Abstract
Lettuce discolouration is a key post-harvest trait. The major enzyme controlling oxidative discolouration has long been considered to be polyphenol oxidase (PPO) however, levels of PPO and subsequent development of discolouration symptoms have not always correlated. The predominance of a latent state of the enzyme in plant tissues combined with substrate activation and contemporaneous suicide inactivation mechanisms are considered as potential explanations for this phenomenon. Leaf tissue physical properties have been associated with subsequent discolouration and these may be influenced by variation in nutrient availability, especially excess nitrogen and head maturity at harvest. Mild calcium and irrigation stress has also been associated with a reduction in subsequent discolouration, although excess irrigation has been linked to increased discolouration potentially through leaf physical properties. These environmental factors, including high temperature and UV light intensities, often have impacts on levels of phenolic compounds linking the environmental responses to the biochemistry of the PPO pathway. Breeding strategies targeting the PAL and PPO pathway biochemistry and environmental response genes are discussed as a more cost-effective method of mitigating oxidative discolouration then either modified atmosphere packaging or post-harvest treatments, although current understanding of the biochemistry means that such programs are likely to be limited in nature and it is likely that they will need to be deployed alongside other methods for the foreseeable future.
Highlights
Lettuce discolouration is a key post-harvest trait
Breeding strategies targeting the phenylalanine ammonia-lyase (PAL) and polyphenol oxidase (PPO) pathway biochemistry and environmental response genes are discussed as a more cost-effective method of mitigating oxidative discolouration either modified atmosphere packaging or post-harvest treatments, current understanding of the biochemistry means that such programs are likely to be limited in nature and it is likely that they will need to be deployed alongside other methods for the foreseeable future
Since it has been noted that the pigment resulting from PPO oxidation of polyphenolics is dependent on the initial substrate (Toivonen and Brummell 2008) it seems likely that the relative amounts of polyphenolic components downstream of PAL activity in the polyphenolic pathway may be important in determining the overall activity of PPO but the final pigmentation produced and the speed of discolouration development
Summary
The UK processed salad sector was valued at approximately £848 million in 2009 (Soininen 2009), with. 180 Page 2 of 16 underpinning UK lettuce (Lactuca sativa) production worth approximately £155 million and additional lettuce imports worth in excess of an additional £160 million in 2013 (Defra 2014) Much of this lettuce is purchased in ‘ready-to-eat’ pre-prepared salad packs of either lettuce or mixed salad containing lettuce (Soliva-Fortuny and Martın-Belloso 2003). The use of modified atmosphere packaging (MAP) can delay the development of cut-surface discolouration thereby extending product shelf life (Brecht et al 2003; Singh 2010) This is an added expense during processing and once MAP is opened, exposure to oxygen can lead to the rapid onset of discolouration (Tudela et al 2016), meaning product shelf life is reduced from the consumer perspective. The role of breeding strategies to develop cultivars with either reduced discolouration potential or delayed onset of discolouration phenotype is explored
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