The P450-4 Gene of Gibberella fujikuroi Encodes ent-Kaurene Oxidase in the Gibberellin Biosynthesis Pathway

At least five genes of the gibberellin (GA) biosynthesis pathway are clustered on chromosome 4 of Gibberella fujikuroi; these genes encode the bifunctional ent-copalyl diphosphate synthase/ent-kaurene synthase, a GA-specific geranylgeranyl diphosphate synthase, and three cytochrome P450 monooxygenases. We now describe a fourth cytochrome P450 monooxygenase gene (P450-4). Gas chromatography-mass spectrometry analysis of extracts of mycelia and culture fluid of a P450-4 knockout mutant identified ent-kaurene as the only intermediate of the GA pathway. Incubations with radiolabeled precursors showed that the metabolism of ent-kaurene, ent-kaurenol, and ent-kaurenal was blocked in the transformants, whereas ent-kaurenoic acid was metabolized efficiently to GA₄. The GA-deficient mutant strain SG139, which lacks the 30-kb GA biosynthesis gene cluster, converted ent-kaurene to ent-kaurenoic acid after transformation with P450-4. The B1-41a mutant, described as blocked between ent-kaurenal and ent-kaurenoic acid, was fully complemented by P450-4. There is a single nucleotide difference between the sequence of the B1-41a and wild-type P450-4 alleles at the 3′ consensus sequence of intron 2 in the mutant, resulting in reduced levels of active protein due to a splicing defect in the mutant. These data suggest that P450-4 encodes a multifunctional ent-kaurene oxidase catalyzing all three oxidation steps between ent-kaurene and ent-kaurenoic acid.     

农杆菌介导类胡萝卜素合成酶基因LycB转化水稻的研究

以3个水稻品种的成熟胚诱导的良好胚性愈伤组织为受体,以LycB为目的基因,应用根癌农杆菌介导法对水稻进行遗传转化,同时以抗性愈伤率为依据,对影响转化的几个因素进行优化研究。结果表明：预培养4d、侵染5～10min、农杆菌菌液浓度OD600值0.7～1.0、共培养2d有利于提高转化率。经潮霉素筛选获得的抗性植株经PCR和PCR-Southern分析鉴定,初步证明外源基因LycB已整合到水稻的基因组中。     

Gibberellin Biosynthetic Pathway inGibberella fujikuroi:Evidence for a Gene Cluster

Differential screening of aGibberella fujikuroicDNA library was used to successfully clone and identify genes involved in the pathway of gibberellin biosynthesis. Several cDNA clones that hybridized preferentially to a cDNA probe prepared from mycelium induced for gibberellin production were isolated and characterized. The deduced amino acid sequences of two (identical) clones contained the conserved heme-binding motif of cytochrome P450 monooxygenases (FXXGXXXCXG). One of these cDNA fragments was used as a homologous probe for the screening of a genomic library. A hybridizing 6.7-kb genomicSalI fragment was cloned into pUC19. The sequencing of this clone revealed that a second cytochrome P450 monooxygenase gene was closely linked to the first one. Since at least four cytochrome P450 monooxygenase-catalyzed steps are involved in the synthesis of gibberellins, chromosome walking was performed to find a further gene of this family or other genes involved in gibberellin pathway. Next to the two P450 monooxygenase genes, a putative geranylgeranyl diphosphate synthase gene, the copalyl diphosphate synthase gene, which is the first specific gene of the gibberellin pathway, and a third P450 monooxygenase gene were identified. These results suggest that at least some of the genes involved in the biosynthesis of gibberellins are closely linked in a gene cluster inG. fujikuroi,as has been recently found for other “dispensable” pathways in fungi.     

The Effects of Actinomycin D,Gibberellin A7, and Cyclic AMP on Mating of Chlamydomonas reinhardtii*

SYNOPSIS. Gibberellin A7 and cyclic AMP increased mating efficiency of Chlamydomonas reinhardtii when the cells were treated during gametogenesis. No change in mating activity was observed when cells were treated with 5′-AMP. Actinomycin D inhibited both normal mating and gibberellin-stimulated mating.     

棉花赤霉素氧化酶同源基因GhGA20ox1在烟草中的功能表达

为研究棉花GA20-氧化酶同源基因GhGA20ox1的功能,将该基因转入本明烟（N．benthamiana）中进行超量表达。RT-PCR分析表明GhGA20ox1基因在转基因植株中得到了不同水平的表达。GhGA20ox1基因的超量表达促进了本明烟中的GA4＋7合成,并导致赤霉素过量的表型出现。转基因本明烟的表型变化程度与GhGA20ox1基因的表达水平和GA4＋7的含量一致。这些结果表明,GhGA20ox1基因编码一个有功能的GA20-氧化酶,能够在转基因烟草中促进活性GA（GA4＋7）的合成,可以用作目的基因来提高棉花纤维和其他植物的内源GA水平。     

p35Nck5a基因重复性打靶载体的构建和ES细胞基因打靶研究

为了在小鼠胚胎于细胞（ＥＳ）中引起神经细胞ｃｄｃ２类激酶调节亚基ｐ３５Ｎｃｋ５ａ基因的定点 重复,采用常规的分子克隆技术,构建得到长约１２．２ｋｂ的基因重复性打靶载体ｐＧＤＴＶ。用电 穿孔法将线性化的ｐＧＤＴＶ载体转入ＥＳ细胞,经过Ｇ４１８和ＧＡＮＣ分组药物选择,获得２４５个 双药物抗性的细胞克隆,细胞存活率为６．２２ × １０－５。经ＰＣＲ和基因组Ｓｏｕｔｈｅｒｎ杂交鉴定,２个 ＥＳ细胞克隆发生了ｐ３５Ｎｃｋ５ａ基因的重复,同源重组率为５．０８×１０－７、负向选择系统的应用使 同源重组事件的富集效率提高了７倍。为建立Ａｌｚｈｅｉｍｅｒ病的转基因小鼠模型打下了基础。     

Diversity of the Formyltetrahydrofolate Synthetase Gene (fhs), a Key Enzyme for Reductive Acetogenesis,in the Bovine Rumen

A clone library of the partial formyltetrahydrofolate synthetase gene (fhs), a key enzyme in reductive acetogenesis, was constructed from the DNA of bovine rumen contents. Diverse sequences were recovered, the majority of which were clustered with the fhs of authentic acetogens. Low similarity values to known fhs were observed in all sequences, suggesting the presence of unknown acetogens.     

蚯触圈源啶虫脒降解菌D35的分离鉴定及其降解条件优化

【背景】啶虫脒等新烟碱类杀虫剂的残留易对非靶标生物造成伤害,投加高效降解细菌进行生物强化,可促进其快速降解。【目的】从蚯触圈中分离筛选啶虫脒降解菌并优化其降解条件,提高降解效率。【方法】制备蚯触圈基质富集筛选降解菌;通过生理生化特征和16S rRNA基因序列分析对其进行鉴定;利用单因素筛选、Plackett-Burman试验、最陡爬坡试验及Box-Behnken design试验优化菌株降解条件。【结果】分离得到1株啶虫脒降解菌D35,可在72 h内降解55.46%初始浓度为50 mg/L的啶虫脒,将其鉴定为一株假单胞菌(Pseudomonas sp.)。优化得到菌株降解啶虫脒的最佳环境条件为：胰蛋白胨10.19 g/L、温度为30℃、接种量为5.24%,pH 7.0、初始农药浓度50 mg/L,在此条件下72 h内菌株降解率为80.21%,较未优化前提高了24.75%。【结论】本研究对分离筛选新烟碱类杀虫剂降解菌的方法进行了探索,获得的菌株D35可高效降解啶虫脒,为快速消除环境中啶虫脒污染提供了新的微生物资源。     

链霉菌Streptomyces tenebrarius H6中与抗生素有关的糖生物合成基因的克隆

链霉菌S.tenebrarius H6产生多种氨基糖甙类抗生素,主要有阿普霉素、妥普霉素及卡那霉素B,其中阿普霉素因含有8碳糖的一种特殊结构令人注目,它的抗菌谱广,特别是对革兰氏阴性菌有较强的抗菌活性,不容易产生耐药性,对已有的耐药菌产生的氨基糖苷转移酶等失活酶仍有抵抗力.主要用于牛、猪、鸡等的大肠杆菌、沙门氏菌和支原体所引起的白痢、腹泻和肺炎等疾病.迄今有关八碳糖生物合成基因簇的研究在国内外尚无报道,在该菌株开展有关糖合成代谢基因的研究有着一定的意义.     

水稻抗稻瘟病基因Pi-2(t)物理图谱的构建

应用ＢＡＣ文库,采用基于分子标记的染色体着陆（ｍａｒｋｅｒ－ｂａｓｅｄ ｃｈｒｏｍｏｓｏｍｅ ｌａｎｄｉｎｇ）和染色体步查（ｃｈｒｏｍｏｓｏｍｅ ｗａｌｋｉｎｇ）等手段,建立了包含有裟抗稻瘟病基因Ｐｉ－２（ｔ）的物理图谱,该物理图谱由２２个ＢＡＣ克隆组成,遗传跨度８ｃＭ,而物理距离为９２５ｋｂ,该物理图谱的构建不仅为进一步分离和克隆该基因打下了基础,同时也可为分子标记辅助选择育种选择抗稻瘟病新材料     

The Gene CBO0515 from Clostridium botulinum Strain Hall A Encodes the Rare Enzyme N5-(Carboxyethyl) Ornithine Synthase,EC 1.5.1.24

Sequencing of the genome of Clostridium botulinum strain Hall A revealed a gene (CBO0515), whose putative amino acid sequence was suggestive of the rare enzyme N⁵-(1-carboxyethyl) ornithine synthase. To test this hypothesis, CBO0515 has been cloned, and the encoded polypeptide was purified and characterized. This unusual gene appears to be confined to proteolytic strains assigned to group 1 of C. botulinum.In the late 1980s, high concentrations of two unknown ninhydrin-reactive compounds were discovered in the amino acid pool of Lactococcus lactis, an organism used extensively for the manufacture of cheese in the dairy industry. The two compounds, subsequently identified as N⁵-(l-1-carboxyethyl)-l-ornithine [N⁵-(CE) ornithine] and N⁶-(l-1-carboxyethyl)-l-lysine [N⁶-(CE) lysine], were purified and characterized, and their stereochemical structures were established by chemical syntheses and nuclear magnetic resonance spectroscopy (11, 14, 17). These N-carboxyalkyl derivatives are formed enzymatically via a reductive condensation between pyruvic acid and the ω (side chain) amino groups of ornithine and lysine, respectively (Fig. ​(Fig.11).Open in a separate windowFIG. 1.N^ω-Carboxyethyl derivatives are formed enzymatically via a reductive condensation between pyruvic acid and the side chain amino groups of ornithine and lysine, respectively.In L. lactis, the biosyntheses of N⁵-(CE) ornithine and N⁶-(CE) lysine are catalyzed by a unique tetrameric NADPH-dependent enzyme, N⁵-(carboxyethyl)-ornithine synthase (CEOS; EC 1.5.1.24.) (7, 13, 16). The gene encoding this protein (ceo) has a chromosomal locus and, in the case of L. lactis strain K1, ceo is present on a large transposon (Tn5306) that also encodes the requisite genes for sucrose metabolism and nisin biosynthesis (6, 7, 19). Since its purification in 1989, CEOS has not been reported in other microorganisms and, until recently, no gene(s) with significant similarity to ceo had been found in any of the hundreds of currently sequenced bacterial genomes. It was therefore of considerable interest to find that the recently sequenced genome (12) of Clostridium botulinum strain Hall A encodes a gene, CBO0515 (designated bceo), whose translated polypeptide by comparative sequence alignment using CLUSTAL W2 (20) exhibits 50% identity with the amino acid sequence of CEOS from L. lactis. The L. lactis enzyme (M_r = 35,323; pI = 5.73) is assigned accession no. {"type":"entrez-protein","attrs":{"text":"P15244","term_id":"2507008","term_text":"P15244"}}P15244 (UniProt/Swiss-Prot database). The C. botulinum polypeptide ({"type":"entrez-protein","attrs":{"text":"YP_001253058","term_id":"148378517","term_text":"YP_001253058"}}YP_001253058) (M_r = 35,849; pI = 5.77) is designated {"type":"entrez-protein","attrs":{"text":"A5HZ59","term_id":"292630631","term_text":"A5HZ59"}}A5HZ59 (UniProt/TrEMBL database). It seemed plausible that the clostridial protein could exhibit properties similar to those of the lactococcal enzyme. Testing this hypothesis is the basis for the study described here.     

希瓦氏菌(Shewanella marinintestina MCCC 1A01703)二十碳五烯酸生物合成基因簇的钓取及鉴定

希瓦氏菌(Shewanella marinintestina MCCC 1A01703)是从海洋动物肠道分离得到的1株产二十碳五烯酸(Ecicosapentaenoic acid,EPA)的海洋细菌。利用PCR方法、Overlap PCR及Gibson Assemble技术克隆该菌中包含pfaA、pfaB、pfaC和pfaD的EPA生物合成基因簇,全长18.4 kb。序列分析表明所钓取的合成基因簇与来自希瓦氏菌SCRC-2738的EPA合成基因簇有88%的相似度,均编码聚酮合酶。以构建的低拷贝表达载体pACYC-Trc为骨架,通过Gibson Assemble技术构建EPA基因簇表达质粒pLYSCY03。钓取大肠埃希菌(Escherichia coli DH5α)细胞中的entD基因,克隆至表达载体pTrc99a中,构建成为重组质粒pLYSCY01。将两个表达质粒同时导入大肠埃希菌(Escherichia coli DH5α)中,获得产EPA的工程菌株。结果表明,希瓦氏菌中含有EPA聚酮生物合成基因簇,大肠埃希菌(Escherichia coli DH5α)中的entD基因可以替代pfaE基因与钓取的EPA合成基因协同合成EPA。     

NMR assignment of Cdc42(T35A), an active Switch I mutant of Cdc42

Cdc42(T35A) is an active construct of Cdc42, a Ras GTPase involved in signal transduction, containing a single-point mutation in an important effector-binding region. We determined the backbone and side chain resonance assignments of ¹³C,¹⁵N-labelled Cdc42(T35A) from E. coli.     

水稻显性早熟材料D64B的发现、遗传分析和分子标记定位

D64B是从籼型杂交稻保持系D63B中发现的一个无色早熟突变株。用不育系、保持系、恢复系以及早稳型水稻品种与之杂交,F1的抽穗期多数与早熟亲本D64B相同或相近,部分偏向早熟亲本。这些结果表明D64B具有显性早熟特性。将D64B在海南陵水短日照和温江长日照下分期种植,观察到两地点因生长发育期间温度变化引起的抽穗期的变化的程度是一致的,并且在一定范围内随着生长发育期间温度升高,D64B抽穗缩短,可知D64B不感光,感温性中等。种植D64B与蜀恢527的正反交F2和回交一代BC1,三者的抽穗期均呈双峰分布,并且峰谷处于同一位置,以峰谷值103d为转折点进行分组,早熟与迟熟植株的分离比经x^2检验分别符合3：1和1：1,表明D64B的早熟特性主要受一对显性早熟核基因控制。用356对微卫星引物对亲本D64B和蜀恢527进行多态性分析,并用多态性引物扩增蜀恢527／D64B的F2早熟和迟熟近等基因池,找到多态引物RM279,进一步用RM279附近的微卫星引物扩增F2早熟和迟熟近等基因池、迟熟植株,筛到多态性引物RM71。用MAPMAKER／EXP3．0软件分析,将该早熟基因定位于第2染色体的短臂端,位于RM179和RM71之间,遗传距离分别为12．6cM和13．3cM,该基因拟名EF-3(t)。在育种实践中用D64B育成早熟不育系D64A。     

CYP99A3: functional identification of a diterpene oxidase from the momilactone biosynthetic gene cluster in rice

Rice (Oryza sativa) produces momilactone diterpenoids as both phytoalexins and allelochemicals. Strikingly, the rice genome contains a biosynthetic gene cluster for momilactone production, located on rice chromosome 4, which contains two cytochrome P450 (CYP) mono-oxygenases, CYP99A2 and CYP99A3, with undefined roles; although it has been previously shown that RNA interference double knock-down of this pair of closely related CYPs reduced momilactone accumulation. Here we attempted biochemical characterization of CYP99A2 and CYP99A3, which was ultimately achieved by complete gene recoding, enabling functional recombinant expression in bacteria. With these synthetic gene constructs it was possible to demonstrate that while CYP99A2 does not exhibit significant activity with diterpene substrates, CYP99A3 catalyzes consecutive oxidations of the C19 methyl group of the momilactone precursor syn-pimara-7,15-diene to form, sequentially, syn-pimaradien-19-ol, syn-pimaradien-19-al, and syn-pimaradien-19-oic acid. These are presumably intermediates in momilactone biosynthesis, as a C19 carboxylic acid moiety is required for formation of the core 19,6-γ-lactone ring structure. We further were able to detect syn-pimaradien-19-oic acid in rice plants, which indicates physiological relevance for the observed activity of CYP99A3. In addition, we found that CYP99A3 also oxidized syn-stemod-13(17)-ene at C19 to produce, sequentially, syn-stemoden-19-ol, syn-stemoden-19-al, and syn-stemoden-19-oic acid, albeit with lower catalytic efficiency than with syn-pimaradiene. Although the CYP99A3 syn-stemodene-derived products were not detected in planta, these results nevertheless provide a hint at the currently unknown metabolic fate of this diterpene in rice. Regardless of any wider role, our results strongly indicate that CYP99A3 acts as a multifunctional diterpene oxidase in momilactone biosynthesis.     

Characterisitics and Gene Cloning of Phospholipase D of the Psychrophile,Shewanella sp.

Phospholipase D, with a molecular mass of 64 kDa, was purified from the psychrophile, Shewanella sp. The enzyme showed maximal activity at pH 7.8 and 40 °C in the presence of the Ca²⁺-ion, and its activity at 10 °C was 6.5% of maximum. The enzyme exhibited high activity to the non-micelle form of phosphatidylcholine in an aqueous solution containing water miscible alcohols such as methanol, ethanol, iso-propanol, and n-propanol. Nucleotide sequencing of the enzyme gene yielded a deduced amino acid sequence, which showed 36.2% identity to that of Streptomyces chromofuscus phopsholipase D alone. The low sequence similarity to other phopsholipase D enzymes suggests that the purified enzyme might be a novel phospholipase D.     

The Bacillus subtilis ywjI (glpX) Gene Encodes a Class II Fructose-1,6-Bisphosphatase,Functionally Equivalent to the Class III Fbp Enzyme

We present here experimental evidence that the Bacillus subtilis ywjI gene encodes a class II fructose-1,6-bisphosphatase, functionally equivalent to the fbp-encoded class III enzyme, and constitutes with the upstream gene, murAB, an operon transcribed at the same level under glycolytic or gluconeogenic conditions.Under glycolytic growth conditions, unidirectional phosphorylation of fructose-6-phosphate to fructose-1,6-bisphosphate is catalyzed by the 6-phosphofructokinase (EC 2.7.1.11). Under gluconeogenic growth conditions, the opposite reaction is catalyzed by the fructose-1,6-bisphosphatase (FBPase) (EC 3.1.3.11) and is required for the synthesis of fructose-6-phosphate and derived metabolites, such as cell wall precursors. Escherichia coli possesses two FBPases: the class I FBPase, encoded by fbp, is highly similar to eukaryotic enzymes, and the class II FBPase (GlpX) (3) has homologues in nearly all prokaryotic genera but in only a few eukaryotes (a green alga, an amoeba, and a moss) and a few archaean species (of the Methanosarcina genus). Biochemical, physiological, and genetic studies allowed the characterization of a Bacillus subtilis enzyme which defined a new class of bacterial FBPases (class III) not structurally related to those previously described and found mainly in Firmicutes (5-7). The gene encoding this activity was identified and, although structurally unrelated to the E. coli class I FBPase gene, was also named fbp (8). In E. coli, the major FBPase is the class I Fbp, whereas the class II GlpX seems to play a minor role (3). In other organisms, the major or even the only FBPase belongs to the class II GlpX family: Bacillus cereus possesses two glpX-like genes and no class I or class III FBPase-encoding gene (26); in Mycobacterium tuberculosis, FBPase activity is encoded only by a glpX-like gene, which has been shown to complement an E. coli mutant lacking such activity (18); in Corynebacterium glutamicum, the only FBPase, essential for growth on gluconeogenic carbon sources, belongs to class II (19). It has been shown that a B. subtilis fbp mutant was still able to grow on substrates such as d-fructose, glycerol, or l-malate as the sole carbon source, which indicated that this mutant could bypass the FBPase reaction during gluconeogenesis (6). Random mutagenesis (ethyl methanesulfonate treatment) performed with this fbp mutant enabled the definition of a B. subtilis locus (bfd) whose additional mutation prevented growth on gluconeogenic carbon sources, but this locus had not been characterized further (7). Determination of the nucleotide sequence of the whole B. subtilis chromosome (16) led to the identification of a putative gene, ywjI, encoding a protein displaying strong homologies with GlpX family members (e.g., 54% identity and 74% similarity with GlpX from C. glutamicum). This gene has therefore been annotated glpX, encoding a class II FBPase, but such annotation has never been validated by genetic or biochemical experimental evidence. In this work, we present experimental evidence that ywjI indeed encodes a class II FBPase.     

Gibberellin A3 Causes a Decrease in the Accumulation of mRNA for ACC Oxidase and in the Activity of the Enzyme in Azuki Bean (Vigna angularis) Epicotyls

Differential screening, aimed at the isolation of cDNA clonesof mRNAs whose accumulation is influenced by GA₃, resulted inthe isolation of a cDNA clone of an mRNA whose level was decreasedby GA₃ in segments of epicotyls of Vigna angularis. The putativeprotein encoded by this cDNA resembled the 1-aminocyclopropane-l-carbox-ylateoxidases (ACC oxidases) identified in other plant species (about80% homology at the amino acid level). Thus, the correspondinggene was designated AB-ACO1 (azuki bean ACC oxidase). GA₃ alsodecreased the activity of ACC oxidase in azuki bean epicotyls,but it did not decrease the rate of ethylene evolution. In fact,GA₃ increased the rate of ethylene evolution and the level ofACC. Thus, GA₃ seemed to increase the production of ethyleneby promoting the synthesis of ACC. (Received January 10, 1997; Accepted July 31, 1997)     

两种菌株来源的glyA基因的克隆、表达及酶活性检测

采用PCR方法,分别从大肠杆菌和嗜热链球菌基因组DNA中扩增获得glyA基因,分别克隆入载体pET-28 a(+)中并进行表达,分离和纯化得到两种不同来源的SHMT,分别检测两种SHMT的逆向酶活。比较来源于大肠杆菌K12与嗜热链球菌AS1.2471中的glyA基因表达的丝氨酸羟甲基转移酶(SHMT)的活性,以获得高活性的SHMT。结果成功获得两种菌中的glyA基因,并表达出具有较高活性的SHMT,其中嗜热链球菌中glyA基因表达出的SHMT的酶活性大约为大肠杆菌的两倍。从嗜热链球菌中克隆表达的SHMT具有更高的催化活性及良好的工业应用前景。