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Absorption of Iron by Enzymically Isolated Leaf Cells (1967)

Kannan, S. ; Wittwer, S. H.

Oxford, UK : Blackwell Publishing Ltd

Physiologia plantarum 20 (1967), S. 0

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ISSN: 1399-3054

Source: Blackwell Publishing Journal Backfiles 1879-2005

Topics: Biology

Notes: Iron uptake was studied using cells enzymically isolated from green tobacco leaves. Absorption was increased both by light and succinate as probable energy sources. Bicarbonate in the incubation mixture was inhibitory, and citrate also reduced absorption presumably by chelation with the metal. Absorption of iron was temperature sensitive and optimal at 25°C. Temperature coefficients and activation energies suggested that absorption was energy mediated. NaN3 and DNP inhibited uptake at concentrations of 10-3M and 10−4M, respectively. The inhibition caused by DNP was not negated by an external supply of ATP. The results suggest that iron absorption is an active metabolic process in cells enzymically isolated from green tobacco leaves.Cells from Fe-chlorotic leaves of PI 54619–5–1 soybean absorbed less iron than those derived from healthy leaves of the same variety, while leaf cells from the variety Hawkeye showed no such differences.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1111/j.1399-3054.1967.tb08378.x

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Ion absorption by leaves (1967)

Kannan, S. ; Wittwer, S. H.

Springer

Naturwissenschaften 54 (1967), S. 373-373

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ISSN: 1432-1904

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Chemistry and Pharmacology , Natural Sciences in General

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00636649

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Foliar absorption — penetration of the cuticular membrane and nutrient uptake by isolated leaf cells (1967)

Wittwer, S. H. ; Bukovac, M. J. ; Jyung, W. H. ; [et al.]

Springer

Plant foods for human nutrition 14 (1967), S. 105-120

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ISSN: 1573-9104

Source: Springer Online Journal Archives 1860-2000

Topics: Agriculture, Forestry, Horticulture, Fishery, Domestic Science, Nutrition

Description / Table of Contents: Zusammenfassung Blattabsorption erfolgt durch Eindringen in Kutikularschichten der Membran und durch Aufnahme durch die lebenden Zellen innerhalb des Blattes. Eine detaillierte Analyse der Nährstoffabsorption nach diesen beiden Systemen zeigte, daß die Ionen-Aufnahme über die Kutikularmembran durch Diffusion und daß die Koppelung des aktiven Transports mit dem Stoffwechsel im Zellbereich erfolgt. Harnstoff dringt durch die Kutikularmembran ein und wird viel schneller als Nährstoff-Ionen durch die Blattzellen absorbiert. Weiterhin erleichtert Harnstoff das Eindringen und die Absorption anderer, gleichzeitig applizierter Substanzen. Die Fixierung der Eindringungsstelle von Nährstoff-Ionen in Kutikularmembrane wurde durch Mikroautoradiographie ermittelt. Das Eindringen erfolgt um die Stomata-Öffnungen und entlang der periklinalen Zellwände. Metallgelate von Eisen, Mangan und Zink mindern die Zellabsorption, vermehren aber die Translokation der absorbierten Nährstoffe. Im Bereich der Zellen werden Nährstoff-Ionen absorbiert, aber Verbindungen ausgeschlossen.

Abstract: Résumé L'absorption foliaire consiste en une pénétration à travers la membrane cuticulaire, et l'assimilation par les cellules vivantes à l'intérieur de la feuille. Une analyse détaillée de l'absorption des éléments nutritifs par ces deux systèmes a révélé que la pénétration des ions à travers la membrane cuticulaire se fait par diffusion, et que le couplage entre le transport actif et le métabolisme se fait au niveau cellulaire. L'urée pénètre à travers la membrane cuticulaire et est absorbée par les cellules de la feuille beaucoup plus rapidement que ne le sont les ions nutritifs. D'autre part l'urée facilite la pénétration et l'absorption d'autres substances appliquées simultanément. La pénétration des ions nutritifs à travers la membrane cuticulaire a été localisée par microautoradiographie comme se faisant autour des pores stomatiques, et le long des parois des cellules périclinales. La chélation de métaux tels que fer, manganèse, zinc, réduit la vitesse d'absorption foliaire mais augmente la vitesse de transport de l'ion nutritif absorbé. Au niveau de la cellule, l'ion nutritif est absorbé, et le complexant est exclu.

Notes: Summary Foliar absorption consists of penetration of a cuticular membrane and uptake by living cells within the leaf. A detailed analysis of nutrient absorption by these two systems has revealed that ionic penetration of the cuticular membrane is by diffusion, and that the coupling between active transport and metabolism is at the cellular level. Urea penetrates the cuticular membrane and is absorbed by leaf cells much more rapidly than are nutrient ions. Furthermore, urea facilitates penetration and absorption of other materials simultaneously applied. Penetration of nutrient ions through cuticular membranes has been localized by microautoradiography as occurring around stomatal pores and along periclinal cell walls. Chelation of metals such as iron, manganese and zinc reduces the rate of foliar absorption, but increases the translocation of the absorbed nutrient. At the cellular level the nutrient ion is absorbed and the ligand is excluded.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF02411572

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