Tissue-Specific Expression of the 
-Subunit of Tryptophan
Synthase in Camptotheca acuminata, an Indole
Alkaloid-Producing Plant1
Hua Lu and
Thomas D. McKnight*
Department of Biology, Texas A&M University, College Station, Texas
77843
Camptothecin is an anticancer drug
produced by the monoterpene indole alkaloid pathway in
Camptotheca acuminata. As part of an investigation of
the camptothecin biosynthetic pathway, we have cloned and characterized
a gene from C. acuminata encoding the
-subunit of tryptophan (Trp) synthase (TSB). In C. acuminata TSB provides Trp for both protein synthesis
and indole alkaloid production and therefore represents a junction
between primary and secondary metabolism. TSB mRNA and protein were
detected in all C. acuminata organs examined, and their
abundance paralleled that of camptothecin. Within each shoot organ, TSB
was most abundant in vascular tissues. Within the root, however, TSB
expression was most abundant in the outer cortex. TSB has been
localized to chloroplasts in Arabidopsis, but there was little
expression of TSB in C. acuminata tissues where the
predominant plastids were photosynthetically competent chloroplasts.
Expression of the promoter from the C. acuminata TSB
gene in transgenic tobacco plants paralleled expression of the native
gene in C. acuminata in all organs except roots. TSB is
also highly expressed in C. acuminata during early
seedling development at a stage corresponding to peak
accumulation of camptothecin, consistent with the idea that Trp
biosynthesis and the secondary indole alkaloid pathway are coordinately
regulated.
1
This work was supported by the National
Institutes of Health (grant no. CA75792).
*
Corresponding author; e-mail mcknight{at}bio.tamu.edu; fax
1-409-845-2891
Plant Physiol. (1999) 120: 43-52
Copyright Clearance Center: 0032-0889/99/120//10
© 1999 American Society of Plant Physiologists
