increases in cytoplasm that is resp

increases in cytoplasm that is responsible for browning; (4)
phenols accumulated in vacuoles leak to cytoplasm due to loss of
vacuole membrane (tonoplast) selective permeability and contribute
to browning incidence, an effect influenced by PAL activity
(Sevillano et al., 2009). PAL as a key enzyme in the phenyl-
propanoid pathway catalyzing the conversion of phenylalanine to
trans-cinnamic acid. PAL connects primary metabolism (shikimic
acid pathway) with secondary metabolism (phenylpropanoids
pathway) (Dixon and Paiva, 1995). Meng et al. (2009) reported that
the phenolics have dual function,
firstly phenolics can be oxidized
by PPO, which leads to browning, as the main CI symptom in
horticultural crops and secondly phenols, which accumulate in
horticultural crops in response to chilling stress, have antioxidant
capacity. Chen et al. (2008) reported that heat pretreatment (38
C
for 2 days) mitigated CI in banana fruit during storage at 8
C.
Mitigation of CI was determined by a reduction of electrolyte
leakage and MDA content and heat treatment increased PAL gene
expression and enzyme activity, increasing TP content. It was
suggested that higher TP might enhance CI tolerance in banana
fruit. Aghdam et al. (2012) reported that the brassinosteroids (BRs)
treatment mitigated CI in tomato fruit, which was accompanied
with the reduction of electrolyte leakage and MDA content and the
increase of proline content. Aghdam et al. (2012) showed that BRs
treatment enhanced PAL enzyme activity which led to total phenol
accumulation.