AMPLIFIED RESTRICTION FRAGMENT LENGTH POLYMORPHISM-BASED MESSENGER-RNA FINGERPRINTING USING A SINGLE RESTRICTION ENZYME THAT RECOGNIZES A 4-BP SEQUENCE
Y. Habu et al., AMPLIFIED RESTRICTION FRAGMENT LENGTH POLYMORPHISM-BASED MESSENGER-RNA FINGERPRINTING USING A SINGLE RESTRICTION ENZYME THAT RECOGNIZES A 4-BP SEQUENCE, Biochemical and biophysical research communications, 234(2), 1997, pp. 516-521
Using amplified restriction fragment length polymorphism (AFLP) techno
logy, we have developed a new protocol for the fingerprinting of mRNA
that allows systematic comparison of the differential expression of ge
nes between mRNA samples. The major advantage of our protocol is the u
se of only a single restriction enzyme that recognizes a 4-bp sequence
but allows screening of large numbers of different cDNAs. Using this
new protocol, we compared mRNA samples obtained from the flower buds o
f two lines of the common morning glory (Ipomoea purpurea) with red an
d white flowers, respectively. Approximately 50 bands were observed in
each lane of a denaturing polyacrylamide gel and the results were hig
hly reproducible, as indicated by the results of analysis of two sets
of independent mRNA samples. Two cDNA fragments, which were differenti
ally amplified in the samples from the two lines, were shown to have b
een derived from a single gene that was actively expressed in the buds
of red flowers but not in those of white flowers. A full-length cDNA
of this gene was cloned from a bud cDNA library. Sequence analysis sho
wed that this cDNA carries a sequence highly homologous to the chalcon
e synthase (CHS) genes, the key enzyme in the flavonoid biosynthetic p
athway. (C) 1997 Academic Press.