Seasonal shifts in dormancy status, carbohydrate metabolism, and related gene expression in crown buds of leafy spurge

Crown buds of field-grown leafy spurge (Euphorbia esula L.) were examined to determine relationships between carbohydrate metabolism and gene expression throughout para-, endo-, and eco-dormancy during the transition from summer, autumn, and winter, respectively. The data indicates that endo-dormancy plays a role in preventing new shoot growth during the transition from autumn to winter. Cold temperature was involved in breaking endo-dormancy, inducing flowering competence, and inhibiting shoot growth. An inverse relationship developed between starch and soluble sugar (mainly sucrose) content in buds during the shift from para- to endo-dormancy, which continued through eco-dormancy. Unlike starch content, soluble sugars were lowest in crown buds during para-dormancy but increased over two- to three-fold during the transition to endo-dormancy. Several genes (AGPase, HK, SPS, SuSy, and UGPase) coding for proteins involved in sugar metabolism were differentially regulated in conjunction with well-defined phases of dormancy in crown buds. Marker genes for S-phase progression, cell wall biochemistry, or responsive to auxin were also differentially regulated during transition from para-, endo-, and eco-dormancy. The results were used to develop a model showing potential signalling pathways involved in regulating seasonal dormancy status in leafy spurge crown buds.     

Characterization, expression and function of DORMANCY ASSOCIATED MADS-BOX genes from leafy spurge

DORMANCY ASSOCIATED MADS-BOX (DAM) genes are related to AGAMOUS-LIKE 24 and SHORT VEGETATIVE PHASE genes of arabidopsis and are differentially regulated coordinately with endodormancy induction and release in buds of several perennial plant species. DAM genes were first shown to directly impact endodormancy in peach where a deletion of a series of DAM resulted in loss of endodormancy induction. We have cloned and characterized several MADS box genes from the model perennial weed leafy spurge. Leafy spurge DAM genes are preferentially expressed in shoot tips and buds in response to cold temperatures and day length in a manner that is relative to the level of endodormancy induced by various environmental conditions. Over-expression of one DAM gene in arabidopsis delays flowering. Additionally, we show that at least one DAM gene is differentially regulated by chromatin remodeling. Comparisons of the DAM gene promoters between poplar and leafy spurge have identified several conserved sequences that may be important for their expression patterns in response to dormancy-inducing stimuli.     

Molecular analysis of signals controlling dormancy and growth in underground adventitious buds of leafy spurge

Dormancy and subsequent regrowth of adventitious buds is a critical physiological process for many perennial plants. We have used the expression of hormone and cell cycle-responsive genes as markers to follow this process in leafy spurge (Euphorbia esula). In conjunction with earlier studies, we show that loss of mature leaves results in decreased sugar levels and increased gibberellin perception in underground adventitious buds. Gibberellin is sufficient for induction of S phase-specific but not M phase-specific gene expression. Loss of both apical and axillary buds or inhibition of polar auxin transport did not result in induction of S phase- or M phase-specific gene expression. Loss of polar auxin transport was necessary for continuation of the cell cycle and further bud development if the S phase was previously initiated.     

葡萄休眠的自然诱导因子及其对休眠诱导期冬芽呼吸代谢的调控

以高需冷量葡萄品种‘夏黑’为试材,研究短日照、长日照和自然光照3个条件下,葡萄冬芽休眠的自然诱导因子及其对休眠诱导期冬芽呼吸代谢的调控机制.结果表明: 自然低温、短日照2个环境因素单独或共同作用均能诱导葡萄冬芽进行自然休眠.短日照在诱导葡萄冬芽进入自然休眠的过程中起主导作用,自然低温起辅助作用;温度相同条件下,日照时间越短对葡萄冬芽自然休眠的诱导作用越强.总呼吸速率达到峰值是葡萄冬芽休眠诱导期结束的标志.在自然休眠诱导期间,葡萄冬芽磷酸戊糖途径运行活性和容量占总呼吸的比例迅速上升,其中自然条件的葡萄冬芽分别由16.0%和20.1%上升至22.3%和26.0%.自然低温是诱导葡萄冬芽底物氧化水平上呼吸途径发生变化的主导因素,短日照起促进作用.在葡萄冬芽自然休眠诱导期间,交替途径运行活性和容量占总呼吸的比例迅速上升,其中自然条件葡萄冬芽分别由19.4%和27.3%上升至38.2%和46.8%.自然低温和短日照均可诱导葡萄冬芽电子传递链水平上呼吸途径发生变化.     

Changes in the carbohydrate content of the leaf and the apical bud of Sinapis during transition to flowering

Vegetative plants of Sinapis alba L. were induced to flower by a single long day of 20 h or by a single short day of 8 h starting at an unusual time of the 24-h cycle (displaced short day). The soluble sugar and starch contents of the just-expanded leaf and the apical bud were measured at various times after the start of each of these two photoinductive treatments. Associated with the induction of flowering there were temporary increases in the soluble sugar and starch contents of the leaf and of the bud. These increases were apparent 14 h after the start of the long day and 12 h after the start of the displaced short day. The starch content of the bud increased later. These results indicate that an increase of the soluble sugar content of the bud is required for its transition from the vegetative to the reproductive condition.     

Changes in flux pattern of the central carbohydrate metabolism during kernel development in maize

Developing kernels of the inbred maize line W22 were grown in sterile culture and supplied with a mixture of [U-13C6]glucose and unlabeled glucose during three consecutive intervals (11-18, 18-25, or 25-32 days after pollination) within the linear phase of starch formation. At the end of each labeling period, glucose was prepared from starch and analyzed by 13C isotope ratio mass spectrometry and high-resolution (13)C NMR spectroscopy. The abundances of individual glucose isotopologs were calculated by computational deconvolution of the NMR data. [1,2-(13)C2]-, [5,6-(13)C2]-, [2,3-(13)C2]-, [4,5-(13)C2]-, [1,2,3-(13)C3]-, [4,5,6-(13)C3]-, [3,4,5,6-(13)C4]-, and [U-(13)C6]-isotopologs were detected as the major multiple-labeled glucose species, albeit at different normalized abundances in the three intervals. Relative flux contributions by five different pathways in the primary carbohydrate metabolism were determined by computational simulation of the isotopolog space of glucose. The relative fractions of some of these processes in the overall glucose cycling changed significantly during maize kernel development. The simulation showed that cycling via the non-oxidative pentose phosphate pathway was lowest during the middle interval of the experiment. The observed flux pattern could by explained by a low demand for amino acid precursors recruited from the pentose phosphate pathway during the middle interval of kernel development.     

茶足柄瘤蚜茧蜂碳水化合物代谢相关的滞育关联基因差异表达分析

为明确糖代谢相关途径在茶足柄瘤蚜茧蜂Lysiphlebustestaceipes蛹滞育过程中的作用,揭示滞育调控的分子机制,本试验利用转录组测序技术,对滞育组与非滞育组的茶足柄瘤蚜茧蜂蛹进行转录组测序,并结合生物信息学方法对糖代谢相关途径中的差异表达基因进行了筛选与分析.GO注释到的与碳水化合物代谢条目相关的差异基因共...     

Changes in lipid and carbohydrate metabolism during starvation in adult Manduca sexta

Summary Adult Manduca sexta feed very irregularly in the laboratory, and many adult males never feed. Feeding adults live longer and feeding females lay many more eggs; however, in both feeding (sugar water) and starving adults a decrease of metabolic reserves is observed. Carbohydrates disappear from hemolymph and from fat body. Fat body lipid also decreases, while hemolymph lipid concentration increases strongly in starving adults. The activity of fat body glycogen phosphorylase increases strongly in starving adult M. sexta. The activity of glycogen phosphorylase is correlated inversely with hemolymph sugar concentration. Injected trehalose inactivates glycogen phosphorylase within 2 h, and lowers the hemolymph lipid level within 6 h. In starving adult M. sexta, neither the activation of glycogen phosphorylase nor the increase of hemolymph lipid concentration depends on adipokinetic hormone, since cardiacectomy does not prevent the activation of glycogen phosphorylase nor the increase of hemolymph lipid level.Abbreviations AKH adipokinetic hormone - EDTA ethylenediamine tetraacetate Present address: Department of Biochemistry and Center for Insect Science, The University of Arizona, Tucson, AZ 85721, USA     

Co-ordinated gene expression during phases of dormancy release in raspberry (Rubus idaeus L.) buds

Bud break in raspberry (Rubus idaeus L.) is often poor and uneven, with many of the subapical buds remaining in a dormant state. In order to determine the dormancy status of raspberry buds, an empirical measure of bud burst in a growth-permissive environment following exposure to chilling (4 degrees C cold storage) was developed. For cv. Glen Ample, percentage bud burst in intact canes and isolated nodes was recorded after 14 d. Isolated nodes (a measure of endodormancy) achieved 100% bud burst after approximately 1500 h chilling whereas buds on intact plants (combined endo- and paradormancy) required an additional 1000 h chilling. A microarray approach was used to follow changes in gene expression that occurred during dormancy transition. The probes for the microarrays were obtained from endodormant and paradormant raspberry bud cDNA libraries. The expression profiles of 5300 clones from these libraries were subjected to principal component analysis to determine the most significant expression patterns. Sequence analysis of these clones, in many cases, enabled their functional categorization and the development of hypotheses concerning the mechanisms of bud dormancy release. Thus a set of novel candidates for key dormancy-related genes from raspberry buds have been identified. Bud dormancy is fundamental to the study of plant developmental processes and, in addition, its regulation is of significant economic importance to fruit and horticultural industries.     

The characterization of esulone C and chemotaxonomy of jatrophane diterpenes in leafy spurge

A new jatrophane diterpene, esulone C, was isolated and characterized from the ether extract of the roots of a North Dakota accession of the noxious weed leafy spurge. The ether extracts of North Dakota, Oregon, Montana and Austrian leafy spurge accessions were chromatographically compared for the occurrence of jatrophane diterpenes relative to the taxonomy and biological control of leafy spurge.     

Arrestment of carbohydrate metabolism during anaerobic dormancy and aerobic acidosis inArtemia embryos: determination of pH-sensitive control points

Summary Changes in concentrations of trehalose, glycogen, glycerol, some glycolytic intermediates and adenylate nucleotides that occur during aerobic development have been compared to those seen during anaerobic dormancy and aerobic acidosis in gastrula-stage embryos ofArtemia. The latter two incubation conditions are known to foster large drops in intracellular pH (Busa et al. 1982; Busa and Crowe 1983).During aerobic development, trehalose levels decline while glycogen and glycerol are synthesized (Fig. 1). These transitions are blocked during both anaerobic dormancy and aerobic acidosis, but are resumed by return of embryos to aerobic incubation (Fig. 1). Thus, it is concluded that carbohydrate catabolism in hydrated embryos is directly modulated by intracellular pH. Changes in metabolite levels (Figs. 2–4) reveal that this process is controlled primarily at the trehalase and hexokinase reactions with a less-pronounced negative crossover point noted at the phosphofructokinase step. Each of these reactions is shown to be nonequilibrium by comparing the mass action ratio to the equilibrium constant (Table 1).When embryos are placed under anaerobic conditions, ATP levels drop dramatically while AMP increases in concentration (Fig. 5). These changes are reflected in a drop in adenylate energy charge from a control value of 0.73 to 0.42 (Fig. 6). Aerobic acidosis only leads to a slight decrease in energy charge, emphasizing that shifts in adenylate poolsAbbreviations pH _i intracellular pH - glyceraldehyde 3-P glyeraldehyde 3-phosphate - DHAP dihydroxyacetone phosphate - glucose 6-P glucose 6-phosphate - fructose 6-P fructose 6-phosphate - fructose 1,6-P ₂ fructose 1,6-bisphosphate - HK hexokinase - PFK phosphofructokinase - MAR mass action ratio - K _eq equilibrium constant