An engineered sorbitol cycle alters sugar composition, not growth, in transformed tobacco

Many efforts have been made to engineer stress tolerance by accumulating polyols. Transformants that accumulate polyols often show growth inhibition, because polyols are synthesized as a dead-end product in plants that do not naturally accumulate polyols. Here, we show a novel strategy in which a sorbitol cycle was engineered by introducing apple cDNA encoding NAD-dependent sorbitol dehydrogenase (SDH) in addition to sorbitol-6-phosphate dehydrogenase (S6PDH). Tobacco plants transformed only with S6PDH showed growth inhibition, and very few transformants were obtained. In contrast, many transgenic plants with both S6PDH and SDH were easily obtained, and their growth was normal despite their accumulation of sorbitol. Interestingly, the engineered sorbitol cycle enhanced the accumulation of sucrose instead of fructose that was expected to be increased. Sucrose, rather than fructose, was also increased in the immature fruit of tomato plants transformed with an antisense fructokinase gene in which the phosphorylation of fructose was inhibited. A common phenomenon was observed in the metabolic engineering of two different pathways, showing the presence of homeostatic regulation of fructose levels.     

Sorbitol metabolism by apple seedlings

The aims of this work were to compare the roles of sorbitol and sucrose in seedlings of Malus domestica, to discover which tissues synthesize sorbitol and which break it down, and to examine these tissues for enzymes of sorbitol metabolism. The detailed distribution of label was determined after supplying intact seedlings with ¹⁴CO₂, and excised parts of seedlings with [U-¹⁴C]fructose and [U-¹⁴C]sorbitol. The results showed that appreciable synthesis of sorbitol occurred only in the leaves but did not depend directly on photosynthesis. All tissues examined metabolized sorbitol but metabolism was extensive only in root apices, and in leaves which had been kept in the dark. The above experiments suggest that sorbitol supplements but does not replace sucrose. Extracts of apple leaves showed no trace of either a polyol or a polyol phosphate dehydrogenase but did exhibit sorbitol-6-phosphate phosphatase activity. A limited number of experiments with extracts of the blades of Laminaria digitata indicated that they contained mannitol-1-phosphate phosphatase and mannitol dehydrogenase.     

The detection of sorbitol dehydrogenase in the cytoplasm of liver cells in birds and its relation to alcohol dehydrogenase and glucose-6-phosphate dehydrogenase

Comparative studies have been made in the specific activity of sorbitol dehydrogenase, glucose-6-phosphate and alcohol dehydrogenases in the cytoplasm from the liver of wild and domestic ducks, hen and pheasant. High activity of all the three enzymes was found in ducks indicating the effective sorbitol (polyol) metabolism of glucose. The activity of glucose-6-phosphate dehydrogenase is an order lower as compared with the activity of sorbitol and alcohol dehydrogenases in the cytoplasm of hen liver. The same relationship was found for the activity of sorbitol dehydrogenase in the cytoplasm of pheasant liver.     

Down-regulation of pyrophosphate: fructose 6-phosphate 1-phosphotransferase (PFP) activity in sugarcane enhances sucrose accumulation in immature internodes

Pyrophosphate: fructose 6-phosphate 1-phosphotransferase (PFP) activity was successfully down-regulated in sugarcane using constitutively expressed antisense and untranslatable forms of the sugarcane PFP-β gene. In young internodal tissue activity was reduced by up to 70% while no residual activity could be detected in mature tissues. The transgenic plants showed no visible phenotype or significant differences in growth and development under greenhouse and field conditions. Sucrose concentrations were significantly increased in the immature internodes of the transgenic plants but not in the mature internodes. This contributed to an increase in the purity of the immature tissues, resembling an early ripening phenotype. Both the immature and mature internodes of the transgenic plants had significantly higher fibre contents. These findings suggest that PFP influences the ability of young, biosynthetically active sugarcane culm tissue to accumulate sucrose but that the equilibrium of the glycolytic intermediates, including the stored sucrose, is restored when ATP-dependent phosphofructokinase and the residual PFP activity is sufficient to sustain the required glycolytic flux as the tissue matures. Moreover, it suggests a role for PFP in glycolytic carbon flow, which could be rate limiting under conditions of high metabolic activity.     

Increased Cerebral Glucose-6-Phosphate Dehydrogenase Activity in Alzheimer''s Disease May Reflect Oxidative Stress

The activities of the hexose monophosphate pathway enzymes glucose-6-phosphate dehydrogenase and 6-phosphogluconate dehydrogenase were measured at autopsy in control and Alzheimer's disease brains. Enzyme activities did not vary between different areas of brain and were unaltered by age. In Alzheimer's disease, the activities of both enzymes were increased, the glucose-6-phosphate dehydrogenase activity being almost double the activity of normal controls. We propose that this increased enzyme activity is a response to elevated brain peroxide metabolism.     

Enzyme activity profiles in an overwintering population of freeze-tolerant larvae of the gall fly,Eurosta solidaginis

The activity of some enzymes of intermediary metabolism, including enzymes of glycolysis, the hexose monophosphate shunt, and polyol cryoprotectant synthesis, were measured in freeze-tolerant Eurosta solidaginis larvae over a winter season and upon entry into pupation. Flexible metabolic rearrangement was observed concurrently with acclimatization and development. Profiles of enzyme activities related to the metabolism of the cryoprotectant glycerol indicated that fall biosynthesis may occur from two possible pathways: 1. glyceraldehyde-phosphate glyceraldehyde glycerol, using glyceraldehyde phosphatase and NADPH-linked polyol dehydrogenase, or 2. dihydroxyacetonephosphate glycerol-3-phosphate glycerol, using glycerol-3-phosphate dehydrogenase and glycerol-3-phosphatase. Clearance of glycerol in the spring appeared to occur by a novel route through the action of polyol dehydrogenase and glyceraldehyde kinase. Profiles of enzyme activities associated with sorbitol metabolism suggested that this polyol cryoprotectant was synthesized from glucose-6-phosphate through the action of glucose-6-phosphatase and NADPH-linked polyol dehydrogenase. Removal of sorbitol in the spring appeared to occur through the action of sorbitol dehydrogenase and hexokinase. Glycogen phosphorylase activation ensured the required flow of carbon into the synthesis of both glycerol and sorbitol. Little change was seen in the activity of glycolytic or hexose monophosphate shunt enzymes over the winter. Increased activity of the -glycerophosphate shuttle in the spring, indicated by greatly increased glycerol-3-phosphate dehydrogenase activity, may be key to removal and oxidation of reducing equivalents generated from polyol cryoprotectan catabolism.Abbreviations 6PGDH 6-Phosphogluconate dehydrogenase - DHAP dihydroxy acetone phosphate - F6P fructose-6-phosphate - F6Pase fructose-6-phospha-tase - FBPase fructose-bisphosphatase - G3P glycerol-3-phosphate - G3Pase glycerol-3-phosphate phophatase - G3PDH glycerol-3-phosphate dehydrogenase - G6P glucose-6-phosphate - G6Pase glucose-6-phosphatase - G6PDH glucose-6-phosphate dehydrogenase - GAK glyceraldehyde kinase - GAP glyceraldehyde-3-phosphate - GAPase glyceraldehyde-3-phosphatase - GAPDH glyceraldehyde-3-phosphate dehydrogenase - GDH glycerol dehydrogenase - GPase glycogen phosphorylase - HMS hexose monophosphate shunt - LDH lactate dehydrogenase - NADP-IDH NADP⁺-dependent isocitrate dehydrogenase - PDHald polyol dehydrogenase, glyceraldehyde activity - PDHgluc polyol dehydrogenase, glucose activity - PFK phosphofructokinase - PGI phosphoglucoisomerase - PGK phosphoglycerate kinase - PGM phosphoglucomutase - PK pyruvate kinase - PMSF phenylmethylsulfonylfluoride - SoDH sorbitol dehydrogenase - V _max maximal enzyme activity - ww wet weight     

Engineered sorbitol accumulation induces dwarfism in Japanese persimmon

A cDNA encoding sorbitol-6-phosphate dehydrogenase (S6PDH), which is a key enzyme in sorbitol biosynthesis in Rosaceae, was introduced into the Japanese persimmon (Diospyros kaki) to increase the environmental stress tolerance. Resultant transformants exhibited salt-tolerance with dwarfing phenotypes. Therefore, we studied two transgenic lines to understand the physiological mechanism of this dwarfism: lines PS1 and PS6 accumulated high and moderate levels of sorbitol, respectively. The average length of shoots was significantly shorter as compared with the wild-type in line PS1, while no such decrease was observed in line PS6. The myo-inositol and glucose 6-phosphate (G6P) contents were measured in the transgenic lines because previous work with tobacco transformed with S6PDH had suggested that growth inhibition was due to depletion of these metabolites. Although the myo-inositol content was decreased in PS1 plants, the decrease was much smaller than that observed in transgenic tobacco that accumulates sorbitol. The G6P contents were the same in PS1 plants and phenotypically normal PS6 plants. The level of indole-3-acetic acid (IAA), which affects stem elongation, in line PS1 was similar to the levels in the other lines. A decrease in gibberellin (GA) content generally induces dwarfism in plants. However, GA was not decreased in PS1 plants compared with wild-type or control plants. Therefore, we focused on sorbitol accumulation as the most remarkable feature of PS1 plants. As one possibility, the observed growth inhibition was likely caused by an osmotic imbalance between the cytosol and vacuole.     

植物海藻糖代谢及海藻糖-6-磷酸信号研究进展

海藻糖代谢和海藻糖-6-磷酸（T6P）信号途径在植物生长和发育过程中具有重要的调控作用。T6P是海藻糖的代谢前体,是植物响应碳元素可用性、调控生长发育的关键信号分子。植物体中除了自身的海藻糖合成途径外,由病原菌产生的海藻糖或T6P能够导致植物代谢和发育的重新编程。植物不同阶段的生长发育,包括胚胎发育、幼苗生长、成花诱导及叶片衰老等,都受T6P的调控。T6P信号的一个关键互作因子是蔗糖非发酵相关激酶1（SnRKl）,T6P能够抑制SnRK1的催化活性,进而调控植物的生长和发育过程。     

Fructose supports glycogen accumulation,heterocysts differentiation,N2 fixation and growth of the isolated cyanobiont Anabaena azollae

Cells of the cyanobiont Anabaena azollae isolated from the water fern Azolla filiculoides were found to take up and utilize fructose in the light for mixotrophic growth. Fructose was favored by the cyanobiont as a substrate over sucrose and glucose. Cell growth in the presence of 8 mM fructose led to glycogen accumulation in the cells which approached 20% of the cell dry weight within 2 to 3 days, followed by reduction of glycogen content during the fourth day. Glucose-6-phosphate dehydrogenase activity was increased 5–6-fold in the fructose grown cells from the third day of growth onwards. The frequency of heterocysts in fructose-grown cells increased from 6 to 18%, and acetylene reduction by nitrogenase was increased 3-fold in the presence of fructose as compared with control cells, with maximum values observed between the third and fifth day of mixotrophic growth. Fructose-supported growth yielded a 2–4-fold increase in cell dry weight over controls.It is suggested that fructose-supported development and growth of the cyanobiont in batch cultures may resemble its mixotrophic growth and development in situ in the leaf cavity of the host fern Azolla.Abbreviation G6PDH glucose-6-phosphate dehydrogenase     

Purification and Characteristics of Sorbitol-6-phosphate Dehydrogenase from Loquat Leaves

To study the role of sorbitol-6-phosphate dehydrogenase in sorbitol synthesis in leaves of Rosaceous plants, properties of the enzyme and its presence in several plants in the family was investigated. The activity of the enzyme, which catalyzes an NADP-dependent oxidation of the substrate to glucose-6-phosphate, was detected in leaves of Prunus mume, Prunus persica, Rhaphiolepsis indica, Sorbus aucuparia, Cydonia oblonga, Photinia glabra, Sorbaria kirilowii, and Spiraea thunbergii.     

Functioning of the sorbitol pathway of glucose metabolism during hibernation

Studies have been made on the activity of sorbitol dehydrogenase and glucose-6-phosphate dehydrogenase in the liver of hibernating ground squirrels. It was found that the activity of the former is an order higher than that of the latter. Contribution of sorbitol pathway in total metabolism of the glucose in hibernating ground squirrels is discussed.     

A genetically encoded Förster resonance energy transfer sensor for monitoring in vivo trehalose-6-phosphate dynamics

Trehalose-6-phosphate is a pivotal regulator of sugar metabolism, growth, and osmotic equilibrium in bacteria, yeasts, and plants. To directly visualize the intracellular levels of intracellular trehalose-6-phosphate, we developed a series of specific Förster resonance energy transfer (FRET) sensors for in vivo microscopy. We demonstrated real-time monitoring of regulation in the trehalose pathway of Escherichia coli. In Saccharomyces cerevisiae, we could show that the concentration of free trehalose-6-phosphate during growth on glucose is in a range sufficient for inhibition of hexokinase. These findings support the hypothesis of trehalose-6-phosphate as the effector of a negative feedback system, similar to the inhibition of hexokinase by glucose-6-phosphate in mammalian cells and controlling glycolytic flux.     

蔷薇科植物中山梨醇代谢酶的研究进展

蔷薇科植物中,与山梨醇代谢相关的酶主要有：6-磷酸山梨醇脱氢酶、山梨醇脱氢酶和山梨醇氧化酶。综述了近些年来国内外关于这几种酶的研究进展,涉及的内容有：酶的性质与作用、酶的活性变化与转录的关系,及其在生物技术方面的研究成果,并对今后的研究工作进行了展望。     

Maintenance of luminal NADPH in the endoplasmic reticulum promotes the survival of human neutrophil granulocytes

The present study demonstrates the expression of hexose-6-phosphate dehydrogenase and 11 beta-hydroxysteroid dehydrogenase type 1 in human neutrophils, and the presence and activity of these enzymes in the microsomal fraction of the cells. Their concerted action together with the previously described glucose-6-phosphate transporter is responsible for cortisone-cortisol interconversion detected in human neutrophils. Furthermore, the results suggest that luminal NADPH generation by the cortisol dehydrogenase activity of 11 beta-hydroxysteroid dehydrogenase type 1 prevents neutrophil apoptosis provoked by the inhibition of the glucose-6-phosphate transporter. In conclusion, the maintenance of the luminal NADPH pool is an important antiapoptotic factor in neutrophil granulocytes.     

水稻质体葡萄糖-6-磷酸脱氢酶基因的克隆与表达研究

戊糖磷酸途径是高等植物中重要的代谢途径,主要生理功能是产生NADPH以及供核酸代谢的磷酸戊糖。葡萄糖-6-磷酸脱氢酶（G6PDH）是戊糖磷酸途径的关键酶,广泛存在于高等植物细胞的细胞质和质体中。木研究首次从水稻（Oryza sativa L.）幼苗中分离了核编码的质体G6PDH基因OsG6PDH2,序列分析表明OsG6PDH2编码一个具有588个氨基酸残基的多肽,等电点为8．5,分子量66kDa。OsG6PDH2的N端有1个70个氨基酸的信号肽,推测的裂解位点为Gly55和Val56,表明OsG6PDH2编码产物可能定位于质体。多序列比较的结果表明OsG6PDH2与拟南芥、烟草、马铃薯质体G6PDH的一致性分别达81％、87％、83％。进化关系说明水稻OsG6PDH2与拟南芥（AtG6PDH3）、马铃薯（StG6PDH1）处于高等植物P2型质体G6PDH分支上,暗示了OsG6PDH2可能是一个P2型的质体蛋白。Matinspector程序分析表明,OsG6PDH2在起始密码子上游含有一个bZIP转录因子识别位点、一个ABA应答元件、一个CRT／DRE元件和1个W-box元件。半定量RT-PCR分析表明,OsG6PDH2在水稻根、茎、叶和幼穗组织中都呈低丰度组成型表达,在根部表达较高,在水稻幼苗中的表达显著受暗处理的诱导。将OsG6PDH2的完整开放阅读框构建到大肠杆菌表达载体pET30a（＋）中,pET30a（＋）-OsG6PDH2在大肠杆菌中得到了有效表达。酶活性测定证明,OsG6PDH2的编码产物具有葡萄糖-6-磷酸脱氢酶的功能。     

Isolation and Expression Analysis of Plastidic Glucose-6-phosphate Dehydrogenase Gene from Rice (Oryza sativa L.)

Glucose-6-phosphate dehydrogenase is a rate-limiting enzyme of pentose phosphate pathway, existing in cytosolic and plastidic compartments of higher plants. A novel gene encoding plastidic glucose-6-phosphate dehydrogenase was isolated from rice (Oryza sativa L.) and designated OsG6PDH2 in this article. Through semiquantitative RT-PCR approach it was found that OsG6PDH2 mRNA was weakly expressed in rice leaves, stems, immature spikes or flowered spikes, and a little higher in roots. However, the expression of OsG6PDH2 in rice seedlings was significantly induced by dark treatment. The complete opening reading frame (ORF) of OsG6PDH2 was inserted into pET30a (+), and expressed in Escherichia coli strain BL21 (DE3). The enzyme activity assay of transformed bacterial cells indicated that OsG6PDH2 encoding product had a typical function of glucose-6-phosphate dehydrogenase.     

苹果S6PDH基因克隆与原核表达

6-磷酸山梨醇脱氢酶(sorbitol-6-phosphate dehydrogenase,S6PDH)是蔷薇科植物中合成山梨醇的重要酶。以苹果叶片为材料,利用RT-PCR法克隆到S6PDHcDNA全长,将其与大肠杆菌表达载体pET-32a( )构建原核表达载体pET-S并转化大肠杆菌BL21,经IPTG诱导表达后,SDS-PAGE检测结果表明该基因表达了1个约54kD的蛋白,为进一步研究目的蛋白的结构和功能提供了试验基础。     

The level of sorbitol dehydrogenase activity in the cytoplasm of mammalian liver cells

A comparative study of sorbitol dehydrogenase activity in bovine, calf, and rat liver cell cytoplasm has been carried out. The level of activity of the enzyme is several times greater than that of marker enzymes (alcohol dehydrogenase, glucose-6-phosphate dehydrogenase). The data obtained suggest that the polyol (sorbitol) metabolism pathway of glucose functions actively in mammalian liver cells.