DHA高产菌Schizochytrium sp.FJU-512脂肪酸组成与18S rRNA基因序列分析

采用松花粉垂钓法分离到一株docosahexaenoic acid(DHA)高产菌FJU-512。该菌株DHA含量高(占总脂肪酸的56．24％),其它长链杂酸含量少(仅有Docosapentraenoic acid,二十二碳五烯酸,DPA),极具开发应用价值。高密度培养获得33g／L生物量。该菌株呈二分裂生长,没有分生孢子。对其18S rRNA基因进行了克隆测序并登录GenBank(AY758384)。依据18S rRNA基因建立的系统进化树表明：该菌与Schizochytrium limacinum具有紧密的亲缘关系。     

Isolation and sequence analysis of polyketide synthase genes from the daunomycin-producing Streptomyces sp. strain C5.

A contiguous region of about 30 kbp of DNA putatively encoding reactions in daunomycin biosynthesis was isolated from Streptomyces sp. strain C5 DNA. The DNA sequence of an 8.1-kbp EcoRI fragment, which hybridized with actI polyketide synthase (PKS) and actIII polyketide reductase (PKR) gene probes, was determined, revealing seven complete open reading frames (ORFs), two in one cluster and five in a divergently transcribed cluster. The former two genes are likely to encode PKR and a bifunctional cyclase/dehydrase. The five latter genes encode: (i) a homolog of TcmH, an oxygenase of the tetracenomycin biosynthesis pathway; (ii) a PKS Orf1 homolog; (iii) a PKS Orf2 homolog (chain length factor); (iv) a product having moderate sequence identity with Escherichia coli beta-ketoacyl acyl carrier protein synthase III but lacking the conserved active site; and (v) a protein highly similar to several acyltransferases. The DNA within the 8.1-kbp EcoRI fragment restored daunomycin production to two dauA non-daunomycin-producing mutants of Streptomyces sp. strain C5 and restored wild-type antibiotic production to Streptomyces coelicolor B40 (act VII; nonfunctional cyclase/dehydrase), and to S. coelicolor B41 (actIII) and Streptomyces galilaeus ATCC 31671, strains defective in PKR activity.     

裂殖壶菌EST文库cdc2基因的筛选与分析

利用已建立的裂殖壹菌(Schizochytrium sp FJU-512)EST文库,通过序列比对分析发现p34cdc2相似基因的3′端序列,分离含该EST序列的质粒ROCHA2004,以T7引物进行反向测序,获得p34cdc2相似基因的全长序列,结合NCBI的ORF finder以及Blastx程序获得p34cdc2蛋白的氨基酸序列;利用同源模建方法构建了该蛋白的三维空间结构,并预测其功能结构域;对该蛋白进行系统发育分析,构建进化树,结果显示该蛋白同小麦(Triticum aestivum)的p34cdc2序列亲缘关系最近。     

Identification and analysis of expressed sequence tags present in xylem tissues of kelampayan (Neolamarckia cadamba (Roxb.) Bosser)

The large-scale genomic resource for kelampayan was generated from a developing xylem cDNA library. A total of 6,622 high quality expressed sequence tags (ESTs) were generated through high-throughput 5’ EST sequencing of cDNA clones. The ESTs were analyzed and assembled to generate 4,728 xylogenesis unigenes distributed in 2,100 contigs and 2,628 singletons. About 59.3 % of the ESTs were assigned with putative identifications whereas 40.7 % of the sequences showed no significant similarity to any sequences in GenBank. Interestingly, most genes involved in lignin biosynthesis and several other cell wall biosynthesis genes were identified in the kelampayan EST database. The identified genes in this study will be candidates for functional genomics and association genetic studies in kelampayan aiming at the production of high value forests.     

应用大规模测序技术和生物信息学研究造血干/祖细胞的基因表达及新基因的识别和克隆

从新生儿脐血和成人骨髓中分选出造血干／祖细胞（ＨＳＣ／ＨＰＣ）,构建成ｃＤＮＡ文库,对其进行大规模表达序列标签（ＥＳＴ）测序,通过生物信息学等手段分析基因表达谱,并进行新基因的全长ｃＤＮＡ克隆。在所测的１０５１２条可分析ＥＳＴ序列中,有９８６６条来自脐血ＣＤ３４＋细胞,其中４６９７条（４７６％）为已知基因,２６０３条（２６４％）为已知ＥＳＴ,１４１５条（１４３％）代表未知ＥＳＴ。在已知基因中,８２％基因与造血相关,２２７％涉及细胞代谢、结构和迁移,１３０％与细胞分裂和防御相关,２６２％与ＲＮＡ、蛋白质的合成相关,１０６％和细胞信号传递有关。对一些已知和未知的ＥＳＴ,综合测序、生物信息学等方法,进行全长克隆,已获得２３个新基因的全长ｃＤＮＡ。     

Biosynthesis of docosahexaenoic acid (DHA, 22:6-4, 7,10,13,16,19): two distinct pathways

Docosahexaenoic acid (DHA) has long been recognized for its beneficial effect in humans, but its biosynthetic pathway has not been clearly established until recently. According to Sprecher, in mammals, DHA is synthesized via a retro-conversion process in peroxisomes-the aerobic delta4 desaturation-independent pathway. Recent identification of a Thraustochytrium delta4 desaturase indicates that delta4 desaturation is indeed involved in DHA synthesis in Thraustochytrium. More interestingly, an alternative pathway for DHA biosynthesis-the anaerobic polyketide synthase pathway was also reported recently to occur in Schizochytrium, another member of the Thraustochytriidae. This mini-review attempts to assess the latest research on these distinct pathways for DHA biosynthesis.     

Biosynthesis of docosahexaenoic acid in Euglena gracilis: biochemical and molecular evidence for the involvement of a Delta4-fatty acyl group desaturase

Docosahexaenoic acid (DHA) can be synthesized via alternative routes from which only the omega3/omega6-pathways involve the action of a Delta4-fatty acid desaturase. We examined the suitability of Euglena gracilis, Thraustochytrium sp., Schizochytrium sp., and Crypthecodinium cohnii to serve as sources for cloning a cDNA encoding a Delta4-fatty acid desaturase. For this purpose we carried out in vivo labeling studies with radiolabeled C22 polyunsaturated fatty acid substrates. Schizochytrium sp. was unable to convert exogenously supplied [2-(14)C]-docosapentaenoic acid (DPA, 22:5(Delta)(7,10,13,16,19)) to DHA, while E. gracilis and Thraustochytrium sp. carried out this desaturation very efficiently. Hydrogenation and alpha-oxidation of the labeled DHA isolated from these two organisms showed that it was the result of direct Delta4-desaturation and not of substrate breakdown and resynthesis. To clone the desaturase gene, a cDNA library of E. gracilis was subjected to mass sequencing. A full-length clone with highest homology to the Delta4-desaturase of Thraustochytrium sp. was isolated, and its function was verified by heterologous expression in yeast. The desaturase efficiently converted DPA to DHA. Analysis of the substrate specificity demonstrated that the enzyme activity was not limited to C22 fatty acids, since it also efficiently desaturated C16 fatty acids. The enzyme showed strict Delta4-regioselectivity and required the presence of a Delta7-double bond in the substrate. Positional analysis of phosphatidylcholine revealed that the proportion of the Delta4-desaturated products was up to 20 times higher in the sn-2 position than in the sn-1 position.     

Isoprenoid biosynthesis in Artemisia annua: cloning and heterologous expression of a germacrene A synthase from a glandular trichome cDNA library

Artemisia annua (Asteraceae) is the source of the anti-malarial compound artemisinin. To elucidate the biosynthetic pathway and to isolate and characterize genes involved in the biosynthesis of terpenoids including artemisinin in A. annua, glandular trichomes were used as an enriched source for biochemical and molecular biological studies. The sequencing of 900 randomly selected clones from a glandular trichome plasmid cDNA library revealed the presence of many ESTs involved in isoprenoid biosynthesis such as enzymes from the methylerythritol phosphate pathway and the mevalonate pathway, amorpha-4,11-diene synthase and other sesquiterpene synthases, monoterpene synthases and two cDNAs showing high similarity to germacrene A synthases. Full-length sequencing of the latter two ESTs resulted in a 1686-bp ORF encoding a protein of 562 aa. Upon expression in Escherichia coli, the recombinant protein was inactive with geranyl diphosphate, but catalyzed the cyclization of farnesyl diphosphate to germacrene A. These results demonstrate the potential of the use of A. annua glandular trichomes as a starting material for studying isoprenoid biosynthesis in this plant species.     

木榄幼苗叶片cDNA文库的构建及其表达序列标签分析

应用SMART技术构建了25‰盐度下生长4个月的木榄叶片的cDNA文库,文库滴度为10~6 cfu mL~(-1),重组率为94.4%,插入片断长度为1～2 kb.从cDNA文库中随机挑选了96个重组克隆进行序列分析,共获得94个表达序列标签(ESTs),经质量控制和聚类拼接后得到81个unigenes,包括5个片断聚合群和76个单一序列.Blastx分析结果表明这些unigencs与GenBank的Nr数据库中已报道的基因具有较高的同源性(E<10~(-5)),它们参与呼吸代谢、光合作用、糖代谢、氨基酸代谢、脂肪酸代谢以及不饱和脂肪酸生物合成等重要的生理过程,并与机体的损伤修复、胞吞作用以及PPAR信号途径等相关.     

Identification of genes differentially expressed during aflatoxin biosynthesis in Aspergillus flavus and Aspergillus parasiticus

A complex regulatory network governs the biosynthesis of aflatoxin. While several genes involved in aflatoxin production are known, their action alone cannot account for its regulation. Arrays of clones from an Aspergillus flavus cDNA library and glass slide microarrays of ESTs were screened to identify additional genes. An initial screen of the cDNA clone arrays lead to the identification of 753 unique ESTs. Many showed sequence similarity to known metabolic and regulatory genes; however, no function could be ascribed to over 50% of the ESTs. Gene expression analysis of Aspergillus parasiticus grown under conditions conducive and non-conductive for aflatoxin production was evaluated using glass slide microarrays containing the 753 ESTs. Twenty-four genes were more highly expressed during aflatoxin biosynthesis and 18 genes were more highly expressed prior to aflatoxin biosynthesis. No predicted function could be ascribed to 18 of the 24 genes whose elevated expression was associated with aflatoxin biosynthesis.     

添加生物素和浅蓝菌素对裂殖壶菌发酵产DHA的影响

为提高发酵产量,根据裂殖壶菌生物合成二十二碳六烯酸(DHA)的途径,考察添加代谢途径关键酶的辅酶及酶的抑制剂对发酵裂殖壶菌的影响.结果表明:添加生物素可促进油脂积累,添加浅蓝菌素有利于DHA及不饱和脂肪酸含量的提高.添加生物素0.3 mg/L时,DHA占细胞干质量分数达11.26％,相对于对照提高了13％;当添加浅蓝菌素0.1mg/L时,DHA占细胞干质量分数可达12.2％.     

Novel polyketide synthase from Nectria haematococca

We identified a polyketide synthase (PKS) gene, pksN, from a strain of Nectria haematococca by complementing a mutant unable to synthesize a red perithecial pigment. pksN encodes a 2,106-amino-acid polypeptide with conserved motifs characteristic of type I PKS enzymatic domains: beta-ketoacyl synthase, acyltransferase, duplicated acyl carrier proteins, and thioesterase. The pksN product groups with the Aspergillus nidulans WA-type PKSs involved in conidial pigmentation and melanin, bikaverin, and aflatoxin biosynthetic pathways. Inactivation of pksN did not cause any visible change in fungal growth, asexual sporulation, or ascospore formation, suggesting that it is involved in a specific developmental function. We propose that pksN encodes a novel PKS required for the perithecial red pigment biosynthesis.     

Fatty acid biosynthesis in microorganisms being used for Single Cell Oil production

Single cell oils (SCOs) are now produced by various microorganisms as commercial sources of arachidonic acid (ARA) and docosahexaenoic acid (DHA). These oils are now used extensively as dietary supplements in infant formulas. An understanding of the underlying biochemistry and genetics of oil accumulation in such microorganisms is therefore essential if lipid yields are to be improved. Also an understanding of the biosynthetic pathways involved in the production of these polyunsaturated fatty acids (PUFAs) is also highly desirable as a prerequisite to increasing their content in the oils. An account is provided of the biosynthetic machinery that is necessary to achieve oil accumulation in an oleaginous species where it can account for lipid build up in excess of 70% of the cell biomass. Whilst PUFA production in most microorganisms uses a conventional fatty acid synthase (FAS) system followed by a series of desaturases and elongases, in Schizochytrium sp., and probably related thraustochytrid marine protists, PUFA synthesis now appears to be via a polyketide synthase (PKS) route. This route is discussed. It clearly represents a major departure from conventional fatty acid biosynthesis, possibly as a means of decreasing the amount of NADPH that is needed in the overall process.     

莲瓣王捧瓣与舌瓣SSH文库构建及EST序列分析

为了探索兰花舌瓣形成的分子机制,本研究利用消减抑制杂交技术构建了莲瓣王（Cymbidium lianpan Tang et Wang）捧瓣与舌瓣间的cDNA文库。对正向文库中随机挑选的147个阳性克隆测序,组装、拼接,找到37个唯一序列,其中包含25个单一序列和12个拼接序列。经同源性比对,这些EST分别归类于蛋白质折叠,结合、未知功能、应激反应、光合作用、转录调控、信号传导、生物合成、新陈代谢、MADS等10类。通过对MADS-box基因的系统进化树分析,可初步推测MADS-Contig1和MADS-Contig2属于A类基因中的SQUA-like亚家族基因。     

Isolation and disruption of the melanin pathway polyketide synthase gene of the softwood deep stain fungus Ceratocystis resinifera

Ceratocystis resinifera hyphae produce a black melanin pigment causing a deep stain in softwood logs. We exploited the homology of polyketide synthases to clone PKS1, a gene responsible for dihydroxynaphthalene-melanin biosynthesis in C. resinifera. Sequence analysis indicated that PKS1 has two introns near its 5(') end and encodes a 2188-amino acid polypeptide with five functional domains: beta-ketoacyl synthase, acyl transferase, two acyl carrier proteins and a thioesterase/Claisen cyclase. A gene disruption construct designed to replace a portion of PKS1 with a hygromycin resistance cassette was transformed into C. resinifera through Agrobacterium tumefaciens-mediated transformation. PKS1 null mutants had an albino phenotype, and pigmentation was restored by the addition of scytalone, a melanin pathway intermediate. The disruption of PKS1 and restoration of pigmentation with scytalone confirmed the presence of a dihydroxynaphthalene-melanin pathway in C. resinifera. The transformation method described in this paper is the first reported for a Ceratocystis species.     

The putative elaiophylin biosynthetic gene cluster in Streptomyces sp. DSM4137 is adjacent to genes encoding adenosylcobalamin-dependent methylmalonyl CoA mutase and to genes for synthesis of cobalamin

A type I PKS gene probe obtained from RAPB of the rapamycin producer Streptomyces hygroscopicus, strongly hybridised to 92 out of 1120 cosmids from a genomic library of the elaiophylin-producing strain Streptomyces sp. DSM4137. Partial cosmid sequencing suggested the presence of 10 separate sequences encoding type I PKS genes. One entire DNA sequence was obtained and found exactly to match the gene organisation expected for the biosynthesis of the unusual macrodiolide polyketide elaiophylin. The putative elaiophylin gene cluster contains five large open-reading frames encoding typical modular polyketide synthases, which together catalyse the synthesis of the octaketide monomer of elaiophylin. Other genes were identified that would be required for provision of the ethylmalonate extender unit, for the synthesis and attachment of 2-deoxy-L-fucose and in regulation, or in export of the product. Immediately adjacent to the putative elaiophylin biosynthetic gene cluster is a 30-kbp region containing the gene for adenosylcobalamin-dependent methylmalonyl CoA mutase and also genes involved in the biosynthesis of the cobalamin cofactor. Analysis of the latter gene set confirms the view that cbiD of the anaerobic pathway and cobF in the aerobic pathway catalyse the same methylation of precorrin-5. The proximity of these genes to the putative elaiophylin gene cluster can best be rationalised if in this organism succinyl-CoA is a significant source of the methylmalonate units for complex polyketide biosynthesis.     

ANALYSIS OF EXPRESSED SEQUENCE TAGS FROM THE GREEN ALGA ULVA LINZA (CHLOROPHYTA)1

There is a general lack of genomic information available for chlorophyte seaweed genera such as Ulva, and in particular there is no information concerning the genes that contribute to adhesion and cell wall biosynthesis for this organism. Partial sequencing of cDNA libraries to generate expressed sequence tags (ESTs) is an effective means of gene discovery and characterization of expression patterns. In this study, a cDNA library was created from sporulating tissue of Ulva linza L. Initially, 650 ESTs were randomly selected from a cDNA library and sequenced from their 5′ ends to obtain an indication of the level of redundancy of the library (21%). The library was normalized to enrich for rarer sequences, and a further 1920 ESTs were sequenced. These sequences were subjected to contig assembly that resulted in a unigene set of approximately 1104 ESTs. Forty‐eight percent of these sequences exhibited significant similarity to sequences in the databases. Phylogenetic comparisons are made between selected sequences with similarity in the databases to proteins involved in aspects of extracellular matrix/cell wall assembly and adhesion.     

A new strategy for strain improvement of Aurantiochytrium sp. based on heavy-ions mutagenesis and synergistic effects of cold stress and inhibitors of enoyl-ACP reductase

Developing a strain with high docosahexaenoic acid (DHA) yield and stable fermenting-performance is an imperative way to improve DHA production using Aurantiochytrium sp., a microorganism with two fatty acid synthesis pathways: polyketide synthase (PKS) pathway and Type I fatty acid synthase (FAS) pathway. This study investigated the growth and metabolism response of Aurantiochytrium sp. CGMCC 6208 to two inhibitors of enoyl-ACP reductase of Type II FAS pathway (isoniazid and triclosan), and proposed a method of screening high DHA yield Aurantiochytrium sp. strains with heavy ion mutagenesis and pre-selection by synergistic usage of cold stress (4 °C) and FAS inhibitors (triclosan and isoniazid). Results showed that (1) isoniazid and triclosan have positive effects on improving DHA level of cells; (2) mutants from irradiation dosage of 120 Gy yielded more DHA compared with cells from 40 Gy, 80 Gy treatment and wild type; (3) DHA contents of mutants pre-selected by inhibitors of enoyl-ACP reductase of Type II FAS pathway (isoniazid and triclosan)at 4 °C, were significantly higher than that of wild type; (4) compared to the wild type, the DHA productivity and yield of a mutant (T-99) obtained from Aurantiochytrium sp. CGMCC 6208 by the proposed method increased by 50% from 0.18 to 0.27 g/Lh and 30% from 21 to 27 g/L, respectively. In conclusion, this study developed a feasible method to screen Aurantiochytrium sp. with high DHA yield by a combination of heavy-ion mutagenesis and mutant-preselection by FAS inhibitors and cold stress.     

A polyketide synthase is required for fungal virulence and production of the polyketide T-toxin.

Race T of the fungal pathogen Cochliobolus heterostrophus is highly virulent toward Texas male sterile (T) maize and differs from its relative, race O, at a locus (Tox1) that is responsible for the production of T-toxin, a family of linear long-chain (C35 to E41) polyketides. In a previous study, the restriction enzyme-mediated integration procedure was used to mutagenize and tag Tox1. Here, we report that the DNA recovered from the insertion site of one mutant encodes a 7.6-kb open reading frame (2530 amino acids) that identifies a multifunctional polyketide synthase (PKS)-encoding gene (PKS1) with six catalytic domains arranged in the following order, starting at the N terminus: beta-ketoacyl synthase, acyltransferase, dehydratase, enoyl reductase, beta-ketoacyl reductase, and acyl carrier protein. PKS1 is interrupted by four apparent introns (74, 57, 49, and 41 bp) and exists in the genome as a single copy surrounded by highly repetitive, A + T-rich DNA. When PKS1 in race T was inactivated by targeted gene disruption, T-toxin production and high virulence were eliminated, indicating that this PKS is required for fungal virulence. Race O strains, which do not produce T-toxin, lack a detectable homolog of PKS1, suggesting that race T may have acquired PKS1 by horizontal transfer of DNA rather than by vertical inheritance from an ancestral strain.