Tomato is one of the most important

Tomato is one of the most important horticultural crops both economically (Beckles et al., 2012) and as a genomics, molecular, biochemical, and physiological model for bio- logical processes occurring in fleshy fruits (Seymour et al., 2013). Like most subtropical fruit, tomato is susceptible to CI. Studies with tomato fruit could leverage existing functional genomics resources to pinpoint the molecular basis of this trait. To our knowledge, MRI has not been used to study CI in this species. We used the dwarf cultivar ‘Micro-Tom’ because it is the functional genomics model for tomato (Meissner et al., 1997). Its high-density growth, short life cycle and concentrated fruit-set (i.e., many fruit of a similar age) makes it possible to obtain harvests of 500 fruit or more per square meter per year (Meissner et al., 1997). Because tomato postharvest studies can be hampered by biological vari- ability (Hertog et al., 2004), the availability of numerous, similarly aged fruit makes Micro-Tom a convenient experimental model for postharvest studies (Gomez et al., 2009; Luengwilai et al., 2012a,b; Malacrida et al., 2006; Re et al., 2012; Sorrequieta et al., 2013; Vega- Garcia et al., 2010; Weiss and Egea-Cortines, 2009). Furthermore, we have previously characterized Micro-Tom fruit physiological response to a range of postharvest chilling temperature-time com- binations (Luengwilai et al., 2012a), and used this information to design a metabolomics investigation of CI (Luengwilai et al., 2012b). This has established a baseline with this cultivar for the further CI studies we exploit here.