Alan R. Hemsley scite author profile

The composition of sporopollenin and its use in living and fossil plant systematics.-Grana 1993; Suppl. 1: 2-1 I. Previous investigations of sporopollenin using ''C Solid State Nuclear hiagnetie Resonance have demonstrated differences between the major groups of plants in the composition of this acetolysisresistant biomacromolecule. The work presented here corroborates these results and suggests that sporopollenin obtained from seed megaspore-membranes differs slightly from that of pollen from the same plant group. Spectra obtained using NhlR have bcen subjected to multivariate analysis. This approach has provided information which may bc interpreted in phylogenetie terms. A number of fossil sporopollenins have also been investigated. These all show considerable degradation through diagenesis but retain certain characteristics of the original sporopollenin composition. hlicrospores and megaspores from the same species of Carboniferous arborescent lycopsid have also been investigated with a view to discerning any differences in composition that may exist between these sources of sporopollenin in the fossil record. Investigation of the effects of acetolysis on spore walls has also been undertaken. Together with the above work, this contributes to our understanding of the chemical composition of sporopollenins and the way in which this substance is affected by a treatnient commonly used in the preparation of exines.

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Studies of Fossil and Modern Spore Wall Biomacromolecules using13C Solid State NMR

Hemsley

Scott

Barrie

et al. 1996

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Alan R. Hemsley

Merging concepts: The role of self-assembly in the development of pollen wall structure

Exine development: the importance of looking through a colloid chemistry ``window''

The Composition of Sporopollenin and its use in Living and Fossil Plant Systematics

Studies of Fossil and Modern Spore Wall Biomacromolecules using13C Solid State NMR

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