Influence of acetyl salicylic acid in combination with fish protein hydrolysates on hyperhydricity reduction and phenolic synthesis in oregano (Origanum vulgare) tissue cultures
N. Andarwulan et K. Shetty, Influence of acetyl salicylic acid in combination with fish protein hydrolysates on hyperhydricity reduction and phenolic synthesis in oregano (Origanum vulgare) tissue cultures, J FOOD BIOC, 23(6), 1999, pp. 619-635
Tissue culture-generated shoot-based clonal lines of oregano are being used
to investigate the role of proline-linked pentose phosphate pathway in sti
mulating the phenolic antioxidant, rosmarinic acid (RA) and lignification,
which was reported to be linked to guaiacol peroxidase (GPX) activity. One
of the problems in oregano tissue culture is hyperhydricity and modificatio
ns of media are being used to control this physiological malformation. This
study reports the reduction of hyperhydricity, stimulation of RA biosynthe
sis and lignification in oregano clonal line O-1 and O-5 in response to ace
tyl salicylic acid (ASA), fish protein hydrolysate (FPH, standardized macke
rel hydrolysates) and combination of FPH and ASA (FPH/ASA). All treatments
reduced hyperhydricity of both clonal lines compared to control. Following
exogenous treatment with ASA and FPH/ASA, enhanced total phenolic content,
RA content and concurrently higher levels of GPX activity were observed com
pared to control and FPH treatments. The concentration of total phenolics a
nd RA as well as GPX activity in O-5 clonal line was higher than in O-1 clo
nal line either on day 15 or day 30. Antioxidant activity of the phenolic e
xtracts of all cultures was high on day 30 compared to day 15 and FPH/ASA t
reatment had the highest activity on both days. The concentration of chloro
phyll in O-1 was higher than in O-5 and the concentration in both lines wer
e similar in response to respective treatments. The stimulation of RA synth
esis in response to ASA and FPH/ASA provided strong clues that ASA can be u
sed as an abiotic elicitor for RA stimulation and mobilization of proline a
nd/or glutamic acid in FPH and this may be linked to stimulation of the pen
tose phosphate pathway, driving key precursor metabolites towards shikimate
and phenylpropanoid pathways. RA-stimulating compounds also enhanced total
phenolics and hardened stem tissues, which correlated with higher GPX acti
vity, indicating possible lignification due to polymerization of phenolic m
etabolites. This research also provides strategies to prevent hyperhydricit
y in tissue culture by ASA and combination of FPH/ASA and these were linked
to lignification, high levels of total phenolics and RA. This improvement
is important for efficiency and quality of in vitro plant tissue propagatio
n and outdoor transplanting of elite phenolic antioxidant-producing oregano
cultures. This research also provides insight into regulation of rosmarini
c acid, a phenolic antioxidant relevant for food preservative applications.