Project description:In tomato, the mutants that lack the abscission zone (AZ) within pedicels are called a ‘jointless’ and are agronomically significant in that they increase the tomato fruit yield for industrial processing. We have employed DNA microarray expression analysis to identify genes with the potential to play a role in development of the pedicel abscission zone of tomato, and identified several classes of differentially regulated genes between pedicels of the AZ-forming line (wild-type) and pedicels of the non AZ-forming lines (jointless mutant and MC-suppressed transformant).

Project description:In tomato, the mutants that lack the abscission zone (AZ) within pedicels are called a ‘jointless’ and are agronomically significant in that they increase the tomato fruit yield for industrial processing. We have employed DNA microarray expression analysis to identify genes with the potential to play a role in development of the pedicel abscission zone of tomato, and identified several classes of differentially regulated genes between pedicels of the AZ-forming line (wild-type) and pedicels of the non AZ-forming lines (jointless mutant and MC-suppressed transformant). Tomato flower pedicels were harvested at anthesis stage from the AZ-forming line (wild-type) and the non AZ-forming lines (jointless mutant and MC-suppressed transformant), and subjected to DNA microarray analyses. Experiments were performed twice with independently prepared samples.

Project description:Organ abscission is a general activity found in plants and its regulation is an important agronomical concern because the trait directly affects the harvesting efficiency of fruits or grains and the yields. Generally, abscission takes place at a specialized cell layer, which is called abscission zones (AZs). So far, investigations on organ abscission have been focused mainly on the cell activities during organ detachment. By contrast, little attention has been paid to the properties of AZ cells at the pre-abscission stage. The pre-abscission cells are at a turning point for initiating abscission; until an abscission initiating signal is provided, the AZ cells keep their physiological state, while once the signal occurs, the cells immediately change their state into the onset of abscission. In this study, to screen the genes involved in the regulation of abscission at the pre-abscission state, we investigated the gene expression profiles of tomato flower pedicels at anthesis. The screening revealed many genes that characterize cell identities in each pedicel region. We harvested tomato flower pedicels at the anthesis stage and divided them into three parts: the abscission zone (AZ) and the flanking proximal- (Prox) and distal- (Dis) regions. RNA was isolated and subjected to DNA microarray analyses. Experiments were performed three times with independently prepared samples.

Project description:Organ abscission is a general activity found in plants and its regulation is an important agronomical concern because the trait directly affects the harvesting efficiency of fruits or grains and the yields. Generally, abscission takes place at a specialized cell layer, which is called abscission zones (AZs). So far, investigations on organ abscission have been focused mainly on the cell activities during organ detachment. By contrast, little attention has been paid to the properties of AZ cells at the pre-abscission stage. The pre-abscission cells are at a turning point for initiating abscission; until an abscission initiating signal is provided, the AZ cells keep their physiological state, while once the signal occurs, the cells immediately change their state into the onset of abscission. In this study, to screen the genes involved in the regulation of abscission at the pre-abscission state, we investigated the gene expression profiles of tomato flower pedicels at anthesis. The screening revealed many genes that characterize cell identities in each pedicel region.

Project description:Experiments were carried out in 2008 on 8-year-old apple trees (cv. Golden Delicious/M9) trained with standard horticultural practices at the experimental farm of the IASMA (Trento, Italy). Populations of fruits with different abscission potentials (abscising fruitlets versus persisting fruitlets), were established as described by Dal Cin et al. (2005, 2007, 2009), Angeli et al. (2002), and other preliminary experiments (unpublished data). Briefly, the abscising population was made up of lateral fruitlets treated with benzylaminopurine (BA) at 200 ppm (commercial name Brancher-Dirado), when fruits had an average size of 13 mm (about 15 days after petal fall, DAPF). The population of central persisting fruitlets was generated by removing all the laterals from each cluster at petal fall, and leaving exclusively the central flower that had been hand-pollinated at full bloom with compatible pollen (cv. Stark Red). Samples of the two populations were collected at defined time points from groups of twenty homogeneous trees randomly distributed in the orchard in four blocks. Fruits were collected and categorised into three classes of size (class 1, smaller fruits; class 2, medium fruits; class 3, bigger fruits), two classes related to the position within the clusters (lateral versus central fruits), and two classes on the base of the treatment (BA-treated versus untreated fruits). Fruits of the intermediate size (class 2 fruits in Figure 1) were not considered for sampling and subsequent molecular analyses, and only fruits of the two more divergent size classes 1 and 3 were kept. This resulted in a combined categorisation of fruits into 4 classes: 1) untreated lateral fruitlets, 2) lateral fruitlets treated with BA, 3) untreated central fruitlets, and 4) central fruitlets treated with BA (Figure 1). Each class was further distinguished into the two size categories 1 (small fruits) and 3 (bigger fruits), for a total of eight experimental theses. Fruitlet shedding and ethylene evolution were monitored throughout the physiological drop from the beginning of the experiments up to 46 DAPF in all fruitlet classes, separately. Seed and cortex (including epidermis) samples were collected from all classes of fruitlets at 0 (T0), 1 (T1), 2 (T2), 4 (T3), 6 (T4), and 8 (T5) days after the BA treatment from control and treated trees, and according to their position within the clusters (central vs lateral) and size (small vs big), as described. The latter parameter was decided at each sampling date based upon the mean cross diameter of the whole population of lateral fruits, calculated over a sample of 100 fruits measured randomly on twenty trees. The small ones had a cross diameter below the mean - s.d. (standard deviation), whereas the big ones had a cross diameter above the mean + s.d. Lateral fruitlets were collected from intact clusters showing a clear hierarchy in terms of fruit size (i.e. with a clearly distinguishable central fruit, bigger than any lateral). Acronyms were ascribed to samples according to the following code: the first letter(s) describes fruitlet position within the cluster and the presence of BA treatment (L=untreated lateral, C=untreated central, LB=treated lateral, CB=treated central), then a digit to describe the size (1=small, 3=big), and finally a digit to described the time point (0=time of the treatment, 1=1 day after treatment, 2=2 days after treatment, 3=4 days after treatment, etc.). For example, LB32 is a lateral fruit, treated with BA, big sized, 2 days after treatment.<br>For microarray hybridizations, only samples of T0, T2, and T3 were used.

Project description:Prunus avium pedicel-fruit abscission zone transcriptome

Project description:Versatile roles of REVOLUTA (REV), a Class III homeodomain-leucine zipper (HD-ZIP III) transcription factor, have been mainly depicted in Arabidopsis and Populus. In this study, we investigated the functions of its tomato homolog, namely SlREV. Over-expression of a microRNA166-resistant version of SlREV (35S::REVRis) not only resulted in vegetative abnormities such as curly leaves and fasciated stems, but also caused dramatic reproductive alterations including continuous production of flowers at pedicel abscission zone (AZ) and ectopic fruit formation on receptacles. Microscopic analysis showed that meristem-like structures continuously emerged out from the exodermises of pedicel AZs and ectopic carpels formed between the first and the second whorl of floral buds in 35S::REVRis plants. Therefore, we performed Illumina’s digital gene expression (DGE) system, a tag-based transcriptome sequencing methodTranscriptional data to dicover differential expressed genes in early buds (1-2 mm floral buds at stage 6-8) of overexpression line SlREVRis-1. The result suggests that SlREV may regulate genes related to meristem maintenance and cell differentiation in the development of flower pedicel abscission zone, and modulate genes in homodomain and MADS-box families and hormone pathways during fruit formation. These results reveal important roles of SlREV in tomato.

Project description:Apple pedicel vascular development array

Project description:Apple pedicel vascular development array

Project description:Comparison of seed of two different types of developing fruits in apple: central and lateral. Our objective is to find transcriptomic signatures that allow to explain the physiological drop of young lateral fruitlets Apple seeds transcriptomes were generated by deep sequencing by triplicate from seeds collected from central and lateral fruitlets at 20 days after petal fall (DAPF)