IngentaConnect The Growth Response of the Stems of Genetically Modified Tobacco ...

Authors: HEPWORTH D.G.; VINCENT J.F.V.

Source: Annals of Botany, Volume 83, Number 1, January 1999 , pp. 39-43(5)

Abstract:

Genetically modified tobacco plants (Nicotiana tabacum‘Samsun’) with antisense cinnamyl alcohol dehydrogenase DNA, produce secondary xylem of a reduced tensile stiffness. These plants were grown alongside control plants. The stems of the plants were flexed or protected from flexing over a period of several weeks. The tensile moduli and second moments of areas of the different tissues inside the stems were measured and used to calculate the bending stiffness of the plants. In tobacco, the cylinder of xylem was found to be the most important tissue in determining the bending stiffness of the plants. The thickness of the xylem tissue cylinder increased when plants were subjected to flexural stimulation. This increased the bending stiffness of the stems. The response to mechanical stimulation was found to be correlated with tissue strain and the genetically modified plants were able to exactly compensate for the reduced modulus of their xylem tissue by increasing the thickness of the xylem tissue cylinder more than in control plants. Copyright 1999 Annals of Botany Company.

Language: English

Document Type: Research article

Affiliations: Centre for Biomimetics, The University of Reading, 1 Earley Gate, Reading, RG6 6AT, UK:

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The Growth Response of the Stems of Genetically Modified Tobacco Plants (Nicotiana tabacum ‘Samsun’) to Flexural Stimulation