P. Apel scite author profile

SummarySucrose produced in source leaves is the predominant carbon source for developing sink tissues in most higher plants. Consequently the rate of sucrose synthesis is likely to be important for sink development and final crop yield. Two sucrose biosynthetic enzymes are believed to possess regulatory properties with respect to the rate of sucrose synthesis: (i) cytosolic FBPase and (ii) sucrose phosphate synthase. To study the impact of reduced photosynthetic sucrose biosynthesis on plant growth and crop yield a cDNA clone encoding cytosolic FBPase was isolated from a potato leaf cDNA library and used for antisansa experiments in transgenic potato plants. The cDNA clone cy-F1, containing an open reading frame of 1020 bp highly homologous (85%) to other known sequences of plant cytosolic FBPases, was cloned in reversed orientation between the 35S CaMV promoter and the octopine synthase polyadenylation signal. Out of 75 independent transformants five transgenic lines having 9 to 55 % of the wild-type FBPase activity were chosen for further analysis.A 45% reduction of the cytosolic FBPasa activity did not cause any measurable change in metabolite concentrations, growth behaviour or photosynthetic parameters of the transgenic plants. Inhibition of cytosolic FBPase activity below 20% of the wild-type activity led to an accumulation of 3-PGA, triose-phosphates and fructose-l,6-bisphosphete in source leaves. This resulted in a reduced light-saturated rate of assimilation measured via gas exchange and a decreased photosynthetic rate under conditions of the leaf disc electrode with saturating light and CO2. Measuring photosynthetic carbon fluxes by labelling leaf discs with 14C02 revealed a 53-65% reduction of sucrose synthesis whereas starch synthesis decreased only by 18-24%. The flux into the anionic and cationic

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Photosynthesis in Species of Flaveria CO2 Compensation Concentration, O2 Influence on Photosynthetic Gas Exchange and δ13C Values in Species of Flaveria (Asteraceae)

Apel¹,

Maass²

1981

Biochemie und Physiologie der Pflanzen

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The Moricandia syndrome in species of the Brassicaceae - evolutionary aspects

Apel¹,

Horstmann²,

Pfeffer³

1997

Photosynt.

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Hybrids between Brassica alboglabra and Moricandia arvensis and their Photosynthetic Properties

Apel

Bauwe

Ohle

1984

Biochemie und Physiologie der Pflanzen

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CO2-Kompensationspunkt und Blattanatomie bei Arten der Gattung Moricandia DC. (Cruciferae)

Apel¹,

Ohle²

1979

Biochemie und Physiologie der Pflanzen

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P. Apel

Reduction of the cytosolic fructose‐1,6‐bisphosphatase in transgenic potato plants limits photosynthetic sucrose biosynthesis with no impact on plant growth and tuber yield

Photosynthesis in Species of Flaveria CO2 Compensation Concentration, O2 Influence on Photosynthetic Gas Exchange and δ13C Values in Species of Flaveria (Asteraceae)

The Moricandia syndrome in species of the Brassicaceae - evolutionary aspects

Hybrids between Brassica alboglabra and Moricandia arvensis and their Photosynthetic Properties

CO2-Kompensationspunkt und Blattanatomie bei Arten der Gattung Moricandia DC. (Cruciferae)

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