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Zhao J, Zhu WH, Hu Q, He XW (2000c) Improved indole alkaloid production in
Catharanthus
roseus
suspension cell cultures by various chemicals. Biotechnol Lett 22:1221-1226
Zhao J, Hu Q, Zhu WH (2001a) Enhanced catharanthine production in
Catharanthus roseus
cell
cultures by combined elicitor treatment in shake flasks and bioreactors. Enzyme Microb Tech-
nol 28:673-681
Zhao J, Hu Q, Guo Y-Q, Zhu W-H (2001b) Elicitor-induced indole alkaloid biosynthesis in
Catharanthus roseus
cell cultures is related to Ca
2
+
influx and the oxidative burst. Plant Sci
161:423-431
Zhao J, Hu Q, Guo YQ, Zhu WH (2001c) Effects of stress factors, bioregulators and precursors on
indole alkaloid production in the compact callus clusters culture of
Catharanthus roseus
. Appl
Microbiol Biotechnol 55:693-698
Zhao J, Hu Q, Zhu WH (2001d) Selection of fungal elicitors to increase inadole alkaloid accumu-
lation in
Catharanthus roseus
suspension cell cultures. Enzyme Microb Technol 28:666-672
Zhao J, Zhu WH, Hu Q, Guo YQ (2001e) Compact callus cluster suspension cultures of
Catharan-
thus
roseus
with enhanced indole alkaloid biosynthesis.
In-vitro
Cell Dev Biol Plant 37:68-72
Zheng Z, Wu M (2004) Cadmium treatment enhances the production of alkaloid secondary me-
tabolites in
Catharanthus roseus
. Plant Sci 166:507-514
Zimmermann S, Frachisse JM, Thomine S, Barbier-Brygoo H, Guern J (1998) Elicitor-induced chlo-
ride efflux and anion channels in tobacco cell suspensions. Plant Physiol Biochem 36:665-674
Zuccarini P (2009) Tropospheric ozone as a fungal elicitor. J Biosci 34:125-138
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