Please use this identifier to cite or link to this item: http://hdl.handle.net/10553/42208
Title: Analysis of ethylene-induced gene regulation during carposporogenesis in the red seaweed Grateloupia imbricata (Rhodophyta)
Authors: Garcia-Jimenez, Pilar 
Montero-Fernández, Montserrat
Robaina, Rafael R. 
UNESCO Clasification: 251001 Oceanografía biológica
251004 Botánica marina
Keywords: 1‐aminocyclopropane‐1‐carboxylic acid synthase
Carposporogenesis
Gene expression
Ornithine decarboxylase
Red seaweed, et al
Issue Date: 2018
Publisher: 0022-3646
Journal: Journal of Phycology 
Abstract: Ethylene favors carposporogenesis in the red seaweed Grateloupia imbricata. Analyses of cystocarp development invitro in thalli treated with ethylene suggest an interconnection between polyamine and ethylene biosynthesis pathways. Yet, little is known about molecular mechanisms underlying carposporogenesis. Here, we used droplet digital PCR to analyze genes encoding enzymes related to polyamine (Spermidine [Spd] synthase) and ethylene (ACC synthase) synthesis; a pivotal compound of both pathways (S-adenosyl methionine synthase, SAMS); the gene that encodes amine oxidase, which is involved in polyamine degradation, and a candidate gene involved in seaweed reproduction (ornithine decarboxylase, ODC). In addition, we analyzed genes encoding proteins related to stress and reactive oxygen species, ascorbate peroxidase (APX), cytochrome P450 and WD 40. We characterized gene expression in fertilized and fertile thalli from G.imbricata that were exposed to ethylene for 15min at two time points after treatment (1 and 7d). The differential gene expression of SAMS, Spd synthase, ACC synthase, and cytochrome P450 was related to disclosure and development of cystocarps in fertilized thalli that transitioned from having no visible cystocarps at 1d to developing cystocarps at 7d. Likewise, cytochrome P450 was associated with cystocarp disclosure and maturation. In addition, amine oxidase and APX were involved in fine-tuning polyamine and reactive oxygen species during carposporogenesis, respectively, whereas WD 40 did so in relation to ethylene signaling. Expression of the candidate gene ODC was increased when cystocarps were not visible (fertilized thalli, 1d), as previously described. This analysis suggests developmental stage-specific roles for these genes during carposporogenesis.
URI: http://hdl.handle.net/10553/42208
ISSN: 0022-3646
DOI: 10.1111/jpy.12762
Source: Journal of Phycology[ISSN 0022-3646],v. 54, p. 681-689
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