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Kandler Kandler (1953b)
Untersuchungen über die Wirkung von 2,4‐Dichloro phenoxyessigsäurc. α‐Naphtylessigsäurt. Natriumfluorid und Vitamin B, auf den Stoffwechsel in vitro kultivierter Maiswur zelnPlanta, 42
F. Vries, A. Brunsting, H. Laar (1974)
Products, requirements and efficiency of biosynthesis: a quantitative approach.Journal of theoretical biology, 45 2
D. Northcote (1972)
Chemistry of the Plant Cell WallAnnual Review of Plant Biology, 23
R. Lagunas (1976)
Energy metabolism of Saccharomyces cerevisiae discrepancy between ATP balance and known metabolic functions.Biochimica et biophysica acta, 440 3
Northcote Northcote (1972)
Chemistry of the plant cell wallAnnu. Rev. Plant Physiol., 23
Wolswinkel Wolswinkel (1975)
Recente ontwikkelingen in het floeemtransport‐onderzoekVakbl. Biol., 21
J. Bahr, W. Bonner (1973)
Cyanide-insensitive respiration. II. Control of the alternate pathway.The Journal of biological chemistry, 248 10
Kandler Kandler, Eberle Eberle (1955)
Ü die Abhängigkeit des synthetischen Wirkungsgrades in vitro kultivierter Embryonen von verschiedenen AussenfaktorenPlanta, 45
Pitman Pitman (1977)
Ion transport into the xylemAnnu. Rev. Plant Physiol., 28
O. Kandler (1953)
Über den „Synthetischen Wirkungsgrad“ in vitro kultivierter Embryonen, Wurzeln und SprosseZeitschrift für Naturforschung B, 8
Stouthamer Stouthamer (1973)
A. theoretical study on the amount of ATP required for synthesis of microbial cell materialAnthony van Leeuwenhoek, 39
Kandler Kandler (1955)
Consideration of energetics in tissue cultureAnn. Biol., 31
H. Lambers (1976)
Respiration and NADH-Oxidation of the Roots of Flood-Tolerant and Flood-Intolerant Senecio Species as Affected by AnaerobiosisPhysiologia Plantarum, 37
R. Brown, J. Possingham (1957)
Iron deficiency and the growth of pea rootsProceedings of the Royal Society of London. Series B - Biological Sciences, 147
Penning de Vries Penning de Vries, Brunsting Brunsting, Laar Laar (1974)
Products, requirements and efficiency of biosynthetic processes: a quantitative approachJ. Theor. Biol., 45
Hoagland Hoagland, Snijder Snijder (1933)
Nutrition of strawberry plant under controlled conditionsProc. Am. Soc. Hortic. Sci., 30
P. Matsumura, R. Marquis (1977)
Energetics of Streptococcal Growth Inhibition by Hydrostatic PressureApplied and Environmental Microbiology, 33
Lance Lance, Chauveau Chauveau (1975)
Evolution des activités oxydatives et phosphorylantes des mitochondries de l'Arum maculatum L. au cours du dévelopment de l'inflorescencePhysiol. Vég., 13
Turner Turner, Turner Turner (1975)
The regulation of carbohydrate metabolismAnnu. Rev. Plant Physiol., 26
M. Dalling, N. Tolbert, R. Hageman (1972)
Intracellular location of nitrate reductase and nitrite reductase. II. Wheat roots.Biochimica et biophysica acta, 283 3
N. Blumenkrantz, G. Asboe-hansen (1973)
New method for quantitative determination of uronic acids.Analytical biochemistry, 54 2
A. Turner, D. Turner (1975)
The Regulation of Carbohydrate MetabolismAnnual Review of Plant Biology, 26
H. Challa (1977)
An analysis of the diurnal course of growth, carbon dioxide exchange and carbohydrate reserve content of cucumber
Busse Busse, Kandler Kandler (1956)
Uber die Wirkungen der β‐Indolessigsäure auf den Stoffwechsel von AvenakoleoptilenPlanta, 46
Lambers Lambers, Smakman Smakman (1978)
The significance of oxygen transport and of metabolic adaptation in flood‐tolerance of Senecio speciesIbid., 43
Lambers Lambers, Smakman Smakman (1978)
Respiration of the roots of flood‐tolerant and flood‐intolerant Senecio species: affinity for oxygen and resistance to cyanideIbid., 42
Lambers Lambers, Steingröver Steingröver (1978)
Efficiency of root respiration of a flood‐tolerant and a flood‐intolerant Senecio species as affected by low oxygen tensionIbid., 42
B. Mangat, W. Levin, R. Bidwell (1974)
The extent of dark respiration in illuminated leaves and its control by ATP levelsBotany, 52
Simonis Simonis, Urbach Urbach (1973)
Photophosphorylation in vivoAnnu. Rev. Plant Physiol., 24
W. Simonis, W. Urbach (1973)
Photophosphorylation In VivoAnnual Review of Plant Biology, 24
T. Chen, R. Brown, C. Black (1969)
Photosynthetic Activity of Chloroplasts Isolated From Bermudagrass (Cynodon dactylon L.), a Species With a High Photosynthetic Capacity.Plant physiology, 44 5
A. Jolliot, C. Demandre, P. Mazliak (1976)
Adenosine Triphosphatases Bound to Plasmalemma, Mitochondria, and Microsomes or Present in the Cytoplasmic Phase from Potato TubersPhysiologia Plantarum, 38
D. Chevallier, R. Douce, F. Nurit (1977)
Interactions entre mitochondries et chloroplastes dans la cellule. II. Action du DBMIB, de l'antimycine A et du FCCP sur la spore de Funaria hygrometricaBotany, 55
Kandler Kandler, Eberle Eberle (1955)
Über den Einfluss von α‐Parachlor phenoxyisobuttersaure auf den Stoffwechsel in vitro kultivierter MaiswurzelnPhyton, 4
J. Raven (1976)
THE RATE OF CYCLIC AND NON‐CYCLIC PHOTOPHOSPHORYLATION AND OXIDATIVE PHOSPHORYLATION, AND REGULATION OF THE RATE OF ATP CONSUMPTION IN HYDRODICTYON AFRICANUMNew Phytologist, 76
M. Pitman (1977)
ION Transport into the XylemAnnual Review of Plant Biology, 28
Chevallier Chevallier, Douce Douce (1976)
Interactions between mitochondria and chloroplasts in cells. I. Action of cyanide and of 3‐(3,4‐dichlorophenyl) 1,1‐dimethylurea on the spore of Funaria hygrometricaIbid., 57
Root growth respiration of Senecio aquaticus Hill (flood‐tolerant) and Senecio jacobaea L. (flood‐sensitive) was calculated, assuming different P: O ratios. The growth respiration values were calculated on the basis of the chemical composition of root and shoot dry matter, in combination with published data on the energy costs of biosynthetic and transport processes. The comparison between calculated and experimental values suggests a relatively low efficiency of ATP utilization in the roots of the flood‐tolerant species. Root growth respiration of S. congestus (R.Br.)DC., which is also flood‐tolerant, and Plantago lanceolata L. were also determined. The data showed that not all the flood‐tolerant species investigated had high root growth respiration values. An “overflow model’ is proposed to explain observed differences in root growth respiration between species.
Physiologia Plantarum – Wiley
Published: Jul 1, 1978
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