Repeated consensus sequence and pseudopromoters in the four coordinately regulated tubulin genes of Chlamydomonas reinhardi

Increased triacylglycerol production in oleaginous microalga Neochloris oleoabundans by overexpression of plastidial lysophosphatidic acid acyltransferase

Background

Microalgae are promising sources of lipid triacylglycerol (TAG) for sustainable production of natural edible oils and biofuels. Nevertheless, products derived from microalgal TAG are not yet economically feasible; increasing TAG content via targeted genetic engineering of genes in TAG biosynthesis pathway are important to achieve economic viability. To increase TAG content, oleaginous microalga Neochloris oleoabundans was genetically engineered with the endogenous enzyme lysophosphatidic acid acyltransferase (NeoLPAAT1) responsible for plastidial TAG biosynthesis

Results

NeoLPAAT1 was found to contain all canonical motifs attributed to LPAAT proteins, two hypothetical membrane-spanning domains and a putative chloroplast transit peptide, indicating as a member of plastidial LPAAT type 1 subfamily. The NeoLPAAT1-expression cassette integrated in N. oleoabundans transformant was confirmed by PCR. The neutral lipid content in the transformant detected by Nile red staining was 1.6-fold higher than in wild type. The NeoLPAAT1 transcript was twofold higher in the transformant than wild type. Considerably higher lipid quantity was found in the transformant than wild type: total lipid content increased 1.8- to 1.9-fold up to 78.99 ± 1.75% dry cell weight (DCW) and total lipid productivity increased 1.8- to 2.4-fold up to 16.06 ± 2.68 mg/L/day; while TAG content increased 2.1- to 2.2-fold up to 55.40 ± 5.56% DCW and TAG productivity increased 1.9- to 2.8-fold up to 10.67 ± 2.37 mg/L/day. A slightly altered fatty acid composition was detected in the transformant compared to wild type; polyunsaturated fatty acid (C18:2) increased to 19% from 11%. NeoLPAAT1-overexpression stability was observed in the transformant continuously maintained in solid medium over 150 generations in a period of about 6 years.

Conclusions

Our results demonstrate the considerably increased TAG content and productivity in N. oleoabundans by overexpression of plastidial NeoLPAAT1 that are important for products derived from microalgal TAG to achieve economic viability. Plastidial LPAAT1 can be a candidate for target genetic manipulation to increase TAG content in other microalgal species with desired characteristics for production of natural edible oils and biofuels.

Accelerated triacylglycerol production and altered fatty acid composition in oleaginous microalga Neochloris oleoabundans by overexpression of diacylglycerol acyltransferase 2

Background

Microalgae are promising sources of lipid triacylglycerol (TAG) for biodiesel production. However, to date, microalgal biodiesel is technically feasible, but not yet economically viable. Increasing TAG content and productivity are important to achieve economic viability of microalgal biodiesel. To increase TAG content, oleaginous microalga Neochloris oleoabundans was genetically engineered with an endogenous key enzyme diacylglycerol acyltransferase 2 (NeoDGAT2) responsible for TAG biosynthesis.

Results

The integration of NeoDGAT2 expression cassettes in N. oleoabundans transformant was confirmed by PCR. The neutral lipid accumulation in the transformant detected by Nile red staining was accelerated and 1.9-fold higher than in wild type; the lipid bodies in the transformant visualized under fluorescence microscope were also larger. The NeoDGAT2 transcript was two-fold higher in the transformant than wild type. Remarkably higher lipid accumulation was found in the transformant than wild type: total lipid content increased 1.6-to 2.3-fold up to 74.5 ± 4.0% dry cell weight (DCW) and total lipid productivity increased 1.6- to 3.2-fold up to 14.6 ± 2.0 mg/L/day; while TAG content increased 1.8- to 3.2-fold up to 46.1 ± 1.6% DCW and TAG productivity increased 1.6- to 4.3-fold up to 8.9 ± 1.3 mg/L/day. A significantly altered fatty acid composition was detected in the transformant compared to wild type; the levels of saturated fatty acid C16:0 increased double to 49%, whereas C18:0 was reduced triple to 6%. Long-term stability was observed in the transformant continuously maintained in solid medium over 100 generations in a period of about 4 years.

Conclusions

Our results demonstrate the increased TAG content and productivity in N. oleoabundans by NeoDGAT2 overexpression that may offer the first step towards making microalgae an economically feasible source for biodiesel production. The strategy for genetically improved microalga presented in this study can be applied to other microalgal species possessing desired characteristics for industrial biofuel production.

High-Throughput Genetics Strategies for Identifying New Components of Lipid Metabolism in the Green Alga Chlamydomonas reinhardtii

Microalgal lipid metabolism is of broad interest because microalgae accumulate large amounts of triacylglycerols (TAGs) that can be used for biodiesel production (Durrett et al Plant J 54(4):593-607, 2008; Hu et al Plant J 54(4):621-639, 2008). Additionally, green algae are close relatives of land plants and serve as models to understand conserved lipid metabolism pathways in the green lineage. The green alga Chlamydomonas reinhardtii (Chlamydomonas hereafter) is a powerful model organism for understanding algal lipid metabolism. Various methods have been used to screen Chlamydomonas mutants for lipid amount or composition, and for identification of the mutated loci in mutants of interest. In this chapter, we summarize the advantages and caveats for each of these methods with a focus on screens for mutants with perturbed TAG content. We also discuss technical opportunities and new tools that are becoming available for screens of mutants altered in TAG content or perturbed in other processes in Chlamydomonas.

Impaired flagellar regeneration due to uncoordinated expression of two divergent actin genes in Chlamydomonas

Chlamydomonas has two actin genes: one encoding a conventional actin (90% amino acid identity with mammalian actin) and the other a highly divergent actin (NAP; 64% identity). The expression of the two genes is regulated in a mutually exclusive manner. Thus, ida5, a mutant that lacks the conventional actin (CrA) gene, expresses NAP abundantly, whereas wild-type cells express NAP only negligibly under normal conditions. To explore the physiological significance of the two actins, chimeric genes with the 5' upstream region of one gene replaced by that of the other were constructed and used to transform ida5. The transformant (TF5) with a chimeric clone comprising the 5'-untranslated region from the NAP gene and the CrA-encoding sequence recovered the dyneins missing in ida5 and showed almost normal motility. After deflagellation of this transformant, however, only about 30% of cells grew flagella, unlike wild-type cells, >80% of which displayed reflagellation. Transformant TF10, which contains the CrA upstream region and NAP coding region, underwent reflagellation normally, as did the parent strain, ida5. In TF5, the mRNA level of both CrA and NAP was increased greatly during reflagellation. In light of the recent finding that NAP mRNA is expressed transiently upon reflagellation in wild-type cells, the described results suggest that 1) the expression of NAP mRNA is indispensable for flagellation and 2) robust expression of CrA may inhibit proper flagellation by interfering with the function of NAP in the early stages of reflagellation.

An engineered Streptomyces hygroscopicus aph 7" gene mediates dominant resistance against hygromycin B in Chlamydomonas reinhardtii

We have developed a positively selectable marker for the green alga Chlamydomonas reinhardtii using the Streptomyces hygroscopicus aminoglycoside phosphotransferase gene (aph7"). Its expression is controlled by C. reinhardtii regulatory elements, namely, the beta2-tubulin gene promoter in combination with the first intron and the 3' untranslated region of the small subunit of ribulose bisphosphate carboxylase, rbcS2. C. reinhardtii cell-wall deficient and wild-type strains were transformed at rates up to 5 x 10(-5) with two constructs, pHyg3 and pHyg4 (intron-less). Transformants selected on plates with 10 microg/ml hygromycin B exhibited diverse levels of resistance of up to 200 microg/ml that were stably maintained for at least seven months; they contained two to five copies of the construct integrated in their genomes. Transcription of the chimeric aph7" gene, correct splicing of the rbcS2 intron, and polyadenylation of the transcripts have been verified by sequencing of RT-PCR products. Average co-transformation rates using pHyg3 and a second selectable plasmid were about 11%. This advocates the hygromycin-resistance plasmid, pHyg3, as a new versatile tool for the transformation of a broad range of C. reinhardtii strains without the sustained need for using auxotrophic mutants as recipients.

Isolation and characterization of a Chlamydomonas gene that encodes a putative blue-light photoreceptor of the phototropin family

In the search for a Chlamydomonas reinhardtii photoreceptor that may mediate blue-light-induced responses we identified a gene that encodes a protein with a structure typical for that of members of the phototropin family, i.e. two LOV domains that may function in flavin mononucleotide binding and a ser/thr kinase domain. The amino acid sequences of these domains are closely related to those of higher plant phototropins. This single-copy gene (Phot) encodes a protein with a calculated molecular mass of 81.4 kDa which is distinctly smaller than the homologous proteins of higher plants that exhibit molecular masses around 120 kDa. Expression analyses revealed rather constant levels of Phot mRNA and Phot protein in vegetative cells incubated in the dark and in cells undergoing gametogenesis. Only vegetative cells in the light showed a reduced expression of the Phot gene. Cell fractionation studies revealed that the protein is membrane-associated. In higher plants, phototropins were shown to be bound to the plasma membrane. However, the expression of a Phot-GFP gene fusion in tobacco protoplasts revealed an association of the fusion protein with the endogenous membrane network of the cell.

The cytochrome c gene from the green alga Chlamydomonas reinhardtii. Structure and expression in wild-type cells and in obligate photoautotrophic (dk) mutants

The expression of the Chlamydomonas reinhardtii cytochrome c gene was studied at the steady-state mRNA level. The inclusion of acetate under illumination produced a marked increase in cytochrome c transcripts. This effect was not affected by two inhibitors of mitochondrial energy metabolism. Three different obligate photoautotrophic mutants with defective mitochondria showed normal levels of induction, suggesting that utilization of acetate for respiration is not required for this process. Light, in the presence or absence of acetate, also promoted an increase in cytochrome c transcript levels. This effect could be abolished by treatment of the cells with an inhibitor of the photosynthetic electron transport chain, suggesting that light acts through photosynthesis to promote the induction. In addition, a genomic clone encompassing the Chlamydomonas cytochrome c gene has been isolated and analyzed. The gene contains three introns, two of which are located at positions similar to those in the rice and Arabidopsis cytochrome c genes, indicating the existence of an evolutionary link. It is concluded that the cytochrome c gene from C. reinhardtii is subject to metabolic regulation through a mechanism that responds to the intracellular level of either acetate or a compound derived from its metabolization through a pathway different from mitochondrial respiration.

Cytoplasmic dynein heavy chain 1b is required for flagellar assembly in Chlamydomonas

A second cytoplasmic dynein heavy chain (cDhc) has recently been identified in several organisms, and its expression pattern is consistent with a possible role in axoneme assembly. We have used a genetic approach to ask whether cDhc1b is involved in flagellar assembly in Chlamydomonas. Using a modified PCR protocol, we recovered two cDhc sequences distinct from the axonemal Dhc sequences identified previously. cDhc1a is closely related to the major cytoplasmic Dhc, whereas cDhc1b is closely related to the minor cDhc isoform identified in sea urchins, Caenorhabditis elegans, and Tetrahymena. The Chlamydomonas cDhc1b transcript is a low-abundance mRNA whose expression is enhanced by deflagellation. To determine its role in flagellar assembly, we screened a collection of stumpy flagellar (stf) mutants generated by insertional mutagenesis and identified two strains in which portions of the cDhc1b gene have been deleted. The two mutants assemble short flagellar stumps (<1-2 micrometer) filled with aberrant microtubules, raft-like particles, and other amorphous material. The results indicate that cDhc1b is involved in the transport of components required for flagellar assembly in Chlamydomonas.

Molecular characterization of four beta-tubulin genes from dinitroaniline susceptible and resistant biotypes of Eleusine indica

Dinitroaniline herbicides are antimicrotubule drugs that bind to tubulins and inhibit polymerization. As a result of repeated application of dinitroaniline herbicides, resistant biotypes of goosegrass (Eleusine indica) developed in previously susceptible wild-type populations. We have previously reported that alpha-tubulin missense mutations correlate with dinitroaniline response phenotypes (Drp) (Plant Cell 10: 297-308, 1998). In order to ascertain associations of other tubulins with dinitroaniline resistance, four beta-tubulin cDNA classes (designated TUB1, TUB2, TUB3, and TUB4) were isolated from dinitroaniline-susceptible and -resistant biotypes. Sequence analysis of the four beta-tubulin cDNA classes identified no missense mutations. Identified nucleotide substitutions did not result in amino acid replacements. These results suggest that the molecular basis of dinitroaniline resistance in goosegrass differs from those of colchicine/dinitroaniline cross-resistant Chlamydomonas reinhardtii and benzimidazole-resistant fungi and yeast. Expression of the four beta-tubulins was highest in inflorescences. This is in contrast to alpha-tubulin TUA1 that is expressed predominantly in roots. Collectively, these results imply that beta-tubulin genes are not associated with dinitroaniline resistance in goosegrass. Phylogenetic analysis of the four beta-tubulins, together with three alpha-tubulins, suggests that the resistant biotype developed independently in multiple locations rather than spreading from one location.

The Chlamydomonas IDA7 locus encodes a 140-kDa dynein intermediate chain required to assemble the I1 inner arm complex

To identify new loci that are involved in the assembly and targeting of dynein complexes, we have screened a collection of motility mutants that were generated by insertional mutagenesis. One such mutant, 5B10, lacks the inner arm isoform known as the I1 complex. This isoform is located proximal to the first radial spoke in each 96-nm axoneme repeat and is an important target for the regulation of flagellar motility. Complementation tests reveal that 5B10 represents a new I1 locus, IDA7. Biochemical analyses confirm that ida7 axonemes lack at least five I1 complex subunits. Southern blots probed with a clone containing the gene encoding the 140-kDa intermediate chain (IC) indicate that the ida7 mutation is the result of plasmid insertion into the IC140 gene. Transformation with a wild-type copy of the IC140 gene completely rescues the mutant defects. Surprisingly, transformation with a construct of the IC140 gene lacking the first four exons of the coding sequence also rescues the mutant phenotype. These studies indicate that IC140 is essential for assembly of the I1 complex, but unlike other dynein ICs, the N-terminal region is not critical for its activity.

An intronic enhancer is required for deflagellation-induced transcriptional regulation of a Chlamydomonas reinhardtii dynein gene

Chlamydomonas reinhardtii flagellar regeneration is accompanied by rapid induction of genes encoding a large set of flagellar structural components and provides a model system to study coordinate gene regulation and organelle assembly. After deflagellation, the abundance of a 70-kDa flagellar dynein intermediate chain (IC70, encoded by ODA6) mRNA increases approximately fourfold within 40 min and returns to predeflagellation levels by approximately 90 min. We show by nuclear run-on that this increase results, in part, from increased rates of transcription. To localize cis induction elements, we created an IC70 minigene and measured accumulation, in C. reinhardtii, of transcripts from the endogenous gene and from introduced promoter deletion constructs. Clones containing 416 base pairs (bp) of 5'- and 2 kilobases (kb) of 3'-flanking region retained all sequences necessary for a normal pattern of mRNA abundance change after deflagellation. Extensive 5'- and 3'- flanking region deletions, which removed multiple copies of a proposed deflagellation-response element (the tub box), did not eliminate induction, and the IC70 5'-flanking region alone did not confer deflagellation responsiveness to a promoterless arylsulfatase (ARS) gene. Instead, an intron in the IC70 gene 5'-untranslated region was found to contain the deflagellation response element. These results suggest that the tub box does not play an essential role in deflagellation-induced transcriptional regulation of this dynein gene.

Alpha-tubulin missense mutations correlate with antimicrotubule drug resistance in Eleusine indica

Dinitroaniline herbicides are antimicrotubule drugs that bind to tubulins and inhibit polymerization. As a result of repeated application of dinitroaniline herbicides, highly resistant and intermediately resistant biotypes of goosegrass (Eleusine indica) developed in previously wild-type populations. Three alpha-tubulin cDNA classes (designated TUA1, TUA2, and TUA3) were isolated from each biotype. Nucleotide differences between the susceptible and the resistant (R) alpha-tubulins were identified in TUA1 and TUA2. The most significant differences were missense mutations that occurred in TUA1 of the R and intermediately resistant (I) biotypes. Such mutations convert Thr-239 to Ile in the R biotype and Met-268 to Thr in the I biotype. These amino acid substitutions alter hydrophobicity; therefore, they may alter the dinitroaniline binding property of the protein. These mutations were correlated with the dinitroaniline response phenotypes (Drp). Plants homozygous for susceptibility possessed the wild-type TUA1 allele; plants homozygous for resistance possessed the mutant tua1 allele; and plants heterozygous for susceptibility possessed both wild-type and mutant alleles. Thus, we conclude that TUA1 is at the Drp locus. Using polymerase chain reaction primer-introduced restriction analysis, we demonstrated that goosegrass genomic DNA can be diagnosed for Drp alleles. Although not direct proof, these results suggest that a mutation in an alpha-tubulin gene confers resistance to dinitroanilines in goosegrass.

Alpha-tubulin missense mutations correlate with antimicrotubule drug resistance in Eleusine indica

Dinitroaniline herbicides are antimicrotubule drugs that bind to tubulins and inhibit polymerization. As a result of repeated application of dinitroaniline herbicides, highly resistant and intermediately resistant biotypes of goosegrass (Eleusine indica) developed in previously wild-type populations. Three alpha-tubulin cDNA classes (designated TUA1, TUA2, and TUA3) were isolated from each biotype. Nucleotide differences between the susceptible and the resistant (R) alpha-tubulins were identified in TUA1 and TUA2. The most significant differences were missense mutations that occurred in TUA1 of the R and intermediately resistant (I) biotypes. Such mutations convert Thr-239 to Ile in the R biotype and Met-268 to Thr in the I biotype. These amino acid substitutions alter hydrophobicity; therefore, they may alter the dinitroaniline binding property of the protein. These mutations were correlated with the dinitroaniline response phenotypes (Drp). Plants homozygous for susceptibility possessed the wild-type TUA1 allele; plants homozygous for resistance possessed the mutant tua1 allele; and plants heterozygous for susceptibility possessed both wild-type and mutant alleles. Thus, we conclude that TUA1 is at the Drp locus. Using polymerase chain reaction primer-introduced restriction analysis, we demonstrated that goosegrass genomic DNA can be diagnosed for Drp alleles. Although not direct proof, these results suggest that a mutation in an alpha-tubulin gene confers resistance to dinitroanilines in goosegrass.

Cloning and characterization of a gene encoding an actin-related protein in Chlamydomonas

The genomic sequence of an actin-related gene in Chlamydomonas reinhardtii has been determined. The deduced amino acid sequence of this gene shares a 63.9% identity with that of a recently reported conventional actin-encoding gene in C. reinhardtii. Phylogenetic analysis shows that the product of this actin-related gene does not fit into conventional actin or any major actin-related protein categories. The actin-related gene in C. reinhardtii contains seven introns in the coding region and, as described for the conventional actin gene, it contains several sequences similar to the 'tub box' sequence motif in its 5'-upstream region. Southern blot analysis of the gene shows a hybridization pattern different from that of the conventional actin gene, indicating that these genes are distinct from one another. Northern blot analysis of poly(A)+RNA shows the messages of the two genes to be very similar in size, yet the message level of the actin-related gene is significantly lower than that of the conventional actin gene.

Chlamydomonas inner-arm dynein mutant, ida5, has a mutation in an actin-encoding gene

Chlamydomonas flagellar inner-arm dynein consists of seven subspecies (a-g), of which all but f contain actin as subunits. The mutant ida5 and a new strain, ida5-t, lack four subspecies (a, c, d, and e). These mutants were found to have mutations in the conventional actin gene, such that its product is totally lost; ida5 has a single-base deletion that results in a stop codon at a position about two-thirds from the 5' end of the coding region, and ida5-t lacks a large portion of the entire actin gene. Two-dimensional gel electrophoresis patterns of the axonemes and inner-arm subspecies b and g of ida5 lacked the spot of actin (isoelectric point [pI] = approximately 5.3) but had two novel spots with pIs of approximately 5.6 and approximately 5.7 instead. Western blot with different kinds of anti-actin antibodies suggested that the proteins responsible for the two novel spots and conventional actin are different but share some antigenicity. Since Chlamydomonas has been shown to have only a single copy of the conventional actin gene, it is likely that the novel spots in ida5 and ida5-t originated from another gene(s) that codes for a novel actin-like protein(s) (NAP), which has hitherto been undetected in wild-type cells. These mutants retain the two inner-arm subspecies b and g, in addition to f, possibly because NAP can functionally substitute for the actin in these subspecies while they cannot in other subspecies. The net growth rate of ida5 and ida5-t cells did not differ from that of wild type, but the mating efficiency was greatly reduced. This defect was apparently caused by deficient growth of the fertilization tubule. These results suggest that NAP can carry out some, but not all, functions performed by conventional actin in the cytoplasm and raise the possibility that Chlamydomonas can live without ordinary actin.

Cloning and characterization of the actin-encoding gene of Chlamydomonas reinhardtii

The genomic and complementary DNA sequences were determined for the unique actin-encoding gene in Chlamydomonas reinhardtii (Cr). The deduced amino acid (aa) sequence of this actin was similar to most known actin sequences, with the highest identity (98.1%) being with that of Volvox carteri actin. The Cr actin-encoding gene has one intron in the 5'-untranslated region and eight introns in the coding region. The latter eight introns occur at the same positions as those in the V. carteri actin-encoding gene. The 5'-upstream region contains four short stretches of sequence similar to the so-called 'tub box', a characteristic sequence proposed to be responsible for the regulation of synthesis of various axonemal proteins upon deflagellation and during the cell cycle. Southern blot analysis indicated that the Cr genome has only a single actin-encoding gene. An antibody specific for the 11-aa peptide corresponding to the N-terminal sequence of this actin was found to react with a 43-kDa protein associated with flagellar inner-arm dynein. These findings indicate that a single actin functions in both the cytoplasm and flagella of this organism.

Translational regulation of chloroplast genes. Proteins binding to the 5'-untranslated regions of chloroplast mRNAs in Chlamydomonas reinhardtii

We have examined the effects of illumination, carbon source, and levels of chloroplast protein synthesis on trans-acting proteins that bind to the leaders of five representative chloroplast mRNAs. The accumulation of these five chloroplast mRNAs and the proteins they encode were measured in cells grown under identical conditions. Extracts from all cell types examined contain a minimum set of six chloroplast 5'-untranslated region (UTR)-binding proteins (81, 62, 56, 47, 38, and 15 kDa). Fractionation results suggest that multiple forms of the 81-, 62-, and 47-kDa proteins may exist. A 36-kDa protein was found in all cells except those deficient in chloroplast protein synthesis. Binding of the 81-, 47-, and 38-kDa proteins to the rps12 leader is effectively competed by the atpB or rbcL 5'-UTRs, indicating that the same proteins bind to all three leaders. In contrast, these three proteins do not bind to the nuclear-encoded alpha-1 tubulin leader, which bound novel proteins of 110, 70, and 43 kDa. Cis-acting sequences within the 5'-UTRs of two chloroplast mRNAs (rps7 and atpB) have been identified which are protected from digestion by RNase T1 by extracts enriched for the 81-, 47-, and 38-kDa proteins.

Volvox carteri alpha 2- and beta 2-tubulin-encoding genes: regulatory signals and transcription

Microtubules (MT) carry out several specialized morphogenetic functions in the multicellular green alga Volvox carteri (Vc), in addition to functions also executed in its closest unicellular relative, Chlamydomonas reinhardtii (Cr). To find out if these differences in morphogenetic complexity are reflected in tubulin (Tub) differences, we have compared the Vc alpha tub and beta tub genes with their Cr counterparts. The Vc genome contains two alpha tub and two beta tub genes. We report here the sequences of the alpha 2tub and beta 2tub genes, and thus complete the set of four tub sequences. The two alpha tub and two beta tub genes code for identical 451 (alpha) and 443 (beta) amino acid (aa) polypeptides; they differ from the Cr homologs in two (alpha) and one (beta) residues, respectively. Silent nucleotide (nt) exchanges between sibling genes are much more frequent in Vc than in Cr (12 vs. 2%), probably owing to a more stringent codon bias in the latter alga. Transcription of alpha 2tub and beta 2tub starts with an A, 26 bp (alpha 2) or 25 bp (beta 2) downstream from the TATA box. A 16-bp promoter element upstream and a G + C-rich sequence downstream from the TATA box are conserved in all tub of both species. Moreover, a 28-bp element of conserved sequence, and hence of possible functional significance, was found at similar locations in the 5' untranslated region (UTR) of all four alpha tub. A conserved TGTAA downstream from the translation stop codon represents the algal poly(A)-addition signal (in both Vc and Cr).(ABSTRACT TRUNCATED AT 250 WORDS)

Two copper-responsive elements associated with the Chlamydomonas Cyc6 gene function as targets for transcriptional activators

In Chlamydomonas reinhardtii, cytochrome c6 (cyt c6) is synthesized only under conditions of copper deficiency when plastocyanin cannot be synthesized. In previous work, the copper-responsive regulation of cyt c6 synthesis was demonstrated to occur by control of transcription, with no contribution from post-transcriptional processes. To understand the mechanism underlying its regulation, the genomic DNA encoding cyt c6 (Cyc6) was analyzed for the presence of copper-responsive elements. Sequences lying between positions -127 and -7 with respect to the start site of transcription were found to be sufficient to confer copper-responsive expression on either a promoterless or a minimal beta-tubulin promoter-driven (arylsulfatase-encoding) reporter gene. Analysis of this 120-bp fragment indicated that copper-responsive elements lie in two distinct regions (between -110 to -56 and -127 to -109). ATG fusions between copper-insensitive promoters and the coding plus 3' untranslated region of the Cyc6 gene resulted in the accumulation of cyt c6 in copper-supplemented medium; this confirms earlier studies indicating a lack of post-transcriptional control in this copper-responsive pathway. In the context of a constitutive promoter (derived from the beta-tubulin gene), each region was found to function as an activator of transcription in copper-deficient cells, and the metal specificity of the response of reporter genes containing either one or both regions was identical to that of the endogenous Cyc6 gene. The copper-responsive synthesis of cyt c6 is thus attributed to these two 5' upstream sequences.

Two copper-responsive elements associated with the Chlamydomonas Cyc6 gene function as targets for transcriptional activators

In Chlamydomonas reinhardtii, cytochrome c6 (cyt c6) is synthesized only under conditions of copper deficiency when plastocyanin cannot be synthesized. In previous work, the copper-responsive regulation of cyt c6 synthesis was demonstrated to occur by control of transcription, with no contribution from post-transcriptional processes. To understand the mechanism underlying its regulation, the genomic DNA encoding cyt c6 (Cyc6) was analyzed for the presence of copper-responsive elements. Sequences lying between positions -127 and -7 with respect to the start site of transcription were found to be sufficient to confer copper-responsive expression on either a promoterless or a minimal beta-tubulin promoter-driven (arylsulfatase-encoding) reporter gene. Analysis of this 120-bp fragment indicated that copper-responsive elements lie in two distinct regions (between -110 to -56 and -127 to -109). ATG fusions between copper-insensitive promoters and the coding plus 3' untranslated region of the Cyc6 gene resulted in the accumulation of cyt c6 in copper-supplemented medium; this confirms earlier studies indicating a lack of post-transcriptional control in this copper-responsive pathway. In the context of a constitutive promoter (derived from the beta-tubulin gene), each region was found to function as an activator of transcription in copper-deficient cells, and the metal specificity of the response of reporter genes containing either one or both regions was identical to that of the endogenous Cyc6 gene. The copper-responsive synthesis of cyt c6 is thus attributed to these two 5' upstream sequences.

Expression of a foreign gene in Chlamydomonas reinhardtii

Genomic transformation of Chlamydomonas reinhardtii exposed to glass-bead abrasion was accomplished with a chimeric neomycin phosphotransferaseII (NPTII)-encoding gene (nos::npt) flanked by the nopaline synthase promoter and polyadenylation sequences obtained from the Ti plasmid of Agrobacterium tumefaciens. These sequences were in a plasmid (pGA482) which also contained gene nit1 encoding nitrate reductase of C. reinhardtii. Transformants were selected by their ability to grow on medium containing nitrate, and 52% of these was also resistant to kanamycin. Evidence for nos::npt expression includes: (1) hybridization with probes specific for npt, (2) demonstration of NPTII activity after electrophoresis of extracts, and (3) chromatographic identification of the reaction product of NPTII, kanamycin phosphate. The highly biased codon usage in Chlamydomonas does not preclude expression.

Structure, evolution and expression of the mitochondrial ADP/ATP translocator gene from Chlamydomonas reinhardtii

The first AUG in the Chlamydomonas reinhardtii ADP/ATP translocator (CRANT) mRNA initiates an open reading frame (ORF) which is very similar (51-79% amino acid identity) to other ANT proteins. In contrast to higher plants, no evidence for a long amino-terminal extension was obtained. The 5' non-transcribed region of the single-copy CRANT gene contains sequence motifs present in other C. reinhardtii nuclear genes. Four introns, whose positions are not conserved in other ANT genes, interrupt the protein coding region. A short heat shock specifically reduces CRANT mRNA levels. CRANT mRNA levels were unaffected by a mutation in photosynthesis. In a dark/light regime CRANT mRNA levels are high in the dark phase and low in the early light phase. Data on translation initiation sites, splice junctions and the codon preferences of C. reinhardtii nuclear genes were compiled. With the exception of two rare codons, ACA and GGA, the CRANT gene exhibits the biased codon usage of C. reinhardtii nuclear genes that are highly expressed during normal vegetative growth.

Structure of a gene encoding heat-shock protein HSP70 from the unicellular alga Chlamydomonas reinhardtii

The structure of a gene encoding a 70-kDa heat-shock protein (HSP70) from the unicellular alga, Chlamydomonas reinhardtii, is described. This gene shows a remarkable expression pattern, because it is inducible by light as well as by elevated temperature [von Gromoff et al., Mol. Cell. Biol. 9 (1989) 3911-3918]. As a first step in the investigation of trans-acting factors involved in environmentally controlled expression of this hsp70 gene, the nucleotide sequence of the entire gene, including its 5'- and 3'-flanking regions was determined. Although the deduced amino acid sequence exhibits a high degree of conservation to the HSP70 from higher plants, the C. reinhardtii gene has a unique structure among the members of the hsp70 gene family. While most hsp70 genes have only one or no intron, the coding region of the C. reinhardtii gene is interrupted by six introns. Besides putative TATA and CCAAT boxes, two heat-shock elements (HSE) were found in the promoter region, and a third HSE motif was located within the fourth intron. A computer search for regulatory cis-acting elements revealed a noted similarity of a 5'-upstream sequence motif to the G-box motif conserved in higher plants. A polyadenylation recognition sequence canonical for nuclear genes of C. reinhardtii is located downstream from the coding sequence.

Isolation of transcripts preferentially expressed during fruit body primordia differentiation in the basidiomycete Agrocybe aegerita

An Agrocybe aegerita cDNA library, constructed from fruit body primordia poly(A)+ RNAs, was screened by differential colony hybridization. Clones which preferentially hybridized to poly(A)+ RNA sequences from fruit body primordia, versus poly(A)+ RNAs from mycelium, were isolated. Eight of these clones (EMAa-1 to EMAa-8) encoded eight different poly(A)+ RNAs which were demonstrated to be undetectable in the four stages preceding primordia formation and to be concomitantly accumulated when primordia differentiate, suggesting that EMAa gene products are closely involved in the morphogenesis of primordia. The eight EMAa cDNAs hybridize to at least seven unique regions distributed randomly in the A. aegerita genome. The expression of two EMAa cDNA sequences in E. coli led to the isolation of their gene products as fusion proteins.

Structure and inheritance of sense and anti-sense transcripts from a transposon in the green alga Chlamydomonas reinhardtii

We have studied the transcription pattern of a 5700 base-pair transposon (TOC1) in Chlamydomonas reinhardtii. Northern blotting and nuclease S1 protection experiments define three classes of major TOC1 RNAs that accumulate to different levels in a number of strains and segregate independently in the progeny of crosses: class 1 RNAs are unstable near full-length sense transcripts whose 5' end maps to the left 217 base-pair repeat of TOC1, class 2 and class 3 RNAs are large, discrete chimaeric transcripts containing full-length sense (class 2) and anti-sense (class 3) copies of TOC1. Sequence motifs common to the 5' non-transcribed regions of C. reinhardtii genes were found upstream from the putative initiation site of class 1 transcripts. A functional polyadenylation site was located in the far-right 237 base-pair repeat of TOC1. Class 1 TOC1 transcripts are initiated, and probably terminated, within the terminal repeats of TOC1 and may represent retrotransposition intermediates. Class 2 and 3 TOC1 transcripts co-segregate with specific TOC1 elements identified on Southern blots. The loci that control the production of high levels of class 1 transcripts could correspond to specific TOC1 elements, i.e. only a few TOC1 elements are transcribed, or to a regulatory locus. The accumulation of an 11,500 to 12,000 base sense transcript (class 2) is reduced two- to fourfold by the presence of a 9500 to 9700 base antisense transcript (class 3). In contrast, the accumulation of the 5' ends of class 1 transcripts are unaffected by the anti-sense TOC1 transcript.

A Chlamydomonas gene encodes a G protein beta subunit-like polypeptide

A Chlamydomonas gene encodes a protein that shows sequence similarity with the beta subunit of guanine nucleotide binding proteins from mammals, fruit fly and yeast. In addition to amino acid sequences similarity, each of these proteins contains a segmented repeat structure in which certain amino acids form a consensus sequence. Thus this gene product has been designated a Chlamydomonas beta subunit-like polypeptide (Cblp). The mRNA is constitutively expressed during the cell cycle and during flagellar regeneration.

Relationship between Gene Dosage and Gene Expression in the Chloroplast of Chlamydomonas reinhardtii

Expression of three chloroplast genes encoding proteins of different chloroplast complexes and the rRNA gene has been examined in cells having reduced numbers of chloroplast genomes as a result of growth in the presence of the thymidine analog 5-fluorodeoxyuridine. While accumulation of total mRNA for rpl2 (ribosomal protein L-1), rbcL (ribulose bisphosphate carboxylase large subunit) and atpA (alpha-subunit of ATP synthase) declined with gene copy number, the levels of translatable mRNA and rates of synthesis of these three proteins were largely unaffected. Accumulation of rRNA declined less precipitously than mRNA levels for the three proteins in response to the reduction in chloroplast genome number. Chlamydomonas appears to compensate for reductions in the number of chloroplast genomes at several different levels. Populations of cells with only one-fourth the wild-type amount of chloroplast DNA per cell on average have half the normal level of chloroplast ribosomes and nearly normal rates of CO(2) fixation and levels of specific chloroplast encoded proteins. These results suggest that normal cells accumulate a large excess of transcripts for chloroplast genes and that levels of expression of these genes are regulated by posttranscriptional mechanisms.

Structure and expression of the gene encoding the periplasmic arylsulfatase of Chlamydomonas reinhardtii

Chlamydomonas reinhardtii produces a periplasmic arylsulfatase in response to sulfur deprivation. We have isolated and sequenced arylsulfatase cDNAs from a lambda gt11 expression library. The amino acid sequence of the protein, as deduced from the nucleotide sequence, has features characteristic of secreted proteins, including a signal sequence and putative glycosylation sites. The gene has a broad codon usage with seven codons, all having A residues in the third position, not previously observed in C. reinhardtii genes. Arylsulfatase transcription is tightly regulated by sulfur availability. The approximately 2.7 kb arylsulfatase transcript is very susceptible to degradation, disappearing in less than an hour after sulfur starved cells are administered either sulfate or alpha-amanitin. The accumulation of the arylsulfatase transcript is also suppressed by the addition of cycloheximide. Transcription initiation from the arylsulfatase gene occurs approximately 100 bp upstream of the initiation codon, in a region that is 5' to a 43 bp imperfect inverted repeat. Preceding the transcription start site are sequences similar to those present in promoter regions of other genes from C. reinhardtii.

Structure of the Chlamydomonas reinhardtii cabII-1 gene encoding a chlorophyll-a/b-binding protein

Gene cabII-1 is a light regulated gene that encodes the precursor of a major chlorophyll-a/b-binding protein in Chlamydomonas reinhardtii. It is a member of a small gene family composed of about 3-7 members. Nucleotide sequencing data and S1 mapping reveal that the cabII-1 gene is interrupted by three introns. Except for the transit peptide and the N-terminus, the cabII-1 gene product is similar to cabII proteins in higher plants. The cabII-1 gene in C. reinhardtii appears to be an intermediate between type-I and type-II cabII genes described in higher plants.

Novel control elements in the alpha-1 tubulin gene promoter from Chlamydomonas reinhardii

Alpha-1 tubulin is the principal alpha-tubulin isotype found in the flagella of the unicellular green alga, Chlamydomonas reinhardii. Although the pattern of tubulin mRNA accumulation and utilization has been examined in some detail in Chlamydomonas (Lefebvre and Rosenbaum 1986), the transcriptional mechanisms establishing tubulin mRNA levels are not understood. To begin an analysis of the alpha-1 tubulin gene transcriptional control elements, we studied a number of promoter mutants of this gene from Chlamydomonas. These mutants, assayed by injection into Xenopus oocyte nuclei, delimit the promoter to 36 bp of DNA upstream of the cap site and 73 bp of the untranslated mRNA leader. A major rate-controlling element lies in a short GC-rich sequence positioned between the TATA homology and the mRNA cap site (position + 1). A similar sequence motif has been found in the same position upstream of all four tubulin genes of Chlamydomonas (Brunke et al. 1984). A 10 bp linker insertion within this sequence abolishes transcription. A far upstream sequence, located in a fragment between -400 and -800, is an efficiency element, whose deletion inhibits transcription in vivo by about 30%. The upstream element (ue) also has the unique ability to drive RNA polymerase II (RNAPII) transcription in vivo when isolated from all downstream promoter elements, unlike any control element described to date. These results suggest that a sequence within the upstream element is an entry site for RNAPII into the tubulin transcription unit.

Organization and structure of Volvox beta-tubulin genes

Genomic clones encoding two Volvox beta-tubulin genes have been isolated and shown to represent the only two beta-tubulin genes in the genome. Restriction fragment length polymorphism analysis was used to demonstrate that the two genes are genetically linked. One of these genes was sequenced and the mRNA start site(s) determined by primer extension. A comparison of its sequence to those of the two beta-tubulin genes of Chlamydomonas revealed: (1) a high degree of conservation of the coding region, with the predicted amino acid sequence differing only in the C-terminal residue; (2) extensive sequence conservation in the 5' untranslated leader region and a 16 bp (putative regulatory) sequence in the promoter region; (3) the same number and location of introns, with a short region of homology in intron 1, but little significant homology in introns 2 and 3.

Organization and structure of Volvox alpha-tubulin genes

Southern analysis of Volvox genomic DNA revealed two genes homologous to Chlamydomonas reinhardtii alpha-tubulin cDNA. Restriction fragment length polymorphism analysis indicated that the two genes are not genetically linked. Clones representing one of the alpha-tubulin genes have been isolated from a genomic library of Volvox carteri f. nagariensis. A 3153 bp BamHI fragment containing the entire alpha-tubulin gene (1802 bp) plus 707 bp of the 5'- and 644 bp of the 3'-untranslated regions has been sequenced, revealing the following features: (1) the derived alpha-tubulin primary structure of 451 amino acids is highly conserved, differing in two residues from the alpha 1- and in two additional residues from the alpha 2-tubulin of C. reinhardtii; (2) in comparison to the C. reinhardtii genes, the Volvox alpha-tubulin gene contains a third intron; positions of the other two introns are precisely conserved; (3) codon usages are biased towards G or C, and against A, in the third position; 19 codons are absent from the alpha-tubulin coding sequence, and 5 of these are not used in any of 7 compiled Volvox genes; (4) transcription begins with an A, 30 bp downstream of the putative TATA box; upstream of the TATA box is a 14 bp sequence similar to consensus sequences found in all 4 C. reinhardtii tubulin genes and believed to regulate promoter function.

A promoter of the rat insulin-like growth factor II gene consists of minimal control elements

We have characterized the cis-control signals in one of the two promoters of the developmentally regulated rat insulin-like growth factor II gene (rIGF-II) by a combination of in-vivo transient expression, in-vitro transcription, footprinting, gel band-shifting and methylation-interference experiments, using a series of deletion mutant templates. Our results indicate that this simple (minimal) promoter (P2) consists of no more than 128 base-pairs, which include an ATA box and four proximal upstream GC boxes binding the general transcription factor Sp1. Three of the latter sites deviate from the known Sp1 consensus recognition sequence. The two types of cis-acting regulatory signals (GC/ATA motif) of the P2 promoter are inter-dependent and sufficient for transcription. A model for the operation of this type of minimal promoter is discussed. S1 nuclease-hypersensitive sites, localized by in-vitro mapping to the region of the P2 Sp1-binding sites, are also present in vivo and correlate with the transcriptional state of chromatin in the rIGF-II locus. We show that recognition sites for Sp1 binding are a subset of sequences that exhibit hypersensitivity to S1.

The relatively large beta-tubulin gene family of Arabidopsis contains a member with an unusual transcribed 5' noncoding sequence

We have characterized the beta-tubulin gene family of Arabidopsis thaliana. Five distinct genes were cloned and analyzed by restriction enzyme mapping and cross-hybridization studies. Three of the genes appear to be dispersed, whereas two others are linked within 1.5 kb of one another. The two linked genes are closely related and appear to have resulted from a fairly recent duplication. The three dispersed genes do not cross-hybridize to one another or to the two linked genes under highly stringent hybridization conditions, suggesting that they arose from more ancient duplications. From Southern analysis we estimate that there are a total of between six and ten beta-tubulin genes in Arabidopsis. Additional analyses indicate that the gene family is equal in size or larger than those in other plants, but significantly smaller than those in related Brassica species. Sequence determination of one of the Arabidopsis genes revealed a highly unusual transcribed leader sequence. The leader contains two fairly long tracks of adenines. One is located toward the 5' end of the mRNA and the other is just before the initiation codon. A track of uridines is located between the adenine tracks. This leader can form two different secondary structures that may have regulatory significance.

Sequence, evolution and differential expression of the two genes encoding variant small subunits of ribulose bisphosphate carboxylase/oxygenase in Chlamydomonas reinhardtii

We have sequenced the two genes for the small subunit of ribulose bisphosphate carboxylase/oxygenase (Rubisco) in Chlamydomonas reinhardtii and analyzed their expression. The two genes encode variant small subunits that differ by four amino acid residues. Both genes are expressed and each is transcribed into an RNA of distinct size. The accumulation of the two RNAs changes depending on the growth conditions, so the small subunit composition of Rubisco may be expected to differ in response to the environment. The C. reinhardtii small subunit sequence is homologous to those of vascular plants or cyanobacteria, but is longer at the amino terminus and in internal positions. The number and location of the intervening sequences in the genes from C. reinhardtii and from other plants differ. In several cases, internal length differences in the polypeptide coincide with the positions of introns in the coding sequence. Thus, changes in the exon structure of the genes during evolution may have been accompanied by substantial changes in the encoded protein. The translation and splicing signals in C. reinhardtii are similar to those of other eukaryotes, but the transcription signals are less conserved and the highly biased codon usage is very unusual.

Chlamydomonas reinhardtii tubulin gene structure

DNA sequencing studies have provided a picture of the total information available at the gene level for tubulin production in C. reinhardtii. The data indicates that diversity at the gene level is very limited and that all the microtubules in the cell are composed of a very similar set of tubulins. These studies contrast with similar studies of S. pombe alpha-tubulin genes and chicken beta-tubulin genes that show much heterogeneity among members of the same gene family. Further studies will be needed to investigate whether the high degree of conservation of tubulin genes is unique or common among lower eukaryotes, and what mechanisms are used to maintain homogeneity in C. reinhardtii tubulin gene families. Our DNA sequence analysis, in addition to the work of Brunke et al., has provided information on the noncoding, and possibly regulatory, portions of the tubulin genes. For example, the promoter regions of the 4 tubulin genes share a consensus sequence of 16 nucleotides upstream of the TATA box. This sequence could be involved in regulating the coordinate expression of the genes. Although little homology exists generally in the noncoding region of the genes, striking homology between the third IVS in each beta-tubulin gene is observed. Small elements homologous to the beta-tubulin IVS 3 also exist in the second IVS of each alpha-tubulin gene. In addition, considerable homology in the 5' noncoding portion of the alpha-tubulin transcripts has been noted. These homologies may be the result of recent gene conversion events, and may not have functional significance. The possibility, however, must also be considered in future experiments that these elements may play a role in regulating the expression of the tubulin genes.

Tubulin mRNAs of Trypanosoma brucei

The tubulin genes of Trypanosoma brucei are located in a single, tightly packed cluster of ten tandemly arranged alternating alpha and beta-genes. No tubulin genes are detected outside the clustered array. Therefore, the cluster can be assumed to be the locus of tubulin gene expression. Single bands of alpha and beta-tubulin mRNAs are observed in cultured procyclic as well as in bloodstream trypanosomes. Both alpha and beta-tubulin mRNAs have distinct 5' termini, which carry a 35-nucleotide mini-exon sequence. The 3' termini of both mRNA populations are heterogeneous.

A small-scale five-hour procedure for isolating multiple samples of CsCl-purified DNA: application to isolations from mammalian, insect, higher plant, algal, yeast, and bacterial sources

A rapid and simple procedure is described for obtaining CsCl-purified DNA from multiple small samples of cells or tissue. The DNA is recovered in a high-molecular-weight form (greater than or equal to 50 kb) that is readily cleaved with restriction enzymes. Sufficient quantities of DNA (10-50 micrograms) are recovered to allow multiple analyses by Southern blotting and most cloning procedures. The isolation procedure involves addition of intact cells or powders of frozen tissues directly to a simple lysis buffer containing detergent (sodium dodecyl sulfate or sodium sarcosinate) and high concentrations of EDTA. Ultra-high-speed centrifugation of CsCl gradients allows the isolation of DNA from 10 different samples in as little as 5 h. Applications are described for mammalian cells (HeLa cells), insect tissues (Drosophila melanogaster adults and pupa, Manduca sexta pupa, and Musca domestica pupa), higher plant tissues (Vicia faba leaves and meristems), algal cells (walled and wall-less Chlamydomonas reinhardi), yeast cells (Saccharomyces cerevisiae), and bacterial cells (Escherichia coli spheroplasts for preparation of both chromosomal and plasmid DNA). The procedure can be scaled up with larger sample sizes and longer centrifugation times to provide bulk quantities of DNA.