KAS I was isolated from a cDNA library prepared from developing coriander seed. Using a variety of heterologous probing techniques, no KAS II-type cDNAs could be identified in this library. Multiple alignment of KAS amino acid sequences indicated that, although the polypeptide corresponding to the coriander cDNA is more closely related to KAS I. its active site motif deviates from those found in both KAS I and KAS II enzymes. Also suggestive of a possible role in petroselinic acid synthesis, antibodies raised to the recombinant protein recognize an abundant 45 kDa polypeptide in coriander endosperm that is not detected in coriander leaves. These antibodies also recognize a major band of similar size in developing seeds of English ivy (Hedera helix), an Araliaceae species that also accumulates petroselinic acid in a seed-specific manner.

Brassicaceae express multiple isoforms of biotin carboxyl carrier protein in a tissue-specific manner.

Plastidial acetyl-coenzyme A carboxylase from most plants is a multi-enzyme complex comprised of four different subunits. One of these subunits, the biotin carboxyl carrier protein (BCCP), was previously proposed to be encoded by a single gene in Arabidopsis. We report and characterize here a second Arabidopsis BCCP (AtBCCP2) cDNA with 42% amino acid identity to AtBCCP1 and 75% identity to a class of oilseed rape (Brassica napus) BCCPs. Both Arabidopsis BCCP isoforms were expressed in Escherichia coli and found to be biotinylated and supported carboxylation activity when reconstituted with purified, recombinant Arabidopsis biotin carboxylase. In vitro translated AtBCCP2 was competent for import into pea (Pisum sativum) chloroplasts and processed to a 25-kD polypeptide. Extracts of Arabidopsis seeds contained biotinylated polypeptides of 35 and 25 kD, in agreement with the masses of recombinant AtBCCP1 and 2, respectively. AtBCCP1 protein was present in developing tissues from roots, leaves, flowers, siliques, and seeds, whereas AtBCCP2 protein was primarily expressed in 7 to 10 d-after-flowering seeds at levels approximately 2-fold less abundant than AtBCCP1. AtBCCP1 transcript reflected these protein expression profiles present in all developing organs and highest in 14-d leaves and siliques, whereas AtBCCP2 transcript was present in flowers and siliques. In protein blots, four different BCCP isoforms were detected in developing seeds from oilseed rape. Of these, a 35-kD BCCP was detected in immature leaves and developing seeds, whereas developing seeds also contained 22-, 25-, and 37-kD isoforms highly expressed 21 d after flowering. These data indicate that oilseed plants in the family Brassicaceae contain at least one to three seed-up-regulated BCCP isoforms, depending upon genome complexity.

Toward a functional catalog of the plant genome. A survey of genes for lipid biosynthesis.

Public databases now include vast amounts of recently acquired DNA sequences that are only partially annotated and, furthermore, are often annotated by automated methods that are subject to errors. Maximum information value of these databases can be derived only by further detailed analyses that frequently require careful examination of records in the context of biological functions. In this study we present an example of such an analysis focused on plant glycerolipid synthesis. Public databases were searched for sequences corresponding to 65 plant polypeptides involved in lipid metabolism. Comprehensive search results and analysis of genes, cDNAs and expressed sequence tags (ESTs) are available online (http://www.canr.msu.edu/lgc). Multiple alignments provided a method to estimate the number of genes in gene families. Further analysis of sequences allowed us to tentatively identify several previously undescribed genes in Arabidopsis. For example, two genomic sequences were identified as candidates for the palmitate-specific monogalactosyldiacylglycerol desaturase (FAD5). A candidate genomic sequence for 3-ketoacyl-acyl-carrier protein (ACP) synthase involved in mitochondrial fatty acid biosynthesis was also identified. Biotin carboxyl carrier protein (BCCP) in Arabidopsis is encoded by at least two genes, but the most abundant BCCP transcript so far has not been characterized. The large number (>165,000) of plant ESTs also provides an opportunity to perform "digital northern" comparisons of gene expression levels across many genes. EST abundance in general correlated with biochemical and flux characteristics of the enzymes in Arabidopsis leaf tissue. In a few cases, statistically significant differences in EST abundance levels were observed for enzymes that catalyze similar reactions in fatty acid metabolism. For example, ESTs for the FatB acyl-ACP thioesterase occur 21 times compared with 7 times for FatA acyl-ACP thioesterase, although flux through the FatA reaction is several times higher than through FatB. Such comparisons may provide initial clues toward previously undescribed regulatory phenomena. The abundance of ESTs for ACP compared with that of stearoyl-ACP desaturase and FatB acyl-ACP thioesterase suggests that concentrations of some enzymes of fatty acid synthesis may be higher than their acyl-ACP substrates.

Fatty acid synthesis: from CO2 to functional genomics.

For over 25 years there has been uncertainty over the pathway from CO(2) to acetyl-CoA in chloroplasts. On the one hand, free acetate is the most effective substrate for fatty acid synthesis by isolated chloroplasts, and free acetate concentrations reported in leaf tissue (0.1-1 mM) appear adequate to saturate fatty acid synthase. On the other hand, a clear mechanism to generate sufficient free acetate for fatty acid synthesis is not established and direct production of acetyl-CoA from pyruvate by a plastid pyruvate dehydrogenase seems a more simple and direct path. We have re-examined this question and attempted to distinguish between the alternatives. The kinetics of (13)CO(2) and (14)CO(2) movement into fatty acids and the absolute rate of fatty acid synthesis in leaves was determined in light and dark. Because administered (14)C appears in fatty acids within < 2-3 min our results are inconsistent with a large pool of free acetate as an intermediate in leaf fatty acid synthesis. In addition, these studies provide an estimate of the turnover rate of fatty acid in leaves. Studies similar to the above are more complex in seeds, and some questions about the regulation of plant lipid metabolism seem difficult to solve using conventional biochemical or molecular approaches. For example, we have little understanding of why or how some seeds produce >50% oil whereas other seeds store largely carbohydrate or protein. Major control over complex plant biochemical pathways may only become possible by understanding regulatory networks which provide 'global' control over these pathways. To begin to discover such networks and provide a broad analysis of gene expression in developing oilseeds, we have produced microarrays that display approx. 5000 seed-expressed Arabidopsis genes. Sensitivity of the arrays was 1-2 copies of mRNA/cell. The arrays have been hybridized with probes derived from seeds, leaves and roots, and analysis of expression ratios between the different tissues has allowed the tissue-specific expression patterns of many hundreds of genes to be described for the first time. Approx. 10% of the genes were expressed at ratios > or = 10-fold higher in seeds than in leaves or roots. Included in this list are a large number of proteins of unknown function, and potential regulatory factors such as protein kinases, phosphatases and transcription factors. The arrays were also found to be useful for analysis of Brassica seeds.

Biotin carboxyl carrier protein isoforms in Brassicaceae oilseeds.

De novo fatty acid biosynthesis occurs predominantly in plastids. The committed step for this pathway is the production of malonyl-CoA catalysed by acetyl-CoA carboxylase (ACCase). In most plants, plastidial ACCase is a multisubunit complex minimally comprised of four polypeptides, which catalyse two reactions. In the simple oilseed plant, Arabidopsis thaliana, two cDNAs encoding biotin carboxyl carrier protein (BCCP) isoforms have been identified. The remaining three subunits of ACCase appear to be single gene members in A. thaliana [Mekhedov, Martinez de Ilarduya and Ohlrogge (2000) Plant Physiol. 122, 389-401]. Transcript and protein analyses indicate that BCCP isoform 1 is constitutively expressed while isoform 2 is predominantly expressed in developing seeds. The apparent masses of constitutive and seed-enriched BCCP isoforms agree with the apparent masses of recombinantly expressed isoforms 1 and 2, respectively. In a related oilseed, Brassica napus, multiple putative BCCP polypeptides were also observed in developing seeds. The presence of a divergent class of BCCP genes in A. thaliana and B. napus, coincident with appropriately sized biotin-containing proteins expressed specifically in developing seeds, suggests that these BCCPs play an evolutionarily conserved role in oil deposition.

Mutation in ntrC gene leading to the derepression of nitrogenase synthesis in Rhodobacter sphaeroides.

The Rhodobacter sphaeroides mutants Drn12 and Drn21 derepressed for nitrogenase synthesis in the presence of ammonia and impaired in utilization of certain nitrogen sources have been analyzed. Both mutants show a low level of expression of the glnBA operon. The DNA fragment restoring the wild-type phenotype to these mutants contains the 3'-portion of ntrB gene and the entire ntrC gene. Sequence analysis showed that Drn12 bears a missense mutation in the ntrC gene. The mutation results in the replacement of a glycine residue by aspartate within the N-terminal domain of the NtrC protein. Pleiotropic phenotypes of Drn12 and Drn21 appear to be associated with an alteration in the regulation of glnBA expression.

Submergence enhances expression of a gene encoding 1-aminocyclopropane-1-carboxylate oxidase in deepwater rice.

Partial submergence greatly stimulates internodal growth in deep water rice (Oryza sativa L.). Previous work has shown that the effect of submergence is, at least in part, mediated by ethylene, which accumulates in the air spaces of submerged internodes. To investigate the expression of the genes encoding ethylene biosynthetic enzymes during accelerated growth of deep water rice, we cloned a 1-aminocyclopropane-1-carboxylate (ACC) oxidase cDNA (OS-ACO1) from internodes of submerged plants and measured the activity of the enzyme in tissue extracts with an improved assay. We found an increase in ACC oxidase mRNA levels and enzyme activity after 4 to 24 h of submergence. Thus, it is likely that ethylene biosynthesis in internodes of deep water rice is controlled, at least in part, at the level of ACC oxidase.

Gibberellin promotes histone H1 kinase activity and the expression of cdc2 and cyclin genes during the induction of rapid growth in deepwater rice internodes.

Partial submergence or treatment with either ethylene or gibberellin (GA) promotes rapid internodal growth in deepwater rice (Oryza sativa L.). Earlier work has shown that GA is the immediate hormonal signal for this growth response, which involves induction of the cell cycle at the G2/M phase transition and subsequent enhancement in the rate of DNA synthesis. In all eukaryotes, onset of mitosis is regulated by the p34cdc2/CDC28 protein kinase, whose activity is assayed by in vitro phosphorylation of histone H1. It was found that GA enhanced the activity of p34cdc2/CDC28-like histone H1 kinase in the intercalary meristem of rice internodes. The enzyme activity showed a sharp peak that correlated with a decrease in the population of cells in the G2 phase during the first 4 h of GA treatment but not with changes in DNA synthesis. The level of histone H1 kinase activity increased again when cell division activity in the intercalary meristem is known to be high. The expression of two cdc2 homologs was examined. The mRNA level of one of these, cdc2Os-2, was increased after 1 h of GA treatment, whereas the mRNA level of the other, cdc2Os-1, was not affected. Two cDNAs, cycOs1 and cycOs2, which show high homology to cyclin cDNAs, were cloned from rice. They share 75.1% sequence identity at the amino acid level, and both of them are encoded by mRNAs of 1.6 kb. Expression of the two corresponding cyclin genes was enhanced by GA, and the time course of the induction was compatible with a role for both cyclins in regulating the G2/M phase transition. The cyclins were expressed in the intercalary meristem and the elongation zone of the internode, but the GA-induced increase in transcript levels was restricted to the meristem only. The results support the hypothesis that induction of mitosis by GA is brought about by increased p34cdc2/CDC28 protein kinase activity, which may be the result of transcriptional activation of the cdc2Os-2, cycOs1 and cycOs2 genes.

[Structural organization of C-hordein genes from barley]. / Strukturnaia organizatsiia genov C-gordeinov iachmenia.

Three nucleotide sequences from the barley genome, containing the C-hordein genes lambda CH1, lambda CH3, and lambda CH5, were cloned. They were shown to have different physical maps, and the structural organization of homologous sequences was found to be highly conservative. The surrounding sequences of C-hordein genes contain insertions specific in length and copy number. A Hind III fragment of about 3000 bp in size of the lambda CH5 clone contains a highly repeated nucleotide sequence. The lambda CH3 clone contains two "head-to-head" repeated C-hordein genes. This is the first evidence that hordein genes may be located in the immediate vicinity of each other in a 17,800-bp region. A 919-bp nucleotide sequence of one of the C-hordein genes from this clone, pCHOR3, was determined. An open reading frame of 363 bp codes for a potential polypeptide consisting of 121 amino acids. The main part of the mature polypeptide consists of repeated octapeptide Pro-Gln-Gln-Pro-Phe-Pro-Gln-Gln motifs. The coding region has no introns. The 5' untranslated region contains regulatory loci specific for prolamin genes: the -300 element and the CAAT, AGGA, and TATA boxes. Significant differences in the lengths of the coding regions of cloned genes were observed: 363 and 1000 bp in the lambda CH3 clone, 500 bp in the lambda CH1 clone, and 600 bp in the lambda CH5 clone, which may be a molecular cause of C-hordein size polymorphism.

[Nucleotide sequence of the barley C-hordein gene]. / Nukleotidnaia posledovatel'nost' gena C-gordeina iachmenia.

The nucleotide sequence of barley C-hordein gene lambda CH4 and its flanking regions of 2820 bp length was determined. The gene contains no introns and codes for 310 amino acid long polypeptide. The 94% of the deduced amino acid sequence of the mature protein (291 amino acids) is made up of a repeating octapeptide motiff, PQQPEPQQ, which is repeated throughout the peptide chain between a unique 12 amino acid long NH2 terminal and a unique 6 amino acid long COOH-terminal end. In the 5' non-coding region there are TATA-, AGGA-, CAAT-and "endosperm" boxes. The 3' non-coding region has two polyadenylation signals. Compared with the published C-hordein sequences, our gene contains a number of insertions, deletions and substitutions. In the 3'-untranslated region there are two insertions 157 and 23 bp long. For the longer insertion no significant homology was found in the Gene Bank datebase. This insertion is the largest known rearrangement in the otherwise highly conservative surroundings of barley storage protein genes.

[Bacillus subtilis gene rec223: molecular cloning and proposed function of its protein product]. / Gen rec223 Bacillus subtilis: molekuliarnoe klonirovanie i predpolagaemye funktsii ego belkovogo produkta.

Chromosomal DNA fragment which complemented rec223 mutation of Bacillus subtilis was cloned. Introduction of one copy of the cloned gene into the cells of the rec mutant restored both normal activity for DNA damages repair after mitomycin C action and recombination proficiency. Using multicopy vector led to no formation of recombinants, which was probably connected with overproduction of rec223 gene protein product in Bacillus subtilis cells.

[Nucleotide sequence of the B1-hordein gene of barley Hordeum vulgare L]. / Nukleotidnaia posledovatel'nost' gena B1-gordeina iachmenia Hordeum vulgare L.

The gene encoding B1 hordein of Hordeum vulgare (cv. Donetsky 4) was cloned and entirely sequenced. It contains no introns and codes for of 293 amino acids long polypeptide with molecular weight 33418. Our clone differs from the previously sequenced B1 hordein genes in some positions within the coding region (there are 4 nucleotide changes and a 12 bp deletion, as compared with the pB11 cDNA clone, and 5 nucleotide changes, as compared with the pBHP184 genomic clone). These changes result in polymorphism of amino acid sequences at 5 positions. 5'-flanking region contains putative regulatory and promoter sequences and differs from that of the pBHP184 clone in 3 positions.

[Similar organization of beta,beta'-subunit RNA-polymerase genes and adjacent ribosomal protein genes in Enterobacteriaceae and Pseudomonas putida]. / Skodnaia organizatsiia genov beta,beta'-sub''edinits RNK-polimerazy i prilezhashchikh genov ribosomnykh belkov u bakterii kishechnoi gruppy i Pseudomonas putida.

The genes coding for the RNA-polymerase beta,beta'-subunits and adjacent ribosomal protein genes in Escherichia coli, Salmonella typhimurium, Shigella flexneri, Serratia marcescens, Proteus mirabilis and Pseudomonas putida are compared by the Southern hybridization procedure. In all the species studied close clustering of the genes rplKAJL and rpoBC is demonstrated. Preliminary physical maps for these genes in S. typhimurium, S. flexneri, S. marcescens and P. mirabilis are proposed. Rifampicin is shown to stimulate the beta,beta'-subunit synthesis in all the species studied, suggesting the existence of attenuators localized in front of the rpoBC genes. The similar arrangement of the genes rplKAJLrpoBC in a number of bacterial species is proposed to be due to common mechanisms of their coordinate expression.

DNA rearrangements generating artificial promoters.

The promoter-cloning plasmid pBRH4 (a derivative of pBR322 with a partially deleted promoter of the tet gene) is shown to contain a sequence which is located near the EcoRI site and can operate as an effective Pribnow box, but is not the remainder of the deletion-inactivated tet promoter of pBR322. If there is a sequence homologous to the '-35' promoter region at the border of the DNA fragment inserted at the EcoRI site, then a compound promoter arises and activates the tet gene. Point mutations in the nonfunctional--35 region of pBRH4 also activate the cryptic Pribnow box. Several compound promoters were obtained through deleting small portions of DNA around the HindIII site of pBR322; the deletions moved various sequences that could operate as Pribnow boxes towards the -35 region of the tet promoter.

[Cloning of the promoter of the RNA polymerase operon located before the structural gene of the beta-subunit]. / Klonirovanie promotora RNK-polimeraznogo operona, raspolozhennogo pered strukturnym genom beta-sub"edinitsy.

An EcoRI-fragment of the rpoBC operon carrying the end of the rplL gene, the intercistron region and the beginning of the rpoB gene cloned on the pBRH4 plasmid makes it tetracyclin-resistant, i. e. possesses the properties of a promoter. There is no appreciable difference in the degree of antibiotic resistance of recombinant plasmids carrying the main PJ promoter and the additional promoter.

[Effect of rifampicin on the synthesis of bacterial RNA polymerase mRNA by means of hybrid plasmids]. / Issledovanie vliianiia rifampitsina na skorost' sinteza mRNK bakterial'noi RNK-polimerazy s pomoshch'iu gibridnykh plazmid.

We studied the rate of synthesis of beta- and beta'-subunits of DNA-dependent RNA polymerase and the rate of beta-polypeptide mRNA synthesis in rifampicin-treated bacteria. The antibiotic doses used did not significantly inhibit the total RNA and protein synthesis in rifampicin-sensitive bacteria. For RNA-DNA hybridization experiments a pOD162 plasmid was constructed carrying a fragment of the rpoB gene and no other chromosome DNA regions. It is found that low doses of rifampicin cause an absolute and differential increase in the rate of synthesis of the specific mRNA for the beta-subunit, suggesting a stimulation of the corresponding gene transcription. However the absolute transcription stimulation does not fully correlate with the relative acceleration of beta-mRNA and the corresponding polypeptide synthesis. The stimulating effect of rifampicin on the beta-polypeptide synthesis was demonstrated also in a coupled system of transcription and translation directed by lambda rifd 47 DNA. The possible mechanisms of the rifampicin action are discussed.

The effect of rifampicin upon the transcription of RNA polymerase beta-gene in Escherichia coli.

We studied the rate of synthesis of beta-and beta'-subunits of DNA-dependent RNA polymerase and the rate of beta-polypeptide mRNA synthesis in rifampicin-treated bacteria. The chosen antibiotic doses did not significantly inhibit the total RNA and protein synthesis in rifampicin-sensitive bacteria. For RNA-DNA hybridization experiments a pOD162 plasmid was constructed carrying a fragment of the rpoB gene and no other chromosome DNA regions. It was found that low doses of rifampicin cause an absolute and a relative increase in the rate of synthesis of the specific mRNA for the beta-subunit, suggesting a stimulation of the corresponding gene transcription and excluding the possibility of a less pronounced inhibition of the rpoB gene expression compared to that of most other genes. However the relative acceleration of transcription is substantially higher than the absolute one. The stimulating effect of rifampicin on the beta-polypeptide synthesis is also demonstrated in a coupled system of transcription and translation directed by lambda rifd47 DNA. The possible mechanisms of the rifampicin action are discussed.