Donatella Serafini-Fracassini scite author profile

Corolla life span of undetached flowers of Nicotiana tabacum was divided into stages from the closed corolla (stage 1) through anthesis (stage 5) to death (stage 9). Senescence began around stage 6 in the proximal part, concomitantly with DNA laddering. Nuclear blebbing, DNA laddering, cell wall modification, decline in protein, water, pigment content and membrane integrity were observed during senescence and PCD. Transglutaminase activity was measured as mono-and bis-derivatives of putrescine (mono-PU; bis-PU) and bis-derivatives of spermidine (bis-SD). Bis-derivatives decreased with the progression of senescence, while mono-PU increased during early senescence; derivatives were present in different amounts in the proximal and distal parts of the corolla. In excised flowers, exogenous spermine delayed senescence and PCD, and caused an increase in free and acid-soluble conjugated PA levels. Bis-PU was the most abundant PA-derivative before DNA laddering stage; thereafter, bis-PU generally decreased and mono-PU became the most abundant derivative.

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Identification of chlorophyll-a/b proteins as substrates of transglutaminase activity in isolated chloroplasts of Helianthus tuberosus L.

Duca

Tidu

Bassi

et al. 1994

Planta

115

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Endogenous substrates of transglutaminase (TGase; EC 2.3.2.13) have been identified in choloroplasts of Helianthus tuberosus leaves. The activity of TGase is Ca 2+-and light-stimulated and catalyzes the incorporation of polyamines into thylakoid and stromal proteins. These proteins were separated by two-dimensional gel electrophoresis (first dimension: Deriphat-PAGE; second dimension: SDS-urea-PAGE) and Western-blotted. The thylakoid proteins were recognized by polyclonal antibodies as apoproteins of the chlorophyll-a/b antenna complex (LHCII, CP24, CP26 and CP29); a stromal protein was recognized by antibodies as the large subunit of ribulose-l,5-bisphosphate carboxylase/oxygenase. A possible localization of the acyl donor site for CP26 is proposed. A comparative analysis of polyamine incorporation into trichloroacetic-acid-precipitable material indicated that spermidine was a preferential acyl-acceptor substrate with respect to putrescine, even though the above-reported substrates are the same. The nature of the substrates, together with the light stimulation, support the working hypothesis of a possible role of TGase in regulating the light-harvesting function.

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Polyamines in Pollen: From Microsporogenesis to Fertilization

et al. 2016

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The entire pollen life span is driven by polyamine (PA) homeostasis, achieved through fine regulation of their biosynthesis, oxidation, conjugation, compartmentalization, uptake, and release. The critical role of PAs, from microsporogenesis to pollen–pistil interaction during fertilization, is suggested by high and dynamic transcript levels of PA biosynthetic genes, as well as by the activities of the corresponding enzymes. Moreover, exogenous supply of PAs strongly affects pollen maturation and pollen tube elongation. A reduction of endogenous free PAs impacts pollen viability both in the early stages of pollen development and during fertilization. A number of studies have demonstrated that PAs largely function by modulating transcription, by structuring pollen cell wall, by modulating protein (mainly cytoskeletal) assembly as well as by modulating the level of reactive oxygen species. Both free low-molecular weight aliphatic PAs, and PAs conjugated to proteins and hydroxyl-cinnamic acids take part in these complex processes. Here, we review both historical and recent evidence regarding molecular events underlying the role of PAs during pollen development. In the concluding remarks, the outstanding issues and directions for future research that will further clarify our understanding of PA involvement during pollen life are outlined.

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