Nuclear genes encoding chloroplast hemoglobins in the unicellular green alga Chlamydomonas eugametos

When the green unicellular alga Chlamydomonas eugametos is grown under light/dark regimes, nuclear genes are periodically activated in response to the changes in light conditions. These genetic responses are dependent upon the activation of genes associated with photosynthesis (LI616 and LI637), nonphotosynthetic photoreceptors (LI410 and LI818) and the biological clock (LI818). We report here that the LI410 and LI637 genes are part of a small gene family encoding hemoglobins (Hbs) related to those from two unicellular eukaryotes, the ciliated protozoa Paramecium caudatum and Tetrahymena pyriformis, and from the cyanobacterium Nostoc commune. Investigations of the intracellular localization of C. eugametos Hbs by means of immunogold electron microscopy indicate that these proteins are predominantly located in the chloroplast, particularly in the pyrenoid and the thylakoid region. To our knowledge, this constitutes the first evidence for the presence of Hbs in chloroplasts. Alignment of the LI637 cDNA nucleotide sequence with its corresponding genomic sequence indicates that the L1637 gene contains three introns, the positions of which are compared with those in the Hb genes of plants, animals and the ciliate P. caudatum. Although the LI637 gene possesses a three-intron/four-exon pattern similar to that of plant leghemoglobin genes, introns are inserted at different positions. Similarly the position of the single intron in the P. caudatum gene differs from the intron sites in the LI637 gene. The latter observations argue against the current view that all eukaryotic Hbs have evolved from a common ancestor having a gene structure identical to that of plant or animal Hbs.     

Interactions between nitrogen oxide-containing compounds and peripheral benzodiazepine receptors.

Chloroplast transit peptides from the green alga Chlamydomonas reinhardtii have been analyzed and compared with chloroplast transit peptides from higher plants and mitochondrial targeting peptides from yeast, Neurospora and higher eukaryotes. In terms of length and amino acid composition, chloroplast transit peptides from C. reinhardtii are more similar to mitochondrial targetting peptides than to chloroplast transit peptides from higher plants. They also contain the potential amphiphilic -helix characteristic of mitochondrial presequences. However, in similarity with chloroplast transit peptides from higher plants, they contain a C-terminal region with the potential to form an amphiphilic β-strand. As in higher plants, transit peptides that route proteins to the thylakoid lumen consist of an N-tenninal domain similar to stroma-targeting transit peptides attached to a C-terminal apolar domain that share many characteristics with secretory signal peptides.     

串联抗菌肽Cecropin B基因在莱茵衣藻中的表达及其抗菌活性分析

为了应对各种抗生素在水产养殖业所带来的副作用,我们在本文中尝试利用微藻对一种抗菌肽进行表达的可行性研究．根据莱茵衣藻核基因组偏爱密码子对抗菌肽Cecropin B基因进行改造,并将4个经改造的Cecropin B基因依次串联起来,中间加上莱茵衣藻的自剪切连接肽序列LWMRFA,人工合成总长度为522 bp的串联Cecropin B基因．将串联Cecropin B基因克隆到含hsp70-RBCS2启动子和RBCS2终止子的pH105载体上,再与携带ble筛选基因的表达框架连接,构建重组表达载体pCB124．采用玻璃珠转化法将载体pCB124导入莱茵衣藻cc-849中,筛选得到能表达抗菌肽Cecropin B的转基因衣藻．经过6个月的保持培养后,进一步对转基因藻细胞提取液进行抗菌活性分析,发现转基因藻具有明显的抑制革兰氏阴性菌(大肠杆菌)和革兰氏阳性菌(枯草芽孢杆菌和溶壁微球菌)生长的特征．这一结果为具有抗菌活性的饵料藻的生产和应用提供了新的途径．     

Essential function in chloroplast recognition of the ferredoxin transit peptide processing region

Summary Plant ferredoxin is a nuclear-encoded chloroplast protein that is synthesized in the cytoplasm as a transit peptide-containing precursor molecule. To identify functional regions in the pre-ferredoxin transit peptide we constructed mutants with deletions of increasing length from the processing site toward the amino-terminus of the precursor. The mutant proteins were tested in an in vitro chloroplast binding and import assay. Deletion of the amino acids adjacent to the processing site completely abolishes binding and import. This region contains a sequence motif that is conserved among different precursor species. By constructing and testing mutants in the amino-terminal region of the mature part of the precursor protein, we found that this region of the molecule can greatly influence the import reaction.     

A mutant of Chlamydomonas reinhardtii altered in the transport of ammonium and methylammonium

Summary A methylammonium-resistant mutant, named hereafter strain 2170 (ma-1), was isolated for the first time from a eukaryotic phototrophic organism. Mutant 2170 from Chlamydomonas reinhardtii carries a single mendelian mutation which results in a decreased rate of uptake of both ammonium and methylammonium without being affected either in uptake of nitrate or nitrite or any of the tested enzyme activities related to ammonium assimilation. Mutant cells could not use methylammonium as nitrogen source nor excrete ammonium into the medium but they had derepressed nitrate and nitrite reductases when growing in the presence of ammonium. Mutant 2170 also exhibited a diminished methylammonium transport rate in comparison with the wild-type cells. We conclude that mutant 2170 is affected in a transport system responsible for the entrance of both ammonium and methylammonium into the cells.Abbreviations CHES 2-(N-Cyclohexylamino)ethanesulphonic acid - MOPS 3(N-morpholine)propanesulphonic acid     

Residue Glu-91 of Chlamydomonas reinhardtii ferredoxin is essential for electron transfer to ferredoxin-thioredoxin reductase

The [2Fe-2S] soluble ferredoxin from Chlamydomonas reinhardtii was mutated by site directed mutagenesis, using PCR and the expression plasmid pET-Fd as a template. The recombinant mutated proteins were purified to homogeneity and tested in the activation of NADP-malate dehydrogenase, a light dependent reaction in which ferredoxin thioredoxin reductase (FTR) and thioredoxin are involved. The mutation of residue Glu-91 (E92 in spinach, E94 in Anabaena) alone, either to Gln (E91Q) or to Lys (E91K), was found to completely abolish the reaction of the enzyme light activation. On the other hand, the mutants (E92Q) or (E92K) were as efficient as the wild type ferredoxin in this reaction whereas the double mutants (E91Q/E92Q) or (E91K/E92K) had no activity. In addition, a triple mutant (D25A/E28Q/E29Q) was also found to be inactive for this redox dependent light activation. All these mutations had much weaker effects on the ferredoxin/ferredoxin NADP reductase interaction as measured by the cytochrome c reduction assay. These results indicate that there is a recognition site for FTR in the C terminus part of ferredoxin, but also that a core of negatively charged residues in the α1 helix of ferredoxin might be important in the general process of light activation.     

Isolation of a cDNA fragment coding for Chlamydomonas reinhardtii ferredoxin and expression of the recombinant protein in Escherichia coli

A cDNA clone coding for mature C. reinhardtii ferredoxin has been isolated from a cDNA library using PCR and two oligonucleotide primers based on the N- and C-termini of the protein's amino acid sequence. The nucleotidic sequence of the PCR fragment (299 bp) agreed well with the amino acid sequence since a single conservative substitution (Thr-7 to Ser) could be deduced. The PCR fragment was inserted into the expression vector pTrc 99A, using the incorporated NcoI and BamHI restriction sites and the construction used to transform E. coli (DH5α F′). After subsequent large scale expression and purification of the recombinant protein, biochemical and biophysical analysis have indicated that the product isolated from E. coli is homologous to native ferredoxin isolated from green algae.     

莱茵衣藻E2泛素结合酶CrUBC23调控油脂积累

【目的】为研究莱茵衣藻(Chlamydomonas reinhardtii)泛素结合酶(ubiquitin-conjugating enzymes,E2)CrUBC23在莱茵衣藻油脂代谢中的作用,为高产油微藻基因工程改良和揭示藻类油脂合成及代谢调控机理奠定基础。【方法】qRT-PCR分析莱茵衣藻在低氮、低磷胁迫下泛素结合酶CrUBC23表达情况;克隆CrUBC23同源基因干涉片段和全长基因,构建RNAi干涉载体和过量表达载体,转化莱茵衣藻并检测生物量和油脂含量;构建CrUBC23-GFP融合表达载体,用农杆菌浸染洋葱表皮细胞进行亚细胞定位。【结果】莱茵衣藻在低氮、低磷胁迫下CrUBC23基因表达量显著增加,增加幅度分别为正常培养的4.98–5.80倍和1.85–5.20倍。RNAi干扰结果显示,转基因藻细胞中性脂含量降低5.5%,总脂含量降低3.16%–17.6%。过量表达结果显示,转基因藻细胞中性脂含量增加8.8%,总脂含量增加4.51%–14.03%。【结论】CrUBC23正向调控莱茵衣藻油脂代谢,该基因定位于细胞核。     

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

Summary 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.     

Complementation analysis of the inorganic carbon concentrating mechanism of Chlamydomonas reinhardtii

Summary Six independently isolated mutants of Chlamydomonas reinhardtii that require elevated CO₂ for photoautotrophic growth were tested by complementation analysis. These mutants are likely to be defective in some aspect of the algal concentrating mechanism for inorganic carbon as they exhibit CO₂ fixation and inorganic carbon accumulation properties different from the wild-type. Four of the six mutants defined a single complementation group and appear to be defective in an intracellular carbonic anhydrase. The other two mutations represent two additional complementation groups.Abbreviations HS high salt medium which has 13 mM phosphate at pH 6.8 - HSA high salt plus 36 mM acetate medium - YA high salt medium with 4 g yeast extract per L and 36mM acetate - Arg arginine - cia^- CO₂ accumulation mutants that cannot grow on low CO₂ - C_i inorganic carbon (CO₂+HCO _- ³ ) - CA carbonic anhydrase - mt mating type Supported in part by the McKnight Foundation and by NSF grant PCM 8005917 and published as journal article 11924 from the Michigan State Agriculatural Experiment Station     

Mutations affecting the mitochondrial genes encoding the cytochrome oxidase subunit I and apocytochrome b of Chlamydomonas reinhardtii

Mitochondrial mutants of the green alga Chlamydomonas reinhardtii that are inactivated in the cytochrome pathway of respiration have previously been isolated. Despite the fact that the alternative oxidase pathway is still active the mutants have lost the capacity to grow heterotrophically (dark + acetate) and display reduced growth under mixotrophic conditions (light + acetate). In crosses between wild-type and mutant cells, the meiotic progeny only inherit the character transmitted by the mt ^– parent, which indicates that the mutations are located in the 15.8 kb linear mitochondrial genome. Two new mutants (dum-18 and dum-19) have now been isolated and characterized genetically, biochemically and at the molecular level. In addition, two previously isolated mutants (dum-11 and dum-15) were characterized in more detail. dum-11 contains two types of deleted mitochondrial DNA molecules: 15.1 kb monomers lacking the subterminal part of the genome, downstream of codon 147 of the apocytochrome b (COB) gene, and dimers resulting from head-to-head fusion of asymmetrically deleted monomers (15.1 and 9.5 kb DNA molecules, respectively). As in the wild type, the three other mutants contain only 15.8 kb mitochondrial DNA molecules. dum-15 is mutated at codon 140 of the COB gene, a serine (TCT) being changed into a tyrosine (TAC). dum-18 and dum-19 both inactivate cytochrome c oxidase, as a result of frameshift mutations (addition or deletion of 1 bp) at codons 145 and 152, respectively, of the COX1 gene encoding subunit I of cytochrome c oxidase. In a total of ten respiratory deficient mitochondrial mutants characterized thus far, only mutations located in COB or COXI have been isolated. The possibility that the inactivation of the other mitochondrial genes is lethal for the cells is discussed.     

Toxicity of and mutagenesis by chlorate are independent of nitrate reductase activity in Chlamydomonas reinhardtii

Summary Spontaneous chlorate-resistant (CR) mutants have been isolated from Chlamydomonas reinhardtii wildtype strains. Most of them, 244, were able to grow on nitrate minimal medium, but 23 were not. Genetic and in vivo complementation analyses of this latter group of mutants indicated that they were defective either at the regulatory locus nit-2, or at the nitrate reductase (NR) locus nit-1, or at very closely linked loci. Some of these nit-1 or nit-2 mutants were also defective in pathways not directly related to nitrate assimilation, such as those of amino acids and purines. Chlorate treatment of wild-type cells resulted in both a decrease in cell survival and an increase in mutant cells resistant to a number of different chemicals (chlorate, methylammonium, sulphanilamide, arsenate, and streptomycin). The toxic and mutagenic effects of chlorate in minimal medium were not found when cells were grown either in darkness or in the presence of ammonium, conditions under which nitrate uptake is drastically inhibited. Chlorate was also able to induce reversion of nit ^– mutants of C. reinhardtii, but failed to produce His ⁺ revertants or Ara^r mutants in the BA-13 strain of Salmonella typhimurium. In contrast, chlorate treatment induced mutagenesis in strain E1F1 of the phototrophic bacterium Rhodobacter capsulatus. Genetic analyses of nitrate reductase-deficient CR mutants of C. reinhardtii revealed two types of CR, to low (1.5 mM) and high (15 mM) chlorate concentrations. These two traits were recessive in heterozygous diploids and segregated in genetic crosses independently of each other and of the nit-1 and nit-2 loci. Three her loci and four lcr loci mediating resistance to high (HC) and low (LC) concentrations of chlorate were identified. Mutations at the nit-2 locus, and deletions of a putative locus for nitrate transport were always epistatic to mutations responsible for resistance to either LC or HC. In both nit ⁺ and nit ^– chlorate-sensitive (CS) strains, nitrate and nitrite gave protection from the toxic effect of chlorate. Our data indicate that in C. reinhardtii chlorate toxicity is primarily dependent on the nitrate transport system and independent of the existence of an active NR enzyme. At least seven loci unrelated to the nitrate assimilation pathway and mediating CR are thought to control indirectly the efficiency of the nitrate transporter for chlorate transport. In addition, chlorate appears to be a mutagen capable of inducing a wide range of mutations unrelated to the nitrate assimilation pathway.     

莱茵衣藻丝/苏氨酸蛋白激酶突变株蓝光响应的表征

为研究莱茵衣藻丝/苏氨酸蛋白激酶(silk/threonine protein kinase, STK)介导藻细胞蓝光响应的分子机制,本文对蓝光胁迫下莱茵衣藻STK突变株系crstk11(AphvIII盒反向插入stk11基因编码区)进行表型鉴定及转录组分析。表型鉴定显示,正常光(白光)下,野生型株CC5325与突变株crstk11的生长和色素含量差异较小;蓝光抑制了crstk11藻细胞生长和叶绿素合成,但显著促进类胡萝卜素积累。转录组分析显示,蓝光处理4 d,突变株(STK4) vs.野生型(wild type, WT4)共检测到差异表达基因(differential expression genes, DEGs) 860条(559个上调,301个下调)。高蓝光处理8 d,STK8 vs. WT8共获得1 088个DEGs (468个上调,620个下调)。KEGG富集分析发现,与CC5325相比,crstk11蓝光响应基因主要参与胞内光合作用催化活性、碳代谢和色素合成等。其中,上调基因包括psaA、psaB和psaC,psbA、psbB、psbC、psbD、psbH和psbL,pet...     

A novel plant nuclear gene encoding chloroplast ribosomal protein S9 has a transit peptide related to that of rice chloroplast ribosomal protein L12

We have cloned a novel nuclear gene for a ribosomal protein of rice and Arabidopsis that is like the bacterial ribosomal protein S9. To determine the subcellular localization of the gene product, we fused the N-terminal region and green fluorescent protein and expressed it transiently in rice seedlings. Localized fluorescence was detectable only in chloroplasts, indicating that this nuclear gene encodes chloroplast ribosomal protein S9. The N-terminal region of rice ribosomal protein S9 was found to have a high sequence similarity to the transit peptide region of the rice chloroplast ribosomal protein L12, suggesting that these transit peptides have a common lineage.     

Effects of CO2 concentrations on the freshwater microalgae, Chlamydomonas reinhardtii, Chlorella pyrenoidosa and Scenedesmus obliquus (Chlorophyta)

In order to investigate the possible impacts of increased atmospheric CO₂ levels on algal growth and photosynthesis, the influence of CO₂ concentration was tested on three planktonic algae (Chlamydomonas reinhardtii, Chlorella pyrenoidosa, and Scenedesmus obliquus). Increased CO₂ concentration enhanced significantly the growth rate of all three species. Specific growth rates reached maximal values at 30, 100, and 60 M CO₂ in C. reinhardtii, C. pyrenoidosa, and S. obliquus, respectively. Such significant enhancement of growth rate with enriched CO₂ was also confirmed at different levels of inorganic N and P, being more profound at limiting levels of N inC. pyrenoidosa and P in S. obliquus. The maximal rates of net photosynthesis, photosynthetic efficiency and light-saturating point increased significantly (p < 0.05) in high-CO₂-grown cells. Elevation of the CO₂ levels in cultures enhanced the photoinhibition of C. reinhardtii, but reduced that of C. pyrenoidosa and S. obliquus when exposed to high photon flux density. The photoinhibited cells recovered to some extent (from 71% to 99%) when placed under dim light or in darkness, with better recovery in high-CO₂-grownC. pyrenoidosa and S. obliquus. Although pH and pCO₂ effects cannot be distinguished from this study, it can be concluded that increased CO₂ concentrations with decreased pH could affect the growth rate and photosynthetic physiology of C. reinhardtii, C. pyrenoidosa, and S. obliquus.     

The role of the N-terminal domain of chloroplast targeting peptides in organellar protein import and miss-sorting

We have analysed 385 mitochondrial and 567 chloroplastic signal sequences of proteins found in the organellar proteomes of Arabidopsis thaliana. Despite overall similarities, the first 16 residues of transit peptides differ remarkably. To test the hypothesis that the N-terminally truncated transit peptides would redirect chloroplastic precursor proteins to mitochondria, we studied import of the N-terminal deletion mutants of ELIP, PetC and Lhcb2.1. The results show that the deletion mutants were neither imported into chloroplasts nor miss-targeted to mitochondria in vitro and in vivo, showing that the entire transit peptide is necessary for correct targeting as well as miss-sorting.     

The plastid aldolase gene fromChlamydomonas reinhardtii: Intron/exon organization, evolution, and promoter structure

Genomic clones encoding the plastidic fructose- 1,6-bisphosphate aldolase ofChlamydomonas reinhardtii were isolated and sequenced. The gene contains three introns which are located within the coding sequence for the mature protein. No introns are located within or near the sequence encoding the transit-peptide, in contrast to the genes for plastidic aldolases of higher plants. Neither the number nor the positions of the three introns of theC. reinhardtii aldolase gene are conserved in the plastidic or cytosolic aldolase genes of higher plants and animals. The 5 border sequences of introns in the aldolase gene ofC. reinhardtii exhibit the conserved plant consensus sequence. The 3 acceptor splice sites for introns 1 and 3 show much less similarity to the eukaryotic consensus sequences than do those of intron 2. The plastidic aldolase gene has two tandemly repeated CAAT box motifs in the promoter region. Genomic Southern blots indicate that the gene is encoded by a single locus in theC. reinhardtii genome.