A consensus sequence for long-chain fatty-acid alcohol oxidases from Candida identifies a family of genes involved in lipid omega-oxidation in yeast with homologues in plants and bacteria

The yeast Candida cloacae is capable of growing on alkanes and fatty acids as sole carbon sources. Transfer of cultures from a glucose medium to one containing oleic acid induced seven proteins of M(r) 102,000, 73,000, 61,000, 54,000, and 46,000 and two in the region of M(r) 45,000 and repressed a protein of M(r) 64,000. The induction of the M(r) 73,000 protein reached a 7-fold maximum 24 h after induction. The protein was confirmed by its enzyme activity to be a long-chain fatty-acid alcohol oxidase (LC-FAO) and purified to homogeneity from microsomes by a rapid procedure involving hydrophobic chromatography. An internal peptide of 30 amino acids was sequenced. A 1100-base pair cDNA fragment containing the LC-FAO peptide coding sequence was used to isolate a single exon genomic clone containing the full-length coding sequence of an LC-FAO (fao1). The fao1 gene product was expressed in Escherichia coli and was translated as a functional long-chain alcohol oxidase, which was present in the membrane fraction. In addition, full-length coding sequences for a Candida tropicalis LC-FAO (faoT) and a second C. cloacae LC-FAO (fao2) were isolated. The DNA sequences obtained had open reading frames of 2094 (fao1), 2091 (fao2), and 2112 (faoT) base pairs. The derived amino acid sequences of fao2 and faoT showed 89.4 and 76.2% similarities to fao1. The fao1 gene is much more highly induced on alkane than is fao2. Although this study describes the first known DNA sequences encoding LC-FAOs from any source, there are unassigned Arabidopsis sequences and an unassigned Mycobacterium sequence in the GenBank(TM) Data Bank that show strong homology to the described LC-FAO sequences. The conservation of sequence between yeast, plants, and bacteria suggests that an as yet undescribed family of long-chain fatty-acid oxidases exists in both eukaryotes and prokaryotes.     

Long-chain acyl-CoA oxidases of Arabidopsis

Full-length cDNAs coding for two distinct acyl-CoA oxidases were isolated by screening an Arabidopsis cDNA library. The genes for the two acyl-CoA oxidases have been termed AtACX1 and AtACX2. AtACX1 encodes a peptide of 664 amino acids possessing a molecular mass of 74.3 kDa. AtACX2 encodes a peptide of 691 amino acids in length with a molecular mass of 77.5 kDa. Peroxisomal targeting signals were identified in the primary sequences. AtACX1 has a putative PTS1, whereas AtACX2 has a characteristic PTS2. Expression of AtACX1 and AtACX2 in Escherichia coli gave active enzymes for enzymatic and biochemical analysis. AtACX1 was active with both medium-and long-chain saturated fatty acyl-CoAs and showed maximal activity with C14-CoA. Activity with mono-unsaturated acyl-CoAs was slightly higher than with the corresponding saturated acyl-CoA. AtACX2 was active with long-chain acyl-CoAs and showed maximal activity with C18-CoA. AtACX2 activity with mono-unsaturated acyl-CoAs was approximately twice as high as with the corresponding saturated acyl-CoA. Both enzymes have an apparent Km of approximately 5 microM with the preferred substrate. Northern analysis was conducted to determine the expression patterns of AtACX1 and AtACX2 during germination and in various tissues of a mature plant. The two genes showed generally similar expression profiles and steady-state mRNA levels in seedlings and mature tissues, but subtle differences were observed. Enzymatic analyses of plant extracts revealed that AtACX1 and AtACX2 are members of a family that includes acyl-CoA oxidases specific for shorter-chain acyl-CoAs. Through expression of antisense constructs of the individual genes, we were able to decrease long-chain oxidase activity only in antisense AtACX1 plants. Seedlings with long-chain oxidase activity reduced down to 30% of wild-type levels germinated and established normally; however, reduced root growth appeared to be a general feature of antisense AtACX1 plants.     

Functional identification of sterol-4alpha-methyl oxidase cDNAs from Arabidopsis thaliana by complementation of a yeast erg25 mutant lacking sterol-4alpha-methyl oxidation.

Specific primers derived from both genomic sequence data and EST cDNA sequences were used to polymerase chain reaction amplify two full-length cDNA sequences (AtSMO1 and AtSMO2), 801 and 783 bp, respectively, from an Arabidopsis thaliana cDNA library. The predicted proteins show 32 and 29% identity to the ERG25 gene from Saccharomyces cerevisiae which encodes the sterol-4alpha-methyl oxidase (SMO), a membrane-bound non-heme di-iron oxygenase involved in lipid metabolism. Heterologous expression of AtSMO1 and AtSMO2 in a yeast erg25 ergosterol auxotroph, lacking SMO activity, restored growth and endogenous ergosterol synthesis. These results represent the first functional identification of SMO genes from plants.     

Kinetics of the inhibition of hog kidney D-amino acid oxidase by short-, medium- and long-chain fatty acids

Various fatty acids were studied in vitro as inhibitors of pure hog kidney D-amino acid oxidase by means of a spectrophotometric peroxidase-coupling method using D-methionine as a substrate. All the fatty acids tested behaved as substrate-competitive inhibitors of the enzyme. The affinity of the saturated aliphatic acids for D-amino acid oxidase decreased from pentanoate (5:0; Ki = 220 microM) to laurate (12:0; Ki = 675 microM), then rose to a maximum with stearate (18:0; Ki = 36 microM), suggesting the presence of a site in the active center of the enzyme that accepts long-chain fatty acid alkyl groups. Unsaturation did not further increase the affinity of the fatty acid for this binding site.     

Cloning and functional expression of the first plant fatty acid elongase specific for Delta(6)-polyunsaturated fatty acids

In order to elucidate the biosynthesis of long-chain polyunsaturated fatty acids (PUFAs) in plants we searched for a cDNA encoding a Delta(6)-specific PUFA elongase from Physcomitrella patens, which is known to contain high proportions of arachidonic acid (20:4 Delta(5,8,11,14)). An EST clone from P. patens was identified by its low homology to the yeast gene ELO1, which is required for the elongation of medium-chain fatty acids. We functionally characterized this cDNA by heterologous expression in Saccharomyces cerevisiae grown in the presence of several fatty acids. Analysis of the fatty acid profile of the transgenic yeast revealed that the cDNA encodes a protein that leads to the elongation of the C(18) Delta(6)-polyunsaturated fatty acids gamma-linolenic acid (18:3 Delta(6,9,12)) and stearidonic acid (18:4 Delta(6,9,12,15)), which were recovered to 45-51% as their elongation products. In contrast, linoleic and alpha-linolenic acids were hardly elongated and we could not measure any elongation of saturated and mono-unsaturated fatty acids (including 18:1 Delta(6)), indicating that the elongase is highly specific for the polyunsaturated nature of the fatty acid acting as substrate.     

Analysis of expressed sequence tags of flower buds in Lotus japonicus.

In order to study gene expression in a reproductive organ, we constructed a cDNA library of mature flower buds in Lotus japonicus, and characterized expressed sequence tags (ESTs) of 842 clones randomly selected. The EST sequences were clustered into 718 non-redundant groups. From BLAST and FASTA search analyses of both protein and DNA databases, 58.5% of the EST groups showed significant sequence similarities to known genes. Several genes encoding these EST clones were identified as pollen-specific genes, such as pectin methylesterase, ascorbate oxidase, and polygalacturonase, and as homologous genes involved in pollen-pistil interaction. Comparison of these EST sequences with those derived from the whole plant of L. japonicus, revealed that 64.8% of EST sequences from the flower buds were not found in EST sequences of the whole plant. Taken together, the EST data from flower buds generated in this study is useful in dissecting gene expression in floral organ of L. japonicus.     

Expression, purification, and characterization of His-tagged human mitochondrial 2,4-dienoyl-CoA reductase

Mitochondrial 2,4-dienoyl-CoA reductase is a key enzyme for the beta-oxidation of unsaturated fatty acids. The cDNA of the full-length human mitochondrial 2,4-dienoyl-CoA reductase was previously cloned as pUC18::DECR. PCR methodologies were used to subclone the genes encoding various truncated human mitochondrial 2,4-dienoyl-CoA reductases from pUC18::DECR with primers that were designed to add six continuous histidine codons to the 3' or 5' primer. The PCR products were inserted into pLM1 expression vectors and overexpressed in Escherichia coli. A highly active truncated soluble protein was expressed and purified with a nickel HiTrap chelating metal affinity column to apparent homogeneity based on Coomassie blue-stained SDS-PAGE. The molecular weight of the protein subunit was 34 kDa. The purified protein is highly stable at room temperature, which makes it potentially valuable for protein crystallization. KM of 26.5 +/- 3.8 microM for 2,4-hexadienoyl-CoA, KM of 6.22 +/- 2.0 microM for 2,4-decadienoyl-CoA, and KM of 60.5 +/- 19.7 microM for NADPH, as well as Vmax of 7.78 +/- 1.08 micromol/min/mg for 2,4-hexadienoyl-CoA and Vmax of 0.74 +/- 0.07 micromol/min/mg for 2,4-decadienoyl-CoA were determined on kinetic study of the purified protein. The one-step purification of the highly active human mitochondrial 2,4-dienoyl-CoA reductase will greatly facilitate further investigation of this enzyme through site-directed mutagenesis and enzyme catalyzed reactions with substrate analogs as well as protein crystallization for solving its three-dimensional structure.     

Production of enzymatically active recombinant full-length barley high pI alpha-glucosidase of glycoside family 31 by high cell-density fermentation of Pichia pastoris and affinity purification

Recombinant barley high pI alpha-glucosidase was produced by high cell-density fermentation of Pichia pastoris expressing the cloned full-length gene. The gene was amplified from a genomic clone and exons (coding regions) were assembled by overlap PCR. The resulting cDNA was expressed under control of the alcohol oxidase 1 promoter using methanol induction of P. pastoris fermentation in a Biostat B 5 L reactor. Forty-two milligrams alpha-glucosidase was purified from 3.5 L culture in four steps applying an N-terminal hexa-histidine tag. The apparent molecular mass of the recombinant alpha-glucosidase was 100 kDa compared to 92 kDa of the native barley enzyme. The secreted recombinant enzyme was highly stabile during the 5-day fermentation and had significantly superior specific activity of the enzyme purified previously from barley malt. The kinetic parameters Km, Vmax, and kcat were determined to 1.7 mM, 139 nM x s(-1), and 85 s(-1) using maltose as substrate. This work presents the first production of fully active recombinant alpha-glucosidase of glycoside hydrolase family 31 from higher plants.     

Occurrence of a novel NADP(+)-linked alcohol dehydrogenase in Euglena gracilis

An NADP(+)-dependent alcohol dehydrogenase was found in Euglena gracilis Z grown on 1-hexanol, while it was detected at low activity in cells grown on ethanol or glucose as a carbon source, indicating that the enzyme is induced by the addition of 1-hexanol into the medium as a carbon source. This enzyme was extremely unstable, even at 4 degrees C, unless 20% ethylene glycol was added. The optimal pH was 8.8-9.0 for oxidation reaction. The apparent K(m) values for 1-hexanol and NADP(+) were found to be 6.79 mM and 46.7 microM for this enzyme, respectively. The substrate specificity of this enzyme was very different from that of already purified NAD(+)-specific ethanol dehydrogenase by showing the highest activity with 1-hexanol as a substrate, followed by 1-pentanol and 1-butanol, and there was very little activity with ethanol and 1-propanol. This enzyme was active towards the primary alcohols but not secondary alcohols. Accordingly, since the NADP(+)-specific enzyme was separated on DEAE cellulose column, Euglena was confirmed to contain a novel enzyme to be active towards middle and long-chain length of fatty alcohols.     

Functional identification of AtFao3, a membrane bound long chain alcohol oxidase in Arabidopsis thaliana

The Arabidopsis thalina genome database was searched for homologues of the Candida cloacae fao1 gene which encodes a membrane bound, flavin-containing, hydrogen peroxide generating, long chain alcohol oxidase. This gene has not been isolated from plants or animals. Four putative candidates were found in the database but their function has not been proven. The cDNAs for two of them were cloned by RT-PCR from Arabidopis suspension culture and one of them [AtFAO3] was overexpressed in Escherichia coli and shown to functionally express long chain alcohol oxidase activity. The protein has been solubilised and retains biological activity thereby preparing the way for crystallographic studies. This is the first functional proof identifying a long chain alcohol oxidase in higher plants.     

Peroxisomal beta-oxidation of long-chain fatty acids possessing different extents of unsaturation.

Rates of peroxisomal beta-oxidation were measured as fatty acyl-CoA-dependent NAD+ reduction, by using solubilized peroxisomal fractions isolated from livers of rats treated with clofibrate. Medium- to long-chain saturated fatty acyl-CoA esters as well as long-chain polyunsaturated fatty acyl-CoA esters were used. Peroxisomal beta-oxidation shows optimal specificity towards long-chain polyunsaturated acyl-CoA esters. Eicosa-8,11,14-trienoyl-CoA, eicosa-11,14,17-trienoyl-CoA and docosa-7,10,13,16-tetraenoyl-CoA all gave Vmax. values of about 150% of that obtained with palmitoyl-CoA. The Km values obtained with these fatty acyl-CoA esters were 17 +/- 6, 13 +/- 4 and 22 +/- 3 microM respectively, which are in the same range as the value for palmitoyl-CoA (13.8 +/- 1 microM). Myristoyl-CoA gave the higher Vmax. (110% of the palmitoyl-CoA value) of the saturated fatty acyl-CoAs tested. Substrate inhibition was mostly observed with acyl-CoA esters giving Vmax. values higher than 50% of that given by palmitoyl-CoA.     

巴西橡胶树 HbERFB4-1 基因的克隆和表达分析

根据EST序列信息,利用RACE技术分离了巴西橡胶树(Hevea brasiliensis)的1个AP2/ERF类基因,命名为HbERFB4-1。该基因cDNA全长732 bp,含有完整的开放阅读框架,编码147个氨基酸,不含内含子。推导的HbERFB4-1氨基酸序列与杨树(Populus trichocarpa)、蓖麻(Ricinus communis)、拟南芥(Arabidopsis thaliana)和大豆(Glycine max)中相应蛋白氨基酸序列的一致性分别为78%、71%、62%和55%,具有典型的AP2类蛋白结构特征。聚类分析表明,HbERFB4-1属于ERF家族B4亚族。半定量RT-PCR分析结果表明,该基因在胶乳中的表达量相对较低,但乙烯利刺激后其在胶乳中的表达量迅速增加,推测该基因可能参与了胶乳中乙烯信号的转导。     

Molecular cloning and characterization of Brugia malayi hexokinase

5' EST from filarial gene database has been subjected to 3' rapid amplification of cDNA ends (RACE), semi-nested PCR and PCR to obtain full-length cDNA of Brugia malayi. Full-length hexokinase gene was obtained from cDNA using gene specific primers. The elicited PCR product was cloned, sequenced and expressed as an active enzyme in Escherichia coli. Sequence analysis of B. malayi hexokinase (BmHk) revealed 59% identity with nematode Caenorhabditis elegans but low similarity with all other available hexokinases including human. BmHk, an apparent tetramer with subunit molecular mass of 72 kDa, was able to phosphorylate glucose, fructose, mannose, maltose and galactose. The Km values for glucose, fructose and ATP were found to be 0.035+/-0.005, 75+/-0.3 and 1.09+/-0.5 mM respectively. BmHk was strongly inhibited by ADP, glucosamine, N-acetyl glucosamine and mannoheptulose. The recombinant enzyme was found to be activated by glucose-6-phosphate. ADP exhibited noncompetitive inhibition with the substrate glucose (Ki=0.55 mM) while, mixed type of inhibition was observed with inorganic pyrophosphate (PPi) when ATP was used as substrate (Ki=9.92 microM). The enzyme activity is highly dependent on maintenance of free sulfhydryl groups. CD analysis indicated that BmHk is composed of 37% alpha-helices and 26% beta-sheets. The observed differences in kinetic properties of BmHk as compared to host enzyme may facilitate designing of specific inhibitors against BmHk.     

多发性骨髓瘤细胞中一个新的Alu超基因家族成员的克隆与分析

根据Genebank收录的多发性骨髓瘤细胞株（ARH－77）表达上调EST AF497797设计引物,采用半定量RT－PCR证实了多发性骨髓瘤患者及正常人骨髓细胞中该expressed sequence tages(EST)存在表达差异。用EST AF497797作探针筛选人胚肾cDNA文库,获得cDNA克隆经测序并用生物信息学方法对该序列进行了初步分析。AF497797在多发性骨髓瘤患者骨髓中确有较高的表达,而在正常人骨髓细胞中低表达。获得的全长cDNA克隆序列长1248bp(Genebank登录号：AY094612）。生物信息学分析显示该片段全长cDNA编码44个氨基酸的蛋白产物且可能属于Alu家族成员。基因AY094612为一个在多发性骨髓瘤中表达上调的新基因,其改变可能与多发性骨髓瘤的发生与发展有关。     

Candida cloacae长链脂肪酸醇氧化酶基因的克隆与表达

Ｃａｎｄｉｄａｃｌｏａｃａｅ是利用链烃和长链脂肪酸作为碳源来生长的一种工业酵母 .长链脂肪酸在单加氧酶作用下 ,使远离羧基的甲基羟化 ,生成ω 羟脂肪酸 .后者在生物体中通过两条连续的氧化通路进行氧化 (ω氧化通路和 β氧化通路 ) .醇氧化酶是ω氧化通路中的重要组成酶 ,它可以催化链烃或长链脂肪酸分子中的羟基氧化为醛基 ,后者再经其它酶氧化为羧基 .长链脂肪酸通过ω氧化通路生成二羧基化合物 ,它可作为重要的化工原料 ,广泛应用于香料、多聚酰胺、多聚酯、胶类和环内酯抗生素的生成[1] .ω氧化通路中产生的羧基化合物再经 β 氧…     

苹果一个锌指蛋白基因的cDNA克隆及其表达特性分析

采集了处于营养生长向生殖行长转化期(6~8月)的红玉苹果(Malus domestica Borkh.)茎顶,构建了其cDNA文库,并从中分离得到了一个具有锌指结构的EST序列,又通过5`RACE的方法,从cDNA文库中找到了其上游779bp的cDNA片段.最后用PCR的方法获得了苹果锌指蛋白的全长cDNA,并命为MdZF1.该cDNA序列已在GenBank登录,登录号为AB116545.MdZF1的锌指结构域与玉米的开花转换基因ID1有高度同源性.通过对苹果不同组织、器官的Northem和RT-PCR分析表明MdZF1在根、茎、叶、顶芽以及花器官(萼片、花瓣、雄蕊、雌蕊)中都有表达.Southern分析表明MdZF1的基因组中是以单拷贝存在的.     

苹果一个锌指蛋白基因的cDNA克隆及其表达特性分析(英文)

A cDNA library was created from stem apex tissue from Jonathan apples (Malus domestica Borkh.), harvested in June to August, during which the plant transitions from vegetative growth to reproductive growth. From this library, we isolated an expressed sequence tag (EST) sequence containing a zinc finger motif, using this sequence, a 779 bp cDNA fragment was obtained by using 5‘ RACE, and a final full-length cDNA encoding an apple zinc finger protein (named MdZF1; GenBank accession number AB116545) was obtained by further PCR. This zinc finger motif of MdZF1 has high homology with INOETERMINATE1 (ID1) gene from maize which seemed to be involved in the transition to flowering. Northern blot and RT-PCR analyses showed that the MdZF1 expressed in the root, stem, leaves, shoot apex and floral organs of the apple, with expression levels higher in root, stem, leaves and floral shoot apex than that in floral organs (sepals, petals, stamens and pistils). Genomic Southern analysis showed that there was a single copy gene in apple genome.     

多疣壁虎tubulin beta3基因克隆和多克隆抗体制备

Tubulin beta3(TUBB3)是特异表达于神经元的微管蛋白tubulin beta家族成员,被认为在维持轴突正常状态起着重要作用,是神经元特异的标志蛋白。该研究旨在获得多疣壁虎TUBB3全长cDNA序列并制备其多克隆抗体,为进一步研究多疣壁虎断尾再生提供基因和抗体工具。根据多疣壁虎中枢神经组织cDNA文库中TUBB3的EST片段序列,采用RACE-PCR方法,获得了全长cDNA,序列全长1790bp,编码450个氨基酸,与其他物种TUBB3蛋白高度同源;RT-PCR方法和Northern blotting检测了TUBB3组织表达谱及其转录本的大小;在GenBank登录号为JQ080315;NJ法构建的系统进化树分析表明,多疣壁虎的TUBB3蛋白与鸡的TUBB3蛋白在进化距离上较近;构建pET-32a-TUBB3原核表达载体,诱导表达并纯化TUBB3蛋白,获得兔抗壁虎TUBB3多克隆抗体,ELISA检测其效价大于1:65536,Western blotting方法证实所制备的多克隆抗体可特异识别多疣壁虎神经组织的的TUBB3蛋白。