Lilian Elena Duarte Silveira scite author profile

We are clarifying how the functional embryo growth occurs in germinating seeds of Solanum lycocarpum A. St.‐Hil., a nurse plant with a central role in forest dynamics in the Cerrado (a biodiversity hotspot). For that, we used classical seed germination measurements (germinability, mean germination time, mean germination rate, coefficient of variation of the germination time, synchronisation index and germination time range) and gene expression of mRNA codifying key proteins/enzymes for the success in the seed–seedling transition (Cyclin, Actin, Small Heat Shock Protein, Glutathione S‐transferase, Malate Dehydrogenase, Alcohol Dehydrogenase). Our findings demonstrate: (a) Although germination kinetics in S. lycocarpum seeds is slower than that in tomato seeds, the fold change of genes codifying key enzymes for the embryo development is similar in germinating seeds of both species. (b) The genes used here are useful, from a technical point of view, for classifying commercial seed samples of the species in relation to physiological quality. More notably, cyclin and malate dehydrogenase genes have a greater expression, both in germination sensu stricto and in immediate post‐germination. (c) A molecular framework for the embryo growth in germinating seeds of S. lycocarpum can be a functional explication for the species to be a nurse plant. Thus, the overlapping of classical and contemporary measurements is especially interesting to those species playing a central role in the environment, such as nurse plants, and may represent a new conservationist paradigm.

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An integrative insight on dormancy alleviation in diaspores of Urochloa humidicola (Rendle) Morrone & Zuloaga, a tropical grass with great economic and ecological impact

Ajala‐Luccas

Ribeiro‐Oliveira

Silveira

et al. 2017

Plant Biol J

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Even though exhaustively studied, dormancy alleviation in diaspores of Urochloa humidicola (Rendle) Morrone & Zuloaga remains a mystery. To clarify this, we asked the following question: could dormancy alleviation in diaspores of this species be associated with ageing, GA/ABA balance and remaining structures of the panicoid spikelet? We answer this question using diaspores of U. humidicola cv. BRS Tupi as a biological model, a cultivar with a wide edaphoclimatic range in Neotropical areas and whose diaspores possess 'deep dormancy' when dispersed. We analysed both germination and early plant development using a split-plot model. Our findings demonstrate that dormancy alleviation in diaspores of U. humidicola is a synergic phenomenon driven by crosstalk between age, GA/ABA balance and remaining structures of the panicoid spikelet covering caryopses, since this interaction acts on the dynamics of germination and early plant development. We demonstrate that: (i) spreading germination time is a maternal survival mechanism of this species, which has repercussions for occupational aggressiveness of the species; (ii) remaining structures of the panicoid spikelet covering caryopses are the main modulator of embryo development. These structures control the after-ripening process, which is modulated by some molecular factor. We also highlight that it is necessary to review concepts about dormancy of dispersal units in this grass species.

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Development of microsatellite markers for Pimenta pseudocaryophyllus (Myrtaceae), a wild South American species

Morgante

Sebastião

Silveira

et al. 2012

American J of Botany

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Clues on an intraspecific communication system in seed‐seedling transition

Ribeiro‐Oliveira

Silveira

Pinto

et al. 2021

Physiologia Plantarum

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How much interactivity is in a seed-seedling transition system? We hypothesize that seed-seed, seed-seedling, and seedling-seedling interactions can drive the early plant development in artificial growth systems directly due to mutual stimulation phenomena. To test the hypothesis, we performed seed germination measurements, gene expression in germination sensu stricto, water dynamics in germinating seeds, and information theory. For a biological model, we used Solanum lycocarpum A. St.-Hil. seeds. This is a neotropical species with high intraspecific variability in the seed sample. Our findings demonstrate that the dynamic and transient seed-seedling transition system is influenced by the number of individuals (seed or seedling) in the artificial system. In addition, we also discuss that: (1) the information entropy enables the quantification of system disturbance relative to individuals at the same physiological stage (seed-seed or seedling-seedling), which may be determinant for embryo growth during germination and (2) the intraspecific communication in seed-seedling transition systems formed by germinating seeds has the potential to alter the expression pattern of key genes for embryo development. Therefore, the phenomenon of mutual stimulation during the germination process can be an important aspect of seed-seedling transition, especially in laboratory conditions.

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Clues on an intraspecific communication system in early plant establishment: The seed-seedling transition from the point of view of a crosstalk between information theory and gene expression

Ribeiro‐Oliveira

Silveira

Pinto

et al. 2020

Preprint

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How much interactivity is there in a seed-seedling transition system? The answer for this question can reveal a key aspect for early plant establishment. Thus, we hypothesize that information entropy is correlated with early plant development because it is directly related to interactions between seed-seed, seed-seedling, and seedling-seedling. To test this hypothesis, we perform an overlapping of classical physiological measurements (embryo protrusion), gene expression in germination sensu stricto, water dynamics in germinating seeds and information theory. For a biological model, we used Solanum lycocarpum A. St.◻Hil. seeds. This is a Neotropical species with high intra-specific variability in the seed sample. Our finds demonstrate that the dynamic and transient seed-seedling transition system is influenced by the number of individuals (seed or seedling) in the sample, especially at a same physiological stage. In addition, we also discuss that: (i) information entropy enables the quantification of system disturbance relative to individuals in the same physiological stage (seed-seed or seedling-seedling), which may be determinant for embryo growth during germination. (ii) there is possible intraspecific communication in seed-seedling transition systems formed by germinating seeds with the potential to alter the pattern of embryonic development of the sample. In view of this, we suggest the use of information entropy as a tool for studies of biological systems to clarify the phenomenon of mutual stimulation in the germination process.

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