RiPP-ing through the plant kingdom

Abstract While different biosynthetic groups of secondary metabolites (micromolecules) rarely accumulate in the same plant species, one such group may replace another in morphologically related taxa. The use of micromolecules as general systematic markers of the plant kingdom thus requires unifying postulates concerning their evolution patterns. Two such postulates — contraction of the shikimate pathway and blocking of oxidative enzymes — are illustrated with the aid of systematic considerations on the genera Aniba (Lauraceae) and Derris-Lonchocarpus (Leguminosae) which involve besides chemistry, morphology, ecology and geography. Extrapolation of the principles applied in these examples to the entire plant kingdom seems possible, an important fact, due to the ecological implications of micromolecules. In this sense, the paper opens the way, rather than simply to a more "natural" classification, to an information retrieval device of ecologically relevant facts about plants.

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The Plant Kingdom

Plants That Fight Cancer ◽

10.1201/9780429056925-2 ◽

2019 ◽

pp. 25-51

Author(s):

Spyridon E. Kintzios

Keyword(s):

Plant Kingdom

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Networks of Function and Shared Ancestry Provide Insights into Diversification of Histone Fold Domain in the Plant Kingdom

Complex Networks and Their Applications VIII - Studies in Computational Intelligence ◽

10.1007/978-3-030-36683-4_63 ◽

2019 ◽

pp. 789-801

Author(s):

Amish Kumar ◽

Gitanjali Yadav

Keyword(s):

Plant Kingdom ◽

Histone Fold ◽

Histone Fold Domain ◽

Shared Ancestry

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Nonsymbiotic haemoglobins in plants.

Acta Biochimica Polonica ◽

10.18388/abp.1999_4175 ◽

1999 ◽

Vol 46 (2) ◽

pp. 431-445 ◽

Cited By ~ 17

Author(s):

A W Sowa ◽

P A Guy ◽

S Sowa ◽

R D Hill

Keyword(s):

Temporal Pattern ◽

Globin Genes ◽

Regulation Of Expression ◽

Oxygen Stress ◽

Physiological Functions ◽

Plant Kingdom ◽

General Aspects

General aspects regarding the presence of nonsymbiotic haemoglobin in plants are presented with the emphasis on those related to its function. As it becomes apparent that the nonsymbiotic haemoglobins are widespread across the plant kingdom and that they represent a more primitive and evolutionary older form of the plant globin genes, the question of their function becomes more attractive. While the physiological functions of the symbiotic haemoglobins in plants are well understood, almost nothing is known about their nonsymbiotic predecessors. Therefore, the known and hypothetical functions of haemoglobins in various systems are described along with information concerning properties and the regulation of expression of the nonsymbiotic haemoglobins. Interestingly, a number of nonsymbiotic haemoglobins have been shown to be hypoxia-inducible. The spatial and temporal pattern of this induction in barley may suggest that it is an integral part of the plants response to limiting oxygen stress.

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