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Selected Abstracts

Altered metabolic fluxes result from shifts in metabolite levels in sucrose phosphorylase-expressing potato tubers

PLANT CELL & ENVIRONMENT, Issue 10 2002
A. R. Fernie
Abstract As reported in a previous paper (Plant, Cell and Environment 24, 357,365, 2001), introduction of sucrose phosphorylase into the cytosol of potato results in increased respiration, an inhibition of starch accumulation and decreased tuber yield. Herein a more detailed investigation into the effect of sucrose phosphorylase expression on tuber metabolism, in order to understand why storage and growth are impaired is described. (1) Although the activity of the introduced sucrose phosphorylase was low and accounted for less than 10% of that of sucrose synthase its expression led to a decrease in the activities of enzymes of starch synthesis relative to enzymes of glycolysis and relative to total amylolytic activity. (2) Incubation of tuber discs in [14C]glucose revealed that the transformants display a two-fold increase of the unidirectional rate of sucrose breakdown. However this was largely compensated by a large stimulation of sucrose re-synthesis and therefore the net rate of sucrose breakdown was not greatly affected. Despite this fact major shifts in tuber metabolism, including depletion of sucrose to very low levels, higher rates of glycolysis, and larger pools of amino acids were observed in these lines. (3) Expression of sucrose phosphorylase led to a decrease of the cellular ATP/ADP ratio and energy charge in intact growing tubers. It was estimated that at least 30% of the ATP formed during respiration is consumed as a result of the large acceleration of the cycle of sucrose breakdown and re-synthesis in the transformants. Although the absolute rate of starch synthesis in short-term labelling experiments with discs rose, starch synthesis fell relative to other fluxes including respiration, and the overall starch content of the tubers was lower than in wild-type tubers. (4) External supply of amino acids to replace sucrose as an osmoticum led to a feed-back inhibition of glycolysis, but did not restore allocation to starch. (5) However, an external supply of the non-metabolizable sucrose analogue palatinose , but not sucrose itself , stimulated flux to starch in the transformants. (6) The results indicate that the impaired performance of sucrose phosphorylase-expressing tubers is attributable to decreased levels of sucrose and increased energy consumption during sucrose futile cycling, and imply that sucrose degradation via sucrose synthase is important to maintain a relatively large sucrose pool and to minimize the ATP consumption required for normal metabolic function in the wild type. [source]

Microbial Community Dynamics of a Continuous Mesophilic Anaerobic Biogas Digester Fed with Sugar Beet Silage

ENGINEERING IN LIFE SCIENCES (ELECTRONIC), Issue 4 2008
B. Demirel
Abstract The aim of the study was to investigate the long-term fermentation of an extremely sour substrate without any addition of manure. In the future, the limitation of manure and therefore the anaerobic digestion of silage with a very low buffering capacity will be an increasing general bottleneck for energy production from renewable biomass. During the mesophilic anaerobic digestion of sugar beet silage (without top and leaves) as the sole substrate (without any addition of manure), which had an extreme low pH of around 3.3, the highest specific gas production rate (spec. GPR) of 0.72,L/g volatile solids (VS),d was achieved at a hydraulic retention time (HRT) of 25,days compared to an organic loading rate (OLR) of 3.97,g VS/L,d at a pH of around 6.80. The methane (CH4) content of the digester ranged between 58 and 67,%, with an average of 63,%. The use of a new charge of substrate (a new harvest of the same substrate) with higher phosphate content improved the performance of the biogas digester significantly. The change of the substrate charge also seemed to affect the methanogenic population dynamics positively, thus improving the reactor performance. Using a new substrate charge, a further decrease in the HRT from 25 to 15,days did not influence the digester performance and did not seem to affect the structure of the methanogenic population significantly. However, a decrease in the HRT affected the size of the methanogenic population adversely. The lower spec. GPR of 0.54,L/g,VS,d attained on day,15 of the HRT could be attributed to a lower size of methanogenic population present in the anaerobic digester during this stage of the process. Furthermore, since sugar beet silage is a relatively poor substrate, in terms of the buffering capacity and the availability of nutrients, an external supply of buffering agents and nutrients is a prerequisite for a safe and stable digester operation. [source]

North Korean Energy Problems and Solutions: A Russian Perspective1

PACIFIC FOCUS, Issue 1 2008
Georgy Toloraya
The energy situation in the Democratic People's Republic of Korea (DPRK) remains very difficult and could prevent the economic progress of the country even if large foreign assistance and investment were at hand. Analysis of the country's energy supply and demand patterns shows that the outdated energy-hungry industries and the wasteful use of energy due to a lack of incentives lead to a much higher energy use per unit of gross domestic profit (GDP) than in comparable economies. On the other hand the domestic supply is limited, while the lack of financing sources limits the external supply. The DPRK cannot attain energy security on its own: this is the priority task for international assistance, especially in the context of the Six-Party peace process. Suggested measures include modernization of energy sector management, an internationally-funded system of training of personnel, the modernization of energy sector facilities, the construction of new facilities and innovation. The South Korean role is very important and its assistance should be coordinated with broader international aid in the framework of the Six-Party talks. Multilateral energy assistance arrangements, including a possible consortium should be considered. Such a body could draw a comprehensive plan of the DPRK's energy production and consumption patterns and the needed investment correlated with the overall prognosis of the DPRK's economic development. [source]

Altered metabolic fluxes result from shifts in metabolite levels in sucrose phosphorylase-expressing potato tubers

PLANT CELL & ENVIRONMENT, Issue 10 2002
A. R. Fernie
Abstract As reported in a previous paper (Plant, Cell and Environment 24, 357,365, 2001), introduction of sucrose phosphorylase into the cytosol of potato results in increased respiration, an inhibition of starch accumulation and decreased tuber yield. Herein a more detailed investigation into the effect of sucrose phosphorylase expression on tuber metabolism, in order to understand why storage and growth are impaired is described. (1) Although the activity of the introduced sucrose phosphorylase was low and accounted for less than 10% of that of sucrose synthase its expression led to a decrease in the activities of enzymes of starch synthesis relative to enzymes of glycolysis and relative to total amylolytic activity. (2) Incubation of tuber discs in [14C]glucose revealed that the transformants display a two-fold increase of the unidirectional rate of sucrose breakdown. However this was largely compensated by a large stimulation of sucrose re-synthesis and therefore the net rate of sucrose breakdown was not greatly affected. Despite this fact major shifts in tuber metabolism, including depletion of sucrose to very low levels, higher rates of glycolysis, and larger pools of amino acids were observed in these lines. (3) Expression of sucrose phosphorylase led to a decrease of the cellular ATP/ADP ratio and energy charge in intact growing tubers. It was estimated that at least 30% of the ATP formed during respiration is consumed as a result of the large acceleration of the cycle of sucrose breakdown and re-synthesis in the transformants. Although the absolute rate of starch synthesis in short-term labelling experiments with discs rose, starch synthesis fell relative to other fluxes including respiration, and the overall starch content of the tubers was lower than in wild-type tubers. (4) External supply of amino acids to replace sucrose as an osmoticum led to a feed-back inhibition of glycolysis, but did not restore allocation to starch. (5) However, an external supply of the non-metabolizable sucrose analogue palatinose , but not sucrose itself , stimulated flux to starch in the transformants. (6) The results indicate that the impaired performance of sucrose phosphorylase-expressing tubers is attributable to decreased levels of sucrose and increased energy consumption during sucrose futile cycling, and imply that sucrose degradation via sucrose synthase is important to maintain a relatively large sucrose pool and to minimize the ATP consumption required for normal metabolic function in the wild type. [source]