Abstract
BackgroundIn citrus the transition from juvenility to mature phase is marked by the capability of a tree to flower and fruit consistently. The long period of juvenility in citrus severely impedes the use of genetic based strategies to improve fruit quality, disease resistance, and responses to abiotic environmental factors. One of the genes whose expression signals flower development in many plant species is FLOWERING LOCUS T (FT).ResultsIn this study, gene expression levels of flowering genes CiFT1, CiFT2 and CiFT3 were determined using reverse-transcription quantitative real-time PCR in citrus trees over a 1 year period in Florida. Distinct genotypes of citrus trees of different ages were used. In mature trees of pummelo (Citrus grandis Osbeck) and ‘Pineapple’ sweet orange (Citrus sinensis (L.) Osbeck) the expression of all three CiFT genes was coordinated and significantly higher in April, after flowering was over, regardless of whether they were in the greenhouse or in the field. Interestingly, immature ‘Pineapple’ seedlings showed significantly high levels of CiFT3 expression in April and June, while CiFT1 and CiFT2 were highest in June, and hence their expression induction was not simultaneous as in mature plants.ConclusionsIn mature citrus trees the induction of CiFTs expression in leaves occurs at the end of spring and after flowering has taken place suggesting it is not associated with dormancy interruption and further flower bud development but is probably involved with shoot apex differentiation and flower bud determination. CiFTs were also seasonally induced in immature seedlings, indicating that additional factors must be suppressing flowering induction and their expression has other functions.
Highlights
In citrus the transition from juvenility to mature phase is marked by the capability of a tree to flower and fruit consistently
This study provided some insight into expression patterns for several genes involved in flowering activity, yet no conclusive patterns were established for citrus trees under field conditions
To investigate the expression patterns of genes involved in the flowering process of young and mature citrus trees in Florida, Messenger ribonucleic acid (mRNA) was extracted from representative samples of different species and ages and used in a quantitative real-time polymerase chain reaction (RT-qPCR) study
Summary
In citrus the transition from juvenility to mature phase is marked by the capability of a tree to flower and fruit consistently. Floral development occurs in the shoot apical meristem; Pajon et al BMC Plant Biology (2017) 17:146 extensively studied and their roles are clearly understood [4] The homologues of these flowering genes in perennial trees such as Citrus provide the foundation to further explore why the juvenility period among citrus species differs so greatly and to what extent seasonality affects genetic expression profiles. Important citrus cultivars such as ‘Pineapple’ sweet orange (Citrus sinensis (L.) Osbeck) and pummelo (Citrus grandis Osbeck) are known to have long juvenility periods and seasonal flowering in Florida, underscoring that these are two separate but related processes For these species of citrus, molecular mechanisms involved in the onset of flowering have yet to be characterized. Most such studies to date have been conducted in mandarins in Japan under climatic conditions that are quite different from those in Florida [6]
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