Cytological events induced by the inhibition of polyamine biosynthesis in thin cell layers of tobacco

Summary The proliferative growth of thin cell layers ofNicotiana tabacum cultured on a rhizogenic medium was markedly disturbed when polyamine biosynthesis was inhibited. Treatments with polyamine inhibitors led to cell expansion, accompanied by thinning of the cell wall and inhibition of cell division, and frequent cases of nucleolar extrusion, mainly in the parenchymal layer in contact with the medium. Nucleolar extrusion was not correlated with cell expansion. The highest incidence of nucleolar extrusion occurred when the pathways of putrescine biosynthesis were inhibited and when spermidine synthesis, via S-adenosylmethionine decarboxylase, was blocked. The duration of the growth phase with nuclear amitotic divisions was prolonged in the presence of the inhibitors and root meristem formation delayed. When polyamines were added with the inhibitors, all reactions proceeded as in the controls.Abbreviations CHA cyclohexylamine - DFMA DL--difluoromethyl-arginine - DFMO DL--difluoromethylornithine - LS longitudinal section - MGBG methylglyoxal-bis(guanylhydrazone) - PA polyamine - Pu putrescine - RLS radial longitudinal section - S.E. standard error - Spd spermidine     

Clues from a halophilic methanogen about aromatic amino acid biosynthesis in archaebacteria

Extensive diversity in features of aromatic amino acid biosynthesis and regulation has become recognized in eubacteria, but almost nothing is known about the extent to which such diversity exists within the archaebacteria. Methanohalophilus mahii, a methylotrophic halophilic methanogen, was found to synthesize l-phenylalanine and l-tyrosine via phenylpyruvate and 4-hydroxyphenylpyruvate, respectively. Enzymes capable of using l-arogenate as substrate were not found. Prephenate dehydrogenase was highly sensitive to feedback inhibition by l-tyrosine and could utilize either NADP⁺ (preferred) or NAD⁺ as cosubstrate. Tyrosine-pathway dehydrogenases having the combination of narrow specificity for a cyclohexadienyl substrate but broad specificity for pyridine nucleotide cofactor have not been described before. The chorismate mutase enzyme found is a member of a class which is insensitive to allosteric control. The most noteworthy character state was prephenate dehydratase which proved to be subject to multimetabolite control by feedback inhibitor (l-phenylalanine) and allosteric activators (l-tyrosine, l-tryptophan, l-leucine, l-methionine and l-isoleucine). This interlock type of prephenate dehydratase, also known to be broadly distributed among the gram-positive lineage of the eubacteria, was previously shown to exist in the extreme halophile, Halobacterium vallismortis. The results are consistent with the conclusion based upon 16S rRNA analyses that Methanomicrobiales and the extreme halophiles cluster together.Abbreviation DAHP 3-deoxy-d-arabino-heptulosonate-7-phosphate     

Phytochelatin-mediated cadmium tolerance inschizosaccharomyces pombe

Summary Plants and certain fungi respond to heavy metal toxicity with the induced synthesis of metal-binding peptides known as phytochelatins (PCs). With cadmium, PCs can bind the metal to form a low molecular weight PC-Cd complex and a high molecular weight PC-Cd-S²⁻ complex. The sulfide ions enhance the stability and Cd-binding capacity of the metal chelate, and formation of this sulfide-containing complex is associated with enhanced tolerance to cadmium. Molecular analyses of two fission yeast mutants that fail to produce a wild type level of the PC-Cd-S²⁻ complex have determined that a vacuolar membrane transporter and several enzymes of the purine biosynthesis pathway are necessary in vivo for formation of the PC- Cd-S²⁻ complex. A model based on vacuolar sequestration of the PC-Cd complex by an ATP-binding cassette-type transporter and its subsequent maturation into the stable PC-Cd-S²⁻ complex via the actions of two purine biosynthetic enzymes is described. Presented in the Session-in-Depth Bioremediation through Biotechnological Means at the 1993 Congress on Cell and Tissue Culture, San Diego, CA, June 5–9, 1993.     

Heme biosynthesis in mammalian systems: evidence of a Schiff base linkage between the pyridoxal 5'-phosphate cofactor and a lysine residue in 5-aminolevulinate synthase.

5-Aminolevulinate synthase is the first enzyme of the heme biosynthetic pathway in nonplant higher eukaryotes. Murine erythroid 5-aminolevulinate synthase has been purified to homogeneity from an Escherichia coli overproducing strain, and the catalytic and spectroscopic properties of this recombinant enzyme were compared with those from nonrecombinant sources (Ferreira, G.C. & Dailey, H.A., 1993, J. Biol. Chem. 268, 584-590). 5-Aminolevulinate synthase is a pyridoxal 5'-phosphate-dependent enzyme and is functional as a homodimer. The recombinant 5-aminolevulinate synthase holoenzyme was reduced with tritiated sodium borohydride and digested with trypsin. A single peptide contained the majority of the label. The tritiated peptide was isolated, and its amino acid sequence was determined; it corresponded to 15 amino acids around lysine 313, to which pyridoxal 5'-phosphate is bound. Significantly, the pyridoxyllysine peptide is conserved in all known cDNA-derived 5-aminolevulinate synthase sequences and is present in the C-terminal (catalytic) domain. Mutagenesis of the 5-aminolevulinate synthase residue, which is involved in the Schiff base linkage with pyridoxal 5'-phosphate, from lysine to alanine or histidine abolished enzyme activity in the expressed protein.     

利用酵母菌生产有机酸的研究进展

有机酸是含有一种或多种低分子量酸性基团(如羧基、磺酸基)的可生物合成的有机化合物,广泛应用于食品、农业、医药、生物基材料工业等领域。酵母菌具有生物安全、抗逆性强、底物谱广泛、方便遗传改造,以及大规模培养技术成熟等独特优点,因此利用酵母菌生产有机酸的研究日益受到国内外学者的关注。目前利用酵母生产有机酸还存在浓度低、副产物多,以及发酵效率低等缺陷。随着酵母菌代谢工程和合成生物学技术的发展,利用酵母菌生产有机酸取得了快速进展。本文总结了利用酵母合成11种有机酸的研究,包括内源和异源合成的大宗羧酸和高价值有机酸,并对该领域的未来研究方向进行了展望。     

代谢工程改造大肠杆菌一碳模块高效合成L-甲硫氨酸

L-甲硫氨酸又名L-蛋氨酸,是人体必需8种氨基酸之一,在饲料、医药、食品领域具有重要应用。以实验室前期构建的M2(Escherichia coli W3110?IJAHFEBC/PAM)为出发菌株,以模块化代谢工程策略构建了一株L-甲硫氨酸高产菌株。首先通过过表达亚甲基四氢叶酸还原酶(methylenetetrahydrofolate reductase,MetF)和筛选不同来源的丝氨酸羟甲基转移酶(hydroxymethyltransferase,GlyA),增强了一碳模块甲基供体的生成,优化了一碳模块。随后针对一碳模块的前体供应,过表达了胱醚裂解酶(cysteamine lyase,MalY)和半胱氨酸内运基因(fliY),有效地提高了L-高半胱氨酸和L-半胱氨酸的供应。最终摇瓶发酵L-甲硫氨酸的产量由2.8 g/L提高至4.05 g/L,5 L发酵罐中达到18.26 g/L。研究结果表明,一碳模块对L-甲硫氨酸的生物合成具有十分重要的影响,在细胞内通过优化一碳模块,可以实现L-甲硫氨酸的高效生物合成。本研究为进一步提高微生物发酵生产L-甲硫氨酸的水平奠定了基础。     

pH对生物合成超声分子影像探针气囊充放气的调控

气囊（gas vesicles,GVs）是一种存在于蓝藻及古菌等微生物中调节浮力的类细胞器纳米结构,由蛋白质外壳包裹气体组成。近年来的研究表明,气囊具有作为超声分子影像探针的潜力。然而,气囊的充放气机制并不明确,限制了生物合成超声分子影像探针的保存和气体更换。本研究发现环境pH值是调节气囊充放气的一个重要因素。其不仅可以调节藻细胞内的气囊充放气进而使微囊藻呈现不同的漂浮状态,还可对提纯的气囊充放气进行体外调节,且该调节过程可逆。该机制的阐明为生物合成超声分子影像探针的大规模生产和保存,特别对气囊中的气体进行更换以满足不同的诊疗需求提供了技术支持,助力生物合成超声造影剂在疾病诊疗中的应用。     

湿地松木质部和针叶松脂合成基因分析

为挖掘湿地松(Pinus elliottii)松脂合成相关的基因,对不同采脂期的木质部和针叶进行高通量转录组测序,与火炬松(Pinus taeda)参考基因组进行比对,共获得了68 211条unigenes,546 356 450条clean reads,平均比对率达90.21%。将不同时期木质部、木质部与针叶间进行两两对比,以P＜0.05,|log₂FoldChange|＞1.0为标准来筛选差异基因,并进行GO和KEGG富集分析。结果表明,参与萜类物质合成的差异基因有133个,其中大部分富集在MEP途径,从差异基因中挑选8个产脂相关的候选基因进行RT-qPCR验证,确定HMGR、DXS、TPS、ABC转运蛋白基因与产脂存在关联性。通过转录组测序与分析,挖掘出133个参与松脂萜类物质合成相关的差异基因,其中萜烯合酶基因(TPS)和ABC转运基因在正调控萜类物质合成中发挥关键作用。     

FORMATION OF NUCLEOSIDE DIPHOSPHATE MONOSACCHARIDES (NDP-SUGARS) BY THE AGAROPHYTE PTEROCLADIA CAPILLACEA (RHODOPHYCEAE)1

The following nucleoside diphosphate monosaccharides (sugar nucleotides) were identified by HPLC from Pterocladia capillacea Born and Thur.: ADP-glucose, UDP-glucose, UDP-d -galactose, and GDP-glucose + mannose. GDP-l -galactose was not identified due to the lack of a standard. Several extraction methods were evaluated for their efficacy. A freeze/ thaw (liquid N₂) step fallowed by formic acid (1 M) extraction, reduced pressure evaporation, and solubilization in water was the preferred method. Differences in media nitrate that resulted in different tissue-N levels (1.8, 2.3, and 3.5% dry wt) and agar yields (34, 31, and 28% dry wt, respectively) also resulted in a marked difference in UDP-d -galactose and ADP-glucose tissue levels (decrease with increasing tissue-N) while the levels of the other sugar nucleotide agar precursors remained unchanged. Activities of UDP-glucose, GDP-glucose, and GDP-mannose pyrophosphorylases, and UDP-D-glucose-4-epimerase were detected in cell-free extracts using unlabeled and ¹⁴C-labeled substrates. This study-strongly supports the proposition that the d -galactose component of agar is synthesized via G-1-P → UDP-glucose→ UDP-d -galactose and that, the l -galactoae component is produced via mannose-1-P → GDP-mannose → GDP-l -galactose.     

Cell-type specific,coordinate expression of two ADP-glucose pyrophosphorylase genes in relation to starch biosynthesis during seed development of Vicia faba L.

Several cDNA clones encoding two different ADP-glucose pyrophosphorylase (AGPase, EC 2.7.7.27) polypeptides denoted VfAGPC and VfAGPP were isolated from a cotyledonary library of Vicia faba L. Both sequences are closely related to AGPase small-subunit sequences from other plants. Whereas mRNA levels of VfAGPP were equally high in developing cotyledons and leaves, the mRNA of VfAGPC was present in considerable amounts only in cotyledons. During development of cotyledons, both mRNAs accumulated until the beginning of the desiccation phase and disappeared afterwards. The increase of AGPase activity in cotyledons during the phase of storage-product synthesis was closely followed by the accumulation of starch. The AGPase activity in crude extracts of cotyledons was insensitive to 3-phosphoglycerate whereas the activity from leaves could be activated more than five-fold. Inorganic phosphate inhibited the enzyme from both tissues but was slightly more effective on the leaf enzyme. There was a correlation at the cellular level between the distribution of VfAGPP and VfAGPC mRNAs and the accumulation of starch, as studied by in-situ hybridisation and by histochemical staining in parallel tissue sections of developing seeds, respectively. During the early phase of seed development (12–15 days after fertilization) VfAGPase mRNA and accumulation of starch were detected transiently in the hypodermal, chlorenchymal and outer parenchymal cell layers of the seed coat but not in the embryo. At 25 days after fertilization both synthesis of VfAGPase mRNA and biosynthesis of starch had started in parenchyma cells of the inner adaxial zone of the cotyledons. During later stages, the expression of VfAGPase and synthesis of starch extended over most of the cotyledons but were absent from peripheral cells of the abaxial zone, provascular and procalyptral cells.Abbreviations AGPase ADP-glucose pyrophosphorylase - DAF days after fertilization - Glc1P glucose-1-phosphate - 3-PGA 3-phosphoglycerate - VfAGPC AGPase subunit of Vicia faba mainly expressed in cotyledons - VfAGPP AGPase subunit of Vicia faba mainly expressed in leaves and cotyledons - pVfAGPC, pVfAGPP plasmids containing VfAGPC and VfAGPP, respectively This work was supported by the Bundesministerium für Forschung und Technologie BCT 0389, Molekular- und Zellbiologie von höheren Pflanzen und Pilzen. U.W acknowledges additional support by the Fonds der chemischen Industrie. We thank Elsa Fessel for excellent technical assistance.