Modification of the N-Terminal Nucleotide Sequence of Mature hGM-CSF Results in High Expression in the Foreign Host, Anabaena sp. Strain PCC 7120

Cloning and high foreign expression of the human granulocyte-macrophage colony stimulating factor (hGM-CSF) gene were achieved in Anabaena sp. strain PCC 7120 cells. To promote high expression of hGM-CSF in cyanobacterial cells, PCR primers were designed to modify the N-terminal cDNA sequence of mature hGM-CSF, including a GC rich region and some discriminating against codons according to the degeneracy codon rules, selecting for prokaryotic usage codons. The PCR product encoding the modified hGM-CSF was inserted downstream of the promoter, PpsbA of the shuttle vector pRL439, then ligated with pDC-08 to generate the shuttle expression plasmid, pDC-GM1. The resulting shuttle expression plasmid was transferred into the filamentous, heterocyst-forming cyanobacterium, Anabaena sp. strain PCC 7120 using the tri-parental conjugation transfer method. The results of PCR amplification of wild type and transgenic cells indicated that the hGM-CSF gene was successfully cloned into Anabaena sp. strain PCC 7120 cells. Western blot analysis showed that the protein expression of modified hGM-CSF in transgenic cells harboring pDC-GM1 was 136% higher than that of non-modified hGM-CSF in transgenic cells harboring pDC-GM0. Additionally, there were similar rate of growth and content of Chl a as compared to controls, suggesting that foreign hGM-CSF did not impair the photosynthetic activity of host cells. Taken together, the results indicate that modification of the N-terminal nucleotide sequence of mature hGM-CSF results in high expression in the transgenic cells.     

Increased activity of the tandem fructose-1,6-bisphosphate aldolase,triosephosphate isomerase and fructose-1,6-bisphosphatase enzymes in <Emphasis Type="Italic">Anabaena</Emphasis> sp. strain PCC 7120 stimulates photosynthetic yield

The regulation of photosynthetic yield at the genetic level has largely focused on manipulation of the catalytic enzymes in the Calvin cycle by genetic engineering. In order to investigate the contribution of increased enzymatic activity in the Calvin cycle on photosynthetic yield, the rice fructose-1,6-bisphosphate aldolase (FBA), spinach triosephosphate isomerase (TPI) and wheat fructose-1,6-bisphosphatase (FBPase) genes were cloned in tandem and co-overexpressed in cyanobacterium Anabaena sp. strain PCC 7120 cells. The enzymatic activities of FBA, TPI and FBPase, as well as sedoheptulose-1,7-bisphosphatase (SBPase), were remarkably increased in transgenic cells relative to the wild-type. The photosynthetic yield, as reflected by photosynthetic O₂ evolution and dry cellular weight, was also markedly increased in transgenic cells versus wide-type cells. The activity of SBPase is considered the most important factor for ribulose-1,5-bisphosphate (RuBP) regeneration in the Calvin cycle, and increased activity of TPI alone in transgenic cells does not stimulate photosynthetic yield. Thus, the increased activity of FBA and FBPase, but not TPI, significantly improved photosynthetic yield in transgenic cells by stimulating SBPase activity and consequently accelerating the RuBP regeneration rate.     

Construction of shuttle, expression vector of human tumor necrosis factor alpha (hTNF-α) gene and its expression in a cyanobacterium, Anabaena sp. PCC 7120

The construction of the shuttle, expression vector of human tumor necrosis factor alpha (hTNF-α) gene and its expression in a cyanobacteriumAnabaena sp. PCC 7120 was reported. The 700-bp hTNF cDNA fragments have been recovered from plasmid pRL-rhTNF, then inserted downstream of the promoter PpsbA in the plasmid pRL439. The resultant intermediary plasmid pRL-TC has further been combined with the shuttle vector pDC-8 to get the shuttle, expression vector pDGTNF. The expression of the rhTNF gene inEscherichia coli has been analyzed by SDS-PAGE and thin-layer scanning, and the results show that the expressed TNF protein with these two vectors is 16.9 percent (pRL-TC) and 15.0 percent (pDC-TNF) of the total proteins in the cells, respectively, while the expression level of TNF gene in plasmid pRL-rhTNF is only 11.8 percent. Combined with the participation of the conjugal and helper plasmids, pDC-TNF has been introduced intoAnabaena sp PCC 7120 by triparental conjugative transfer, and the stable transgenic strains have been obtained. The existence of the introduced plasmid pDC-TNF in recombinant cyanobacterial cells has been demonstrated by the results of the agarose electrophoresis with the extracted plasmid samples and Southern blotting with α-³²P labeled hTNF cDNA probes, while the expression of the hTNF gene inAnabaena sp. PCC 7120 has been confirmed by the results of Western blotting with extracted protein samples and human TNF-alpha monoclonal antibodies. The cytotoxicity assays using the mouse cancer cell line L929 proved the cytotoxicity of the TNF in the crude extracts from the transgenic c~anobacteriumAnabaena sp. PCC 7120. Project supported by the National Natural Science Foundation of China (Grant No. 39280016).     

迟缓爱德华氏菌Eta1-L-Gapdh融合蛋白在蓝藻中的表达

在蓝藻中表达迟缓爱德华氏菌Eta1-L-Gapdh融合蛋白。提取迟缓爱德华氏菌基因组DNA为模板,用PCR技术分别扩增两个已知具有较强免疫原性的基因eta1和gapdh,再采用重叠延伸PCR将这两个基因融合,获得目的融合基因eta1-L-gapdh。将目的基因连接到表达载体pRL489的两个Bam H I酶切位点之间构建表达载体,用质粒提取、PCR、酶切、测序等手段对表达载体进行验证。验证正确的表达载体通过三亲接合转化野生鱼腥藻PCC7120,用新霉素抗性筛选出转基因藻落,通过质粒提取和PCR验证转基因藻。用RT-PCR和Western-blot分别从转录水平和翻译水平对转基因藻中融合基因的表达进行了检测。结果表明,含目的基因的表达载体构建成功,目的基因在蓝藻中转录并表达蛋白,该蛋白在蓝藻中的表达量为2.46%。     

Construction of shuttle, expression vector of human tumor necrosis factor alpha (hTNF-α) gene and its expression in a cyanobacterium,Anabaena sp. PCC 7120

The construction of the shuttle, expression vector of human tumor necrosis factor alpha (hTNF-α) gene and its expression in a cyanobacteriumAnabaena sp. PCC 7120 was reported. The 700-bp hTNF cDNA fragments have been recovered from plasmid pRL-rhTNF, then inserted downstream of the promoter PpsbA in the plasmid pRL439. The resultant intermediary plasmid pRL-TC has further been combined with the shuttle vector pDC-8 to get the shuttle, expression vector pDGTNF. The expression of the rhTNF gene inEscherichia coli has been analyzed by SDS-PAGE and thin-layer scanning, and the results show that the expressed TNF protein with these two vectors is 16.9 percent (pRL-TC) and 15.0 percent (pDC-TNF) of the total proteins in the cells, respectively, while the expression level of TNF gene in plasmid pRL-rhTNF is only 11.8 percent. Combined with the participation of the conjugal and helper plasmids, pDC-TNF has been introduced intoAnabaena sp PCC 7120 by triparental conjugative transfer, and the stable transgenic strains have been obtained. The existence of the introduced plasmid pDC-TNF in recombinant cyanobacterial cells has been demonstrated by the results of the agarose electrophoresis with the extracted plasmid samples and Southern blotting with α-³²P labeled hTNF cDNA probes, while the expression of the hTNF gene inAnabaena sp. PCC 7120 has been confirmed by the results of Western blotting with extracted protein samples and human TNF-alpha monoclonal antibodies. The cytotoxicity assays using the mouse cancer cell line L929 proved the cytotoxicity of the TNF in the crude extracts from the transgenic c~anobacteriumAnabaena sp. PCC 7120.     

Gene Expression in the Cyanobacterium <Emphasis Type="Italic">Anabaena</Emphasis> sp. PCC7120 under Desiccation

The N₂-fixing cyanobacterium Anabaena sp. PCC7120 showed an inherent capacity for desiccation tolerance. A DNA microarray covering almost the entire genome of Anabaena was used to determine the genome-wide gene expression under desiccation. RNA was extracted from cells at intervals starting from early to late desiccation. The pattern of gene expression in DNA fragments was categorized into seven types, which include four types of up-regulated and three types of down-regulated fragments. Validation of the data was carried out by RT-PCR on selected up-regulated DNA fragments and was consistent with the changes in mRNA levels. Our conclusions regarding desiccation tolerance for Anabaena sp. PCC7120 are as follows: (i) Genes for osmoprotectant metabolisms and the K⁺ transporting system are up-regulated from early to mid-desiccation; (ii) genes induced by osmotic, salt, and low-temperature stress are up-regulated under desiccation; (iii) genes for heat shock proteins are up-regulated after mid-desiccation; (iv) genes for photosynthesis and the nitrogen-transporting system are down-regulated during early desiccation; and (v) genes for RNA polymerase and ribosomal protein are down-regulated between the early and the middle phase of desiccation. Profiles of gene expression are discussed in relation to desiccation acclimation.     

Metal-induced expressing of mammal Metallothionein-1 gene in cyanobacteria to promote cadmium-binding preferences

The metal(zinc)-inducible smtA gene promoter (smt O-P) from cyanobacteria was applied for the expression of mouse MT-1 cDNA in the filamentous cyanobacterium Anabaena sp. PCC 7120 to enhance its metal-binding capability and to change its main binding specificity from zinc to cadmium. Shuttle expression vector pKT-MRE transformed the cyanobacterial cells by triparent conjugal transfer. Positive clones were screened and identified by streptomycin, DNA dot blot, SDS-PAGE and Western blot analysis. Photosynthetic oxygen evolution and metal atom absorption indicated that under the cadmium stress the metal-induced expression of foreign mMT-1 doubled their cadmium resistance and developed cells showing a much higher preference to absorb cadmium other than zinc in medium. The cadmium content in cell extract rose from 11% to 36%, and the cadmium cleared from media by transgenic cells rose from 18% to 62%. There was only a slight enhancement for zinc binding in the wild or transgenic type. Received: 1 March 1999 / Received last revision: 9 July 1999 / Accepted: 1 August 1999     

Mn‐catalase (Alr0998) protects the photosynthetic,nitrogen‐fixing cyanobacterium Anabaena PCC7120 from oxidative stress

Role of the non‐haem, manganese catalase (Mn‐catalase) in oxidative stress tolerance is unknown in cyanobacteria. The ORF alr0998 from the Anabaena PCC7120, which encodes a putative Mn‐catalase, was constitutively overexpressed in Anabaena PCC7120 to generate a recombinant strain, AnKat⁺. The Alr0998 protein could be immunodetected in AnKat⁺ cells and zymographic analysis showed a distinct thermostable catalase activity in the cytosol of AnKat⁺ cells but not in the wild‐type Anabaena PCC7120. The observed catalase activity was insensitive to inhibition by azide indicating that Alr0998 protein is indeed a Mn‐catalase. In response to oxidative stress, the AnKat⁺ showed reduced levels of intracellular ROS which was also corroborated by decreased production of an oxidative stress‐inducible 2‐Cys‐Prx protein. Treatment of wild‐type Anabaena PCC7120 with H₂O₂ caused (i) RNA degradation in vivo, (ii) severe reduction of photosynthetic pigments and CO₂ fixation, (iii) fragmentation and lysis of filaments and (iv) loss of viability. In contrast, the AnKat⁺ strain was protected from all the aforesaid deleterious effect under oxidative stress. This is the first report on protection of an organism from oxidative stress by overexpression of a Mn‐catalase.     

Increased activity of the non-regulated enzymes fructose-1,6-bisphosphate aldolase and triosephosphate isomerase in Anabaena sp. strain PCC 7120 increases photosynthetic yield

Non-regulated enzymes in the Calvin cycle are generally presumed to be less important for the regulation of photosynthetic yield. Here, to investigate the relationship between the activity of non-regulated enzymes and photosynthetic yield, two non-regulated enzymes in the Calvin cycle—a rice cytosolic fructose-1,6-bisphosphate aldolase (FBA) and a spinach chloroplast triosephosphate isomerase (TPI)—were cloned and co-expressed in cells of the cyanobacterium Anabaena sp. strain PCC 7120. The activity of FBA and TPI and the photosynthetic yield reflected by photosynthetic O₂ evolution and cell dry weight were measured and compared between wild-type and transgenic cells. Our results demonstrated that the activity of FBA and TPI were increased in transgenic cells relative to wild-type cells, and that activity was further increased in a transgenic strain harboring two sets of FBA-TPI tandem genes relative to cells containing one copy of the FBA-TPI tandem gene. The increased activity of FBA and TPI in Anabaena sp. strain PCC 7120 increased photosynthetic yield, with increased activity levels correlating closely with the degree of changes in photosynthetic yield. This implies that the photosynthetic yield is limited by the activity of the non-regulated enzymes FBA and TPI, and that the endogenous activity of non-regulated enzymes is not sufficient to increase photosynthetic yield. We discuss the various roles of FBA and TPI, and regulated and non-regulated enzymes, in modulating photosynthetic yield. W. Ma and L. Wei contributed equally to this work.     

hGM-CSF基因穿梭表达载体的构建及其在鱼腥藻7120中的克隆

人粒-巨噬细胞集落刺激因子(hGM-CSF)作为一种造血生长因子,能够刺激T细胞和巨噬细胞增殖、成熟和分化,具有极其重要的免疫调解功能.本研究运用PCR方法,从质粒pAG-MT-8中克隆该基因,并在其5′端添加有利于在蓝藻细胞中高效表达的SD序列,然后插入到表达载体(pRL-439)强启动子PpsbA的下游,进一步与穿梭表达载体pDC-08相连构建成穿梭表达载体pDC-GM.利用三亲接合转移方法将该穿梭表达载体(pDC-GM)转入丝状鱼腥藻7120,通过相应抗生素筛选后得到能稳定遗传的转基因藻.以该转基因藻的基因组DNA为模板进行PCR检测,结果表明hGM-CSF基因已转入鱼腥藻7120.这是首次尝试把蓝藻作为制备重组hGM-CSF的新宿主,具有潜在的经济价值和社会效益.     

The role of extracellular polysaccharides produced by the terrestrial cyanobacterium Nostoc sp. strain HK-01 in NaCl tolerance

The terrestrial cyanobacterium Nostoc sp. HK-01 was more tolerant to NaCl stress than the aquatic cyanobacterium Anabaena sp. PCC 7120 (also called Nostoc sp. PCC 7120) which is similar to Nostoc sp. HK-01 in phylogeny. We determined the amount of extracellular polysaccharides (capsular and released polysaccharides) from the cells of both strains cultured with or without 200 mM NaCl. The amount of capsular polysaccharides from Nostoc HK-01 reached approximately 65% of the dry weight whereas that from Anabaena PCC 7120 only occupied approximately 18% of the dry weight under NaCl stress. Anabaena PCC 7120 grew well under NaCl stress when both polysaccharides from Nostoc HK-01 were added to the culture. However, Anabaena PCC 7120 barely grew under NaCl stress when both of its polysaccharides were added. Extracellular polysaccharides from Nostoc HK-01 contained abundant fucose and glucuronic acid in comparison with those from Anabaena PCC 7120. Under NaCl stress, the composition ratios of sugars in the extracellular polysaccharides from Anabaena PCC 7120 hardly changed in comparison with those in ordinary culture conditions. By contrast, the composition ratios of sugars in the extracellular polysaccharides from Nostoc HK-01 changed under NaCl stress. These results suggest that the effect of extracellular polysaccharides from Nostoc HK-01 on NaCl tolerance comes from the increased amount of capsular polysaccharides, the sugar composition, and the change of the sugar composition ratio under NaCl stress.     

Iron deficiency influences NtcA‐dependent regulation of fatty acid desaturation and heterocyte envelop formation in Anabaena sp. PCC 7120

In Anabaena sp. PCC 7120, iron is an essential trace element and its availability determines proper functioning of several kinds of metabolisms. Iron deficiency leads to several unavoidable consequences including membrane damage. In the present study, we dealt with the impact of iron deficiency on NtcA (global nitrogen regulator)‐dependent regulation of two important processes, i.e. fatty acid desaturation and heterocyte envelop formation in cyanobacterium Anabaena sp. PCC 7120. In Anabaena sp. PCC 7120, NtcA regulates fatty acid desaturation by regulating enzyme fatty acid desaturases. The NtcA‐based regulation of fatty acid desaturation may be direct or indirect. Furthermore, the expression of genes involved in the heterocyte envelope polysaccharide (HEP) layer formation (hepABCK) and heterocyte‐specific glycolipids (HGLs) synthesis (devH, hglE_A, prpJ and devB) were also under the control of NtcA and reduced under iron deficiency background. The enhanced expression of furA and early downregulation of ntcA under iron deficiency is responsible for reduction in fatty acid desaturation as well as decrease in the expression of genes involved in HEP layer formation and HGL synthesis. Overall results confirmed that iron deficiency influences the NtcA‐based regulation of fatty acid desaturation and heterocyte envelop formation in Anabaena sp. PCC 7120.     

Inactivation of ntcA gene revealed differential proteome expression and induction of some hypothetical proteins in the cyanobacterium Anabaena sp. PCC 7120 and its derivative ntcA mutant under different levels of calcium

Abstract

Calcium is an important macronutrient for both prokaryotes and eukaryotes. It acts as an important second messenger mediating rapid response to environmental conditions. The present investigation deals with proteome profiling of Anabaena 7120 and its derivative ntcA mutant in response to varied calcium doses (0, 1 and 10?mM CaCl₂). Concentration of 1?mM CaCl₂ salt was the optimum concentration whereas 10?mM CaCl₂ was the inhibitory concentration for both the wild type and mutant strains. The results showed highly significant alteration in terms of protein abundance and differential response related to key processes of photosynthesis, energy and metabolism, nitrogen metabolism, oxidative and antioxidative defence, transport and signalling and fatty acid metabolism. In the wild type proteins related to photosynthesis and nitrogen metabolism showed upregulation at 1?mM CaCl₂ concentration while antioxidative defence related proteins were down-regulated. In the mutant however, proteins related to photosynthesis and nitrogen metabolism exhibited severe down-regulation. Some hypothetical proteins were also realized during proteome analysis. Overall, our results suggested that NtcA have a potential role in regulation of calcium ion dependent key processes underlying in various metabolic activities of the cyanobacterium Anabaena 7120.     

Paired cloning vectors for complementation of mutations in the cyanobacterium<Emphasis Type="Italic"> Anabaena</Emphasis> sp. strain PCC 7120

The clones generated in a sequencing project represent a resource for subsequent analysis of the organism whose genome has been sequenced. We describe an interrelated group of cloning vectors that either integrate into the genome or replicate, and that enhance the utility, for developmental and other studies, of the clones used to determine the genomic sequence of the cyanobacterium, Anabaena sp. strain PCC 7120. One integrating vector is a mobilizable BAC vector that was used both to generate bridging clones and to complement transposon mutations. Upon addition of a cassette that permits mobilization and selection, pUC-based sequencing clones can also integrate into the genome and thereupon complement transposon mutations. The replicating vectors are based on cyanobacterial plasmid pDU1, whose sequence we report, and on broad-host-range plasmid RSF1010. The RSF1010- and pDU1-based vectors provide the opportunity to express different genes from either cell-type-specific or -generalist promoters, simultaneously from different plasmids in the same cyanobacterial cells. We show that pDU1 ORF4 and its upstream region play an essential role in the replication and copy number of pDU1, and that ORFs alr2887 and alr3546 (hetF _A ) of Anabaena sp. are required specifically for fixation of dinitrogen under oxic conditions.     

Expression of Mouse MT-cDNA in Filamentous Cyanobacterium to Enhance Its Metal- resistance

The cMT-like promoter (stat O-P) was used for the expression of mMT- Ⅰ cDNA in cyanobacterium, Anabaena sp. PCC 7120, to enhance its metal-binding ability and specificity. Shuttle vector pKT-MRE was constructed and replicated in E. coli HB101, and triparental conjugate transfer was applied for transforming cyanobacterial cells. Sm-screening, Southern and Western blotting analysis were used for the identification of the transgenic cyanobacterium clones. Transgenic cyanobacterial metal-absorption ability, heavy metal-resistance and photosynthesis measurements in the medium containing heavy metal ion indicated that the expression of foreign mMT- I enhanced the cyanobactefial heavy metal-resistance to 1.5 times in the transgenic Anabaena sp. PCC 7120.     

Expression of the CMV‐CP Gene in Synechocystis 6803 Affects Cyanobacterial Photosynthesis

Previous work has shown that the presence of excess coat protein (CP) of cucumber mosaic virus (CMV) in the chloroplasts was related with mosaic symptoms. However, whether these mosaic symptoms are directly induced by the interaction between CP and chloroplasts is unknown. To directly demonstrate the interaction between CP and the chloroplast, Synechocystis sp. PCC 6803 was used as the chloroplast model. The cDNA encoding the CMV‐CP was cloned in a cyanobacterial shuttle vector (pKT‐CP) and transferred to Synechocystis sp. PCC 6803. The CP was expressed in the cyanobacterium with the psbA promoter. The expression of CMV‐CP hindered the growth of transgenic cyanobacterium cells and decreased its photosynthetic rate and the PS II activity. The transgenic cells showed increased fluorescence (F) from the phycobilisome terminal emitters and increased fluorescence (F) from PS II. The absorption spectra at room temperature showed the Chl and the phycocyanin absorption peak of the mutant strain significantly decreased. These results showed that CP may directly affect the cyanobacterium cells and decreased its photosynthesis, especially the PS II activity. These data might provide new evidence for mosaic symptoms being directly induced by the interaction between CP and chloroplasts.     

Calcium-dependent protease of the cyanobacterium Anabaena: molecular cloning and expression of the gene in Escherichia coli, sequencing and site-directed mutagenesis

Summary It has been suggested that a calcium-dependent intracellular protease of the cyanobacterium, Anabaena sp., participates in the differentiation of heterocysts, cells that are specialized for fixation of N₂. Clones of the structural gene (designated prcA) for this protease from Anabaena variabilis strain ATCC 29413 and Anabaena sp. strain PCC 7120 were identified via their expression in Escherichia coli. The prcA gene from A. variabilis was sequenced. The genes of both strains, mutated by insertion of a drug resistance cassette, were returned to these same strains of Anabaena on suicide plasmids. The method of sacB-mediated positive selection for double recombinants was used to achieve replacement of the wild-type prcA genes by the mutated forms. The resulting mutants, which lacked Ca²⁺-dependent protease activity, were not impaired in heterocyst formation and grew on N₂ as sole nitrogen source.