Phenylalanine ammonia-lyase in potato (Solanum tuberosum L.). Genomic complexity, structural comparison of two selected genes and modes of expression.

Potato (Solanum tuberosum L. cv. Datura) contains approximately 40-50 phenylalanine ammonia-lyase (PAL) genes/haploid genome. Considerable cDNA heterogeneity indicates that at least about 10, and probably more, of these genes are potentially active. One subfamily, represented by one selected member (PAL-1), was analyzed with respect to genomic complexity, nucleotide and deduced amino acid sequence, and mode of constitutive or induced expression. For comparison, a second gene (PAL-2), representing several subfamilies that are easily distinguished from PAL-1, was included in these studies. Extensive structural similarities were observed both between the TATA-proximal portions of the PAL-1 and PAL-2 promoters, particularly in the areas containing putative cis-acting elements, and among all presently known PAL proteins from various higher and lower plants. The relative abundance of PAL mRNA varied greatly in several major potato organs. However, the patterns obtained with probes detecting either total PAL mRNA or more specifically, PAL-1-related or PAL-2-related mRNA species, were the same within experimental error. Mature leaves contained particularly low levels of PAL mRNA. Infection of these leaves with the pathogenic fungus, Phytophthora infestans, resulted in a large, transient induction of PAL mRNA. The relative timing of PAL-1 and PAL-2 mRNA expression, however, differed in compatible (fungus virulent, plant susceptible) but not in incompatible interactions (fungus avirulent, plant resistant). Wounding of leaves caused an extremely rapid and transient induction of both PAL mRNA species.     

Kinetic analysis of the inhibition of phenylalanine ammonia-lyase by 2-aminoindan-2-phosphonic acid and other phenylalanine analogues

The conformationally restricted phenylalanine analogue 2-aminoindan-2-phosphonic acid (AIP) inhibits phenylalanine ammonia-lyase (PAL) competitively in a time-dependent manner. This phenomenon was investigated in more detail with the heterologously expressed, highly purified homotetrameric PAL-1 isozyme from parsley. The kinetic analysis revealed that the enzyme-inhibitor complex is formed in a single "slow" step with an association rate of k(2)=2.6+/-0.04 10(4) M(-1) s(-1). The inhibition is reversible with a dissociation rate of k(-2)=1.8+/-0.04 10(-4) s(-1) and an equilibrium constant of K(i)=7+/-2 nM. The previously described PAL inhibitor (S)-2-aminooxy-3-phenylpropanoic acid [(S)-AOPP] was also found to be a slow-binding inhibitor of PAL-1. The carboxyl analogue of AIP, 2-aminoindan-2-carboxylic acid, served as a substrate of PAL-1 and was converted to indene-2-carboxylic acid.     

Structure, inheritance, and expression of hybrid poplar (Populus trichocarpa x Populus deltoides) phenylalanine ammonia-lyase genes.

A heterologous probe encoding phenylalanine ammonia-lyase (PAL) was used to identify PAL clones in cDNA libraries made with RNA from young leaf tissue of two Populus deltoides x P. trichocarpa F1 hybrid clones. Sequence analysis of a 2.4-kb cDNA confirmed its identity as a full-length PAl clone. The predicted amino acid sequence is conserved in comparison with that of PAL genes from several other plants. Southern blot analysis of popular genomic DNA from parental and hybrid individuals, restriction site polymorphism in PAL cDNA clones, and sequence heterogeneity in the 3' ends of several cDNA clones suggested that PAL is encoded by at least two genes that can be distinguished by HindIII restriction site polymorphisms. Clones containing each type of PAL gene were isolated from a poplar genomic library. Analysis of the segregation of PAL-specific HindIII restriction fragment-length polymorphisms demonstrated the existence of two independently segregating PAL loci, one of which was mapped to a linkage group of the poplar genetic map. Developmentally regulated PAL expression in poplar was analyzed using RNA blots. Highest expression was observed in young stems, apical buds, and young leaves. Expression was lower in older stems and undetectable in mature leaves. Cellular localization of PAL expression by in situ hybridization showed very high levels of expression in subepidermal cells of leaves early during leaf development. In stems and petioles, expression was associated with subepidermal cells and vascular tissues.     

Coordinate- and elicitor-dependent expression of stilbene synthase and phenylalanine ammonia-lyase genes in Vitis cv. Optima

The mechanisms controlling the induction of stilbene synthase and phenylalanine ammonia-lyase (PAL), two putative key regulatory enzymes of the biosynthetic pathway to stilbene phytoalexins, have been investigated. The induction was studied in cell suspension cultures of grape (Vitis cv. Optima) by treatment with fungal cell wall. Several independent cDNA clones for PAL and stilbene synthase were isolated from a cDNA library of fungal cell wall-induced grape cells and identified by sequence analysis. The stilbene synthase cDNA sequence of pSV21 predicted a protein of 392 amino acids and Mr 42,791, similar in size to that observed experimentally for immunodetected stilbene synthase. The cDNA sequences of pSV21 and pSV25 differed in 76 bp in the coding region. The sequences of grape stilbene synthase cDNAs exhibited significant homology to the sequence reported for the peanut stilbene synthase cDNA. Both PAL and stilbene synthase mRNA, measured by RNA blot hybridizations, were induced within 1 h of addition of fungal cell wall preparations to the cell cultures, rose to a maximum by the sixth hour, then declined slowly over the next 20 h. The activities of PAL and stilbene synthase were also induced in parallel, but reached their maximum at different times after fungal cell wall addition to the cell cultures. The induction patterns of stilbene synthase and PAL in grape and peanut are discussed.     

Isolation of a cDNA and a genomic clone encoding cinnamate 4-hydroxylase from Arabidopsis and its expression manner in planta.

We have isolated a cDNA for a cytochrome P450, cinnamate 4-hydroxylase (C4H), of Arabidopsis thaliana using a C4H cDNA from mung been as a hybridization probe. The deduced amino acid sequence is 84.7% identical to that of mung bean C4H and therefore was designated CYP73A5. The CYP73A5 protein was expressed in insect cells using the baculovirus expression system and when reconstituted with lipid and NADPH-cytochrome P450 reductase resulted in C4H activity with a specific activity of 68 nmol min-1 nmol-1 P450. Southern blot analysis revealed that CYP73A5 is a single-copy gene in Arabidopsis. C4H (CYP73A5) expression was apparently coordinated in Arabidopsis with both PAL1 and 4CL in response to light and wounding. Although the light induction of CHS followed a time course similar to that observed with C4H, no induction of CHS was detected upon wounding. On the other hand, the C4H expression patterns exhibited no significant coordination with those of PAL2 and PAL3. A C4H promoter region of 907 bp contained all of the three cis-acting elements (boxes P, A, and L) conserved among the PAL and 4CL genes so far reported as controlling expression.     

香蕉（‘威廉斯突变体’）苯丙氨酸解氨酶基因克隆、表达及酶活性分析

选用抗枯萎病突变体‘威廉斯突变体(Musa spp.AAA,Williams Mutant)'为试材,用RT-PCR技术从香蕉叶中克隆得到一个长为1 504 bp,编码501个氨基酸的苯丙氨酸解氨酶(PAL)基因cDNA序列.序列分析与其它植物PAL蛋白有较高同源性,尤其是麻疯树和柑橘属同源性高达93%.半定量PCR和酶活性测定被采用研究威廉斯突变体在接种枯萎病菌Fusarium oxysporum f. sp.cubense.roce 4(FOC4)茎中PAL表达的变化,结果显示茎中PAL活性呈规律性变化,且均高于同期对照,与其它植物相关研究结果类似,表明PAL与香蕉抗枯萎病密切相关.     

MEX-3 interacting proteins link cell polarity to asymmetric gene expression in Caenorhabditis elegans

The KH domain protein MEX-3 is central to the temporal and spatial control of PAL-1 expression in the C. elegans early embryo. PAL-1 is a Caudal-like homeodomain protein that is required to specify the fate of posterior blastomeres. While pal-1 mRNA is present throughout the oocyte and early embryo, PAL-1 protein is expressed only in posterior blastomeres, starting at the four-cell stage. To better understand how PAL-1 expression is regulated temporally and spatially, we have identified MEX-3 interacting proteins (MIPs) and characterized in detail two that are required for the patterning of PAL-1 expression. RNA interference of MEX-6, a CCCH zinc-finger protein, or SPN-4, an RNA recognition motif protein, causes PAL-1 to be expressed in all four blastomeres starting at the four-cell stage. Genetic analysis of the interactions between these mip genes and the par genes, which provide polarity information in the early embryo, defines convergent genetic pathways that regulate MEX-3 stability and activity to control the spatial pattern of PAL-1 expression. These experiments suggest that par-1 and par-4 affect distinct processes. par-1 is required for many aspects of embryonic polarity, including the restriction of MEX-3 and MEX-6 activity to the anterior blastomeres. We find that PAL-1 is not expressed in par-1 mutants, because MEX-3 and MEX-6 remain active in the posterior blastomeres. The role of par-4 is less well understood. Our analysis suggests that par-4 is required to inactivate MEX-3 at the four-cell stage. Thus, PAL-1 is not expressed in par-4 mutants because MEX-3 remains active in all blastomeres. We propose that MEX-6 and SPN-4 act with MEX-3 to translate the temporal and spatial information provided by the early acting par genes into the asymmetric expression of the cell fate determinant PAL-1.     

Structure and characterization of a cDNA clone for phenylalanine ammonia-lyase from cut-injured roots of sweet potato

A cDNA clone for phenylalanine ammonia-lyase (PAL) induced in wounded sweet potato (Ipomoea batatas Lam.) root was obtained by immunoscreening a cDNA library. The protein produced in Escherichia coli cells containing the plasmid pPAL02 was indistinguishable from sweet potato PAL as judged by Ouchterlony double diffusion assays. The M_r of its subunit was 77,000. The cells converted [¹⁴C]-l-phenylalanine into [¹⁴C]-t-cinnamic acid and PAL activity was detected in the homogenate of the cells. The activity was dependent on the presence of the pPAL02 plasmid DNA. The nucleotide sequence of the cDNA contained a 2121-base pair (bp) open-reading frame capable of coding for a polypeptide with 707 amino acids (M_r 77, 137), a 22-bp 5′-noncoding region and a 207-bp 3′-noncoding region. The results suggest that the insert DNA fully encoded the amino acid sequence for sweet potato PAL that is induced by wounding. Comparison of the deduced amino acid sequence with that of a PAL cDNA fragment from Phaseolus vulgaris revealed 78.9% homology. The sequence from amino acid residues 258 to 494 was highly conserved, showing 90.7% homology.     

大蕉苯丙氨酸解氨酶基因的克隆、鉴定和表达分析

为了研究苯丙氨酸解氨酶基因与大蕉(Musa ABB cv. Dongguandajiao)抗枯萎病的关系,利用 RT-PCR 和 RACE技术克隆了大蕉苯丙氨酸解氨酶基因全长 cDNA。此 cDNA 长 1 300 bp,包含一个长为 1 191 bp,编码 397 个氨基酸的完整开放阅读框(ORF),推导的氨基酸序列与水稻 PAL 基因氨基酸序列同源性达 89%,将此基因命名为 M-PAL。Southern杂交结果表明大蕉中存在一个包含 4-5 个 PAL基因的基因家族,将此基因克隆到大肠杆菌表达载体 pET32(a )中,表达的蛋白质分子量大小与推导的相一致,并且表达的蛋白质表现出 PAL 酶活性。对接种香蕉枯萎病菌 4 号生理小种(Fusarium oxysporumf. sp. cubense (FOC) race 4 )后大蕉叶片中 M-PAL基因的转录谱进行研究表明,在接种枯萎病菌后,M-PAL基因在叶片中的转录水平提高,因此推测 M-PAL基因的表达可能与香蕉枯萎病抗性相关。     

欧芹苯丙氨酸脱氨酶cDNA在乳酸乳球菌中的表达研究

将欧芹（Ｐｅｔｒｏｓｅｌｉｎｕｍｃｒｉｓｐｕｍ）苯丙氨酸脱氨酶（ＰＡＬ）ｃＤＮＡ亚克隆到组成型表达载体ｐＭＧ３６ｅ启动子Ｐ３２下游,电穿孔法转化乳酸乳球菌,获得有ＰＡＬ表达活性的乳酸乳球菌工程菌（ｐＭＧ３６ｅＰＡＬ／Ｌ．ｌａｃｔｉｓＭＧ１３６３）。通过递归ＰＣＲ合成了一段１２０ｂｐ的调控片段,用以将ｐＭＧ３６ｅ改造为分泌型表达载体ｐＸＨＳ,以翻译偶联的方式表达ＰＡＬ,可使ＰＡＬ的Ｎ末端带上ｕｓｐ４５信号肽,结果亦检测到ＰＡＬ酶活性。自行分离克隆了乳酸乳球菌热休克蛋白基因ｄｎａＪ的启动子区域,构建了热诱导表达载体ｐＸＨＪ,获得ＰＡＬ热诱导表达工程菌（ｐＸＨＪＰＡＬ／Ｌ．ｌａｃｔｉｓＩＬ１４０３）,经３０℃至３７℃热诱导,可使ＰＡＬ表达活性提高至２倍。本文还就乳酸乳球菌ＰＡＬ工程菌在经典型苯丙酮尿症防治中的应用进行了分析和讨论     

Inhibition by dietary tea polyphenols of chemical mediator release from rat peritoneal exudate cells

Male Wistar rats were given purified diets containing safflower (SAF), perilla (PER), or palm (PAL) oils with or without 1% tea polyphenols (TP) for 3 weeks, and chemical mediator releasing activity from rat peritoneal exudate cells (PEC) was measured. Histamine releasing activity was not influenced by TP, while histamine release and intracellular histamine content were significantly increased in the PAL-fed group. On the contrary, leukotriene B4 (LTB4) release was significantly lower in rats fed PER than in those fed SAF and PAL, and TP significantly decreased the release in all fat groups. TP also significantly inhibited the release of LTB5, which was generated only in rats fed PER. TP significantly decreased the proportion of arachidonic acid (AA) in PEC in the SAF-fed group and that of eicosapentaenoic acid (EPA), the precursor of LTB5 in the PER-fed group, but did not influence that of AA in the PAL- and PER-fed group. These results suggest that ingestion of TP improves type I allergic symptom through the inhibition of LT release though the inhibition by TP could not be totally explained by the reduction of substrate fatty acid.     

Geovibrio ferrireducens,a phylogenetically distinct dissimilatory Fe(III)-reducing bacterium

A new, phylogenetically distinct, dissimilatory, Fe(III)-reducing bacterium was isolated from surface sediment of a hydrocarbon-contaminated ditch. The isolate, designated strain PAL-1, was an obligately anaerobic, non-fermentative, motile, gram-negative vibrio. PAL-1 grew in a defined medium with acetate as electron donor and ferric pyrophosphate, ferric oxyhydroxide, ferric citrate, Co(III)-EDTA, or elemental sulfur as sole electron acceptor. PAL-1 also used proline, hydrogen, lactate, propionate, succinate, fumarate, pyruvate, or yeast extract as electron donors for Fe(III) reduction. It is the first bacterium known to couple the oxidation of an amino acid to Fe(III) reduction. PAl-1 did not reduce oxygen, Mn(IV), U(VI), Cr(VI), nitrate, sulfate, sulfite, or thiosulfate with acetate as the electron donor. Cell suspensions of PAL-1 exhibited dithionite-reduced minus air-oxidized difference spectra that were characteristic of c-type cytochromes. Analysis of the 16S rRNA gene sequence of PAL-1 showed that the strain is not related to any of the described metal-reducing bacteria in the Proteobacteria and, together with Flexistipes sinusarabici, forms a separate line of descent within the Bacteria. Phenotypically and phylogenetically, strain PAl-1 differs from all other described bacteria, and represents the type strain of a new genus and species, Geovibrio ferrireducens. Received: 26 September 1995 / Accepted: 28 February 1996     

Sequence and structure of a phenylalanine ammonia-lyase gene from Glycine max.

The gene encoding a key enzyme in anthocyanin biosynthesis, phenylalanine ammonia-lyase (PAL), was cloned from soybean (Glycine max). The purpose was to obtain a molecular probe to study the organization of this gene family in soybean and to examine novel regulatory mechanisms present in the anthocyanin biosynthetic pathway of this system. A soybean genomic library was constructed in the bacteriophage vector lambda Charon 35. A PAL cDNA clone from Phaseolus vulgaris was used in screening the library, and two PAL genes were isolated. One gene was sequenced entirely and analyzed by sequence homology to the PAL2 gene of Phaseolus vulgaris. Genomic analysis indicates that PAL sequences of Glycine max exist as a small gene family consisting of only two to three members. The representative PAL gene sequenced (PAL1) has a coding region of 2142 basepairs divided among two exons. The single intron is 1519 basepairs and splits the 131st codon.     

Molecular cloning of phenylalanine ammonia-lyase cDNA and classification of varieties and cultivars of tea plants (Camellia sinensis) using the tea PAL cDNA probe

Tea (Camellia sinensis) phenylalanine ammonia-lyase (PAL) cDNA was cloned using labelled rice PAL cDNA as a probe. The PAL genes of the tea plant were investigated by restriction fragment length polymorphism (RFLP) analysis using tea PAL cDNA. PAL genetic variation in tea plants was much larger than predicted due to the presence of various hybridized fragments in the Assam hybrids, which are hybrids between C. sinensis var assamica and var sinensis. On the other hand, hybridized band patterns of Japanese green tea cultivars belonging to var sinensis could be divided into five groups. Furthermore, a short-length PAL probe, about 280 bp including the 3 untranslated sequence, detected 3 DNA fragments of different lengths, which were named A, B and D. An experiment tracing the PAL gene heredity showed that A, B and D fragments were inherited according to the Mendelian monogenic ratio. Therefore, PAL genes identifiable by A, B and D fragments are multiple alleles, and the PAL gene is present as a single gene in the tea haploid genome. It was also clear that five groups of Japanese green tea cultivars were characterized by the composition of these PAL fragments. From RFLP analysis using tea PAL cDNA, we succeeded in distinguishing Assam hybrids and Japanese green tea cultivars with high and low catechin content, respectively, and in grouping Japanese green tea at the cultivar level.