Cloning and characterization of cDNA encoding farnesyl diphosphate synthase from rubber tree (Hevea brasiliensis)

Commercially used natural rubber (cis-1,4-polyisoprene) is a secondary metabolite of the rubber tree (Hevea brasiliensis). Previous studies have shown the involvement of a prenyl transferase in the final steps of natural rubber biosynthesis which includes polymerization of isopentenyl pyrophosphate into rubber. Using synthetic oligonucleotides corresponding to the partial amino acid sequences of this protein as probes to screen a laticifer-specific cDNA library, we have isolated a full-length cDNA which encodes a 47 kDa protein with strong homology to farnesyl diphosphate synthases from many species. The catalytic activity of this protein was confirmed by complementing the deletion yeast mutant. In Hevea, this gene is expressed in latex producing cells and in the epidermal region of the rubber plant suggesting a dual role for the protein in the biosyntheses of rubber and other isoprenoids. Although the expression level of this gene is not significantly affected by hormone treatment (e.g. ethylene), regeneration of latex due to tapping increases its expression level.     

Features of the hmg 1 subfamily of genes encoding HMG-CoA reductase in potato

3-Hydroxy-3-methylglutaryl coenzyme A reductase (HMGR) catalyzes a key step in isoprenoid metabolism leading to a range of compounds that are important for the growth, development and health of the plant. We have isolated 7 classes of genomic clones encoding HMGR from a potato genomic library. Comparison of nucleic acid sequences reveals a high degree of identity between all seven classes of clones and the potato hmg 1 gene described by Choi et al. (Plant Cell 4: 1333, 1992), indicating that all are members of the same subfamily in potato. A representative member (hmg 1.2) of the most abundant class of genomic clones was selected for further characterization. Transgenic tobacco and potato containing the -glucuronidase (GUS) reporter gene under the control of the hmg 1.2 promoter expressed GUS activity constitutively at a low level in many plant tissues. High levels of GUS activity were observed only in the pollen. GUS assays of isolated pollen, correlations of GUS activity with the HMGR activity of anthers, hmg 1.2 promoter deletion studies, and segregation analysis of the expression of hmg 1.2::GUS among the R₂ pollen of R₁ progeny plants demonstrated that the hmg 1.2 promoter controls pollen expression.     

Regulation of 3-hydroxy-3-methylglutaryl-coenzyme A reductase by wounding and methyl jasmonate

HMGR (3-hydroxy-3-methylglutaryl-coenzyme A reductase; E.C.1.1.1.34) supplies mevalonate for the synthesis of many plant primary and secondary metabolites, including the terpenoid component of indole alkaloids. Suspension cultures of Camptotheca acuminata and Catharanthus roseus, two species valued for their anticancer indole alkaloids, were treated with the elicitation signal transducer methyl jasmonate (MeJA). RNA gel blot analysis from MeJA treated cultures showed a transient suppression of HMGR mRNA, followed by an induction in HMGR message. Leaf disks from transgenic tobacco plants containing a chimeric hmgl::GUS construct were also treated with MeJA and showed a dose dependent suppression of wound-inducible GUS activity. The suppression of the wound response by MeJA was limited to the first 4 h post-wounding, after which time MeJA application had no effect. The results are discussed in relation to the differential regulation of HMGR isogenes in higher plants.Abbreviations GUS -glucuronidase - hmg gene of hmgr - HMGR 3-hydroxy-3-methylglutaryl-coenzyme A reductase - JA jasmonic acid - MeJA methyl jasmonate - MUG methylumbelliferyl--d-glucuronide - TDC tryptophan decarboxylase - SDS sodium dodecyl sulfate - SS strictosidine synthase     

Isolation and characterization of a cDNA encoding a 3-hydroxy-3-methylglutaryl coenzyme A reductase from Nicotiana sylvestris

A cDNA library from freshly isolated mesophyll protoplasts of Nicotiana sylvestris was differentially screened using cDNAs from leaves, leaf strips submitted to the same stress as protoplasts during the isolation procedure, and cell suspension cultures. One of the selected clones (6P2) was found to encode a putative polypeptide highly homologous to previously characterized 3-hydroxy-3-methylglutaryl coenzyme A reductases. The C-terminal region of the polypeptide was highly conserved whereas its N-terminal region including the trans-membrane domains and the linker was more variable. Apart from protoplasts, the 6P2 gene was found to be expressed in apexes, anthers, roots, and in stressed leaf strips after 24h of culture, during the hypersensitive reaction to viral infection and after HgCl₂ treatment. This pattern of expression is consistent with a role in plant defence mechanisms.     

The Arabidopsis CLV3-like (CLE) genes are expressed in diverse tissues and encode secreted proteins

Members of the receptor-like kinase gene family play crucial regulatory roles in many aspects of plant development, but the ligands to which they bind are largely unknown. In Arabidopsis, the receptor kinase CLAVATA1 (CLV1) binds to the small secreted polypeptide CLV3, and three proteins act as key elements of a signal transduction pathway that regulates shoot apical meristem maintenance. To better understand the signal transduction mechanisms involving small polypeptides, we are studying 25 Arabidopsis CLV3/ESR (CLE) proteins that share a conserved C-terminal domain with CLV3 and three maize ESR proteins. Members of the CLE gene family were identified in database searches and only a few are known to be expressed. We have identified an additional member of the CLE gene family in Arabidopsis, which is more similar in gene structure to CLV3 than the other CLE genes. Phylogenetic analysis reveals that few of the putative CLE gene products are closely related, suggesting there may be little functional overlap between them. We show that 24 of the 25 Arabidopsis CLE genes are transcribed in one or more tissues during development, indicating that they do encode functional products. Many are widely expressed, but others are restricted to one or a few tissue types. We have also determined the sub-cellular localization of several CLE proteins, and find that they are exported to the plasma membrane or extracellular space. Our results suggest that the Arabidopsis CLE proteins, like CLV3, may function as secreted signaling molecules that act in diverse pathways during growth and development.     

Cytosolic and plastid forms of 5-enolpyruvylshikimate-3-phosphate synthase in Euglena gracilis are differentially expressed during light-induced chloroplast development

The enzyme 5-enolpyruvylshikimate-3-phosphate (EPSP) synthase (EC 2.5.1.19), the target of the herbicide glyphosate [N-(phosphonomethyl)glycine], exists in two molecular forms in Euglena gracilis. One form has previously been characterized as a monofunctional 59 kDa protein. The other form constitutes a single domain of the multifunctional 165 kDa arom protein. The two enzyme forms are inversely regulated at the protein and mRNA levels during light-induced chloroplast development, as demonstrated by the determination of their enzyme activities after non-denaturing polyacrylamide gel electrophoresis and Northern hybridization analysis with a Saccharomyces cerevisiae ARO1 gene probe. The arom protein and its mRNA predominate in dark-grown cells, and the levels of both decline upon illumination. In contrast, the monofunctional EPSP synthase and its mRNA are induced by light, the increase in mRNA abundance preceding accumulation of the protein. The two enzymes are localized in different subcellular compartments, as demonstrated by comparing total protein patterns with those of isolated organelles. Glyphosate-adapted wild-type cells and glyphosate-tolerant cells of a plastid-free mutant of E. gracilis, W₁₀BSmL, were used for organelle isolation and protein extraction, as these cell lines overproduce EPSP synthase and the arom protein, respectively. Evidence was obtained for the cytosolic localization of the arom protein and the plastid compartmentalization of the monofunctional EPSP synthase. These conclusions are further supported by the observation that EPSP synthase precursor, produced by in vitro translation of the hybrid-selected mRNA, was efficiently taken up and processed to mature size by isolated chloroplasts from photoautotrophic wild-type E. gracilis cells, while the in vitro-synthesized arom protein was not sequestered by isolated Euglena plastids.Dedicated to Prof. Dr. A. Trebst on the occasion of his 65th birthday     

杠柳橡胶合成关键基因CPT、SRPP和REF启动子克隆与表达特性分析

巴西橡胶树（Hevea brasiliensis）是天然橡胶的主要来源。受热带气候条件限制,我国巴西橡胶树种植面积有限,天然橡胶自给率低。杠柳（Periploca sepium）可以合成顺式-1,4-聚异戊二烯（天然橡胶的主要成分）,是一种天然橡胶的新型替代植物,但其合成调控机理尚不明确。本研究利用染色体步移方法,克隆获得了杠柳顺式-1,4-聚异戊二烯合成关键酶顺式-异戊烯基转移酶（cis-prenyltransferase,CPT）、小橡胶粒子蛋白（small rubber particle protein,SRPP）和橡胶延长因子（rubber elongation factor,REF）基因的启动子序列。以β-葡糖醛酸酶（β-glucuronidase,GUS）基因为报告基因,利用农杆菌（Agrobacterium）介导稳定遗传转化法解析了这3个启动子的组织表达特性。结果显示,这三者在杠柳的叶片和茎中均有表达,特别是在叶脉和维管束位置共同表达,提示在这些部位REF和SRPP与CPT可能相互作用,共同完成天然橡胶的主要成分顺式-1,4-聚异戊二烯的聚合。本研究为解析杠柳中天然橡胶的生物合成机制以及培育高产天然橡胶新品种提供了理论基础。     

Interaction between ACC synthase 1 and 14-3-3 proteins in rice: a new insight

In this study, the interaction between rice 14-3-3 protein and 1-aminocyclopropane carboxylic acid synthase (ACS) was observed in yeast cells using yeast two-hybrid assays. Given the fact that 14-3-3 proteins generally bind to their target proteins in a phosphorylation-dependent manner, a hypothesis regarding the regulatory role of 14-3-3 proteins in the activation of ACS is proposed in which 14-3-3 proteins may bind to the phosphorylated C-terminal tails of ACSs and help them to escape from their fated degradation when ethylene biosynthesis is needed. It is reasonable to believe that 14-3-3 protein may play an important role in regulating ACS activity. Published in Russian in Biokhimiya, 2007, Vol. 72, No. 9, pp. 1231–1237.     

A reporter gene under the control of tms or aux promoters is differentially expressed in tobacco and barley protoplasts

Summary Agrobacterium tumefaciens and some Agrobacterium rhizogenes strains possess auxin biosynthesis genes (tms and aux genes respectively), responsible for a de novo auxin biosynthetic pathway in transformed plant cells. A comparison is presented of the potential expression of these genes in a monocotyledonous (barley) and a dicotyledonous plant (tobacco). The promoters of the genes were translationally fused to the -glucuronidase reporter gene and analysed in transient expression experiments. The tms and aux fusions were highly expressed in tobacco, but not in barley. However, the aux enhancer active in tobacco, conferred low -glucuronidase expression in barley when fused to a truncated cauliflower mosaic virus 35S promoter. The results are discussed in relation to the differential responses to Agrobacterium infection in monocots and dicots.Abbreviations CaMV cauliflower mosaic virus - PCR polymerase chain reaction - PEG polyethylene glycol - Mu 4-methyl umbelliferone     

Members of two gene families encoding ubiquitin-conjugating enzymes, AtUBC1-3 and AtUBC4-6, fromArabidopsis thaliana are differentially expressed

Covalent attachment of ubiquitin to other intracellular proteins is essential for many physiological processes in eukaryotes, including selective protein degradation. Selection of proteins for ubiquitin conjugation is accomplished, in part, by a group of enzymes designated E2s or ubiquitin-conjugating enzymes (UBCs). At least six types of E2s have been identified in the plantArabidopsis thaliana; each type is encoded by a small gene family. Previously, we described the isolation and characterization of two three-member gene families, designatedAtUBC1-3 andAtUBC4-6, encoding two of these E2 types. Here, we investigated the expression patterns, of theAtUBC1-3 andAtUBC4-6 genes by the histochemical analysis of transgenicArabidopsis containing the corresponding promoters fused to the -glucuronidase-coding region. Staining patterns showed that these genes are active in many stages of development and some aspects of cell death, but are not induced by heat stress. Within the two gene families, individual members exhibited both overlapping and complementary expression patterns, indicating that at least one member of each gene family is expressed in most cell types and at most developmental stages. Different composite patterns of expression were observed between theAtUBC1-3 andAtUBC4-6 families, suggesting distinct biochemical and/or physiological functions for the encoded E2s inArabidopsis.     

Persistence of [14C] gibberellin A3 and [3H] gibberellin A1 in senescing,ethylene treated Citrus and tomato fruit

The fate of [¹⁴C] gibberellin A₃ and [³H] gibberellin A₁ was examined in senescing fruit of Shamouti orange (Citrus sinensis L. Osbeck) and tomato (Lycopersicon esculentum Mill.). Gibberellin A₃ was highly persistent in Citrus peel (t 1/2=18 days) and to a lesser degree in tomato (t 1/2=5.5 days). Ethylene and ethephon caused a slight enhancement of gibberellin A₃ metabolism in Citrus and tomato fruit, respectively. Gibberellin A₁ was metabolized by Citrus peel at a relatively high rate (t 1/2 < 24 h) and ethylene slightly reduced this rate. It is concluded that the ethylene-induced enhancement of senescence does not involve major effects on the deactivation of applied gibberellins.Abbreviations GA₃ gibberellin A₃ - GA₁ gibberellin A₁