Early histological, hormonal, and molecular changes during pineapple (Ananas comosus (L.) Merrill) artificial flowering induction

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• 作者：Maita Eulalia Á ; vila Espinosa^a ; Rafael Oliveira Moreira^b ; André ; Almeida Lima^b ; Solange Aparecida Sá ; gio^c ; Horllys Gomes Barreto^d ; Sara Lazara Pé ; rez Luiz^a ; Carlos Eduardo Aragó ; n Abreu^e ; Ermis Yanes-Paz^e ; Yanelis Capdesuñ ; er Ruí ; z^e ; Justo Lorenzo Gonzá ; lez-Olmedo^e ; Antonio Chalfun-Jú ; nior^b ; ^{chalfunjunior@dbi.ufla.br}
• 关键词：ACC ; 1-aminocyclopropane-1-carboxylic acid ; ACS ; ACC synthase ; ACO ; ACC oxidase ; GA2-Ox ; gibberellin-2-oxidase ; GA3 ; gibberellic acid ; HAT ; hours after treatment ; RT-qPCR ; quantitative RT-PCR
• 刊名：Journal of Plant Physiology
• 出版年：2017
• 出版时间：February 2017
• 年：2017
• 卷：209
• 期：Complete
• 页码：11-19
• 全文大小：1400 K
• 卷排序：209

文摘

Natural flowering can cause serious scheduling problems in the pineapple (Ananas comosus) industry and increase harvest costs. Pineapple flowering is thought to be triggered by increased ethylene levels and artificial forcing of pineapple flowering is a common practice to promote flowering synchronisation. However, little is known about the early hormonal and molecular changes of pineapple flowering induction and development. Here, we aimed to analyse the molecular, hormonal, and histological changes during artificial pineapple flowering by Ethrel®48 treatment. Histological analyses of the shoot apical meristem, leaf gibberellic acid (GA3), and ethylene quantification were carried out during the first 72 h after Ethrel®48 treatment. Expression profiles from ethylene biosynthesis (AcACS2 and AcACO1), gibberellin metabolism (AcGA2-ox1 and AcDELLA1), and flower development (FT-like gene (AcFT), LFY-like gene (AcLFY), and a PISTILLATA-like gene (AcPI)) genes were analysed during the first 24 h after Ethrel®48 treatment. Differentiation processes of the shoot apical meristem into flower buds were already present in the first 72 h after Ethrel®48 treatment. Ethrel®48 lead to a reduction in GA3 levels, probably triggered by elevated ethylene levels and the positive regulation AcGA2-ox1. AcLFY activation upon Ethrel®48 may also have contributed to the reduction of GA3 levels and, along with the up-regulation of AcPI, are probably associated with the flower induction activation. AcFT and AcDELLA1 do not seem to be regulated by GA3 and ethylene. Decreased GA3 and increased ethylene levels suggest an accumulation of AcDELLA1, which may display an important role in pineapple flowering induction. Thus, this study shows that molecular, hormonal, and histological changes are present right after Ethrel®48 treatment, providing new insights into how pineapple flowering occurs under natural conditions.