Abstract
The olive tree (Olea europaea L.) is widely known for its strong tendency for alternate bearing, which severely affects the fruit yield from year to year. Microarray based gene expression analysis using RNA from olive samples (on-off years leaves and ripe-unripe fruits) are particularly useful to understand the molecular mechanisms influencing the periodicity in the olive tree. Thus, we carried out genome wide transcriptome analyses involving different organs and temporal stages of the olive tree using the NimbleGen Array containing 136,628 oligonucleotide probe sets. Cluster analyses of the genes showed that cDNAs originated from different organs could be sorted into separate groups. The nutritional control had a particularly remarkable impact on the alternate bearing of olive, as shown by the differential expression of transcripts under different temporal phases and organs. Additionally, hormonal control and flowering processes also played important roles in this phenomenon. Our analyses provide further insights into the transcript changes between ”on year” and “off year” leaves along with the changes from unrpipe to ripe fruits, which shed light on the molecular mechanisms underlying the olive tree alternate bearing. These findings have important implications for the breeding and agriculture of the olive tree and other crops showing periodicity. To our knowledge, this is the first study reporting the development and use of an olive array to document the gene expression profiling associated with the alternate bearing in olive tree.
Highlights
The olive (Olea europaea L., Oleaceae) is an evergreen tree that is largely distributed in the Mediterranean Basin
To identify the genes involved in the alternate bearing phenomenon, the transcript expression values were analyzed on the six olive tree sample sets
The miRNA associated to the developmental phase transition in the olive tree have been reported [16]
Summary
The olive (Olea europaea L., Oleaceae) is an evergreen tree that is largely distributed in the Mediterranean Basin. Its cultivated forms have been introduced into many areas [1], being one of the most economically important fruit crops in the world from a socioeconomical point of view, and due to the nutritional properties of the olive fruits and the olive oil derived from them. The olive oil has gained the label of ‘‘qualified health claim’’ for cardiovascular protection by the internationally recognized Food and Drug Administration (FDA) of the United States of America (USA) ,http://www.fda.gov/Food/LabelingNutrition/ LabelClaims/QualifiedHealthClaims/default.htm. Such claim considers the olive oil as a healthy medicine, due to its protective effect against cardiovascular diseases, being the third of such labels approved for a conventional food (after the hazelnut and omega-3 fatty acids) ,http://www.fda.gov/Food/LabelingNutrition/ LabelClaims/QualifiedHealthClaims/ucm072756.htm. The olive tree fields are important from an ecological point of view, being a source of biodiversity
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