I. Makeh et al., ANALYSIS OF A BRAIN-SPECIFIC ISOZYME - EXPRESSION AND CHROMATIN STRUCTURE OF THE RAT ALDOLASE-C GENE AND TRANSGENES, The Journal of biological chemistry, 269(6), 1994, pp. 4194-4200
Aldolase C mRNA is detected by Northern blot in all fetal tissues in r
at; it is very abundant in the adult brain and undetectable in the oth
er adult tissues. However, reverse transcriptase polymerase chain reac
tion amplification indicates that this gene is not totally repressed i
n these tissues. A DNase-I hypersensitivity site located in a 115-base
pair proximal promoter fragment is detectable in the brain as well as
in other adult tissues. Two MspI/HpaII restriction sites located at -
3800 and -450 base pairs are demethylated in the brain and totally or
partially methylated in other tissues. In transgenic mice, a 12.5-kilo
base genomic fragment is strongly and tissue specifically expressed in
different lines, with conservation of a methylation pattern similar t
o that of the endogenous gene. A chloramphenicol acetyltransferase gen
e directed by either 800 or 115 base pairs of aldolase C 5'-flanking s
equences is tissue specifically expressed in transgenic mice, but the
level of expression is very low. This level is greatly increased when
the transgene consists of a chloramphenicol acetyltransferase hybrid g
ene directed by 5.5 kilobases of aldolase C 5'-flanking sequences. We
propose therefore that the chromatin structure around the aldolase C p
romoter is accessible in fetal tissues, then remains open in the adult
brain, where the gene is very active, as well as in tissues in which
it is practically inactive. The specificity of expression in the brain
is conferred by a short 115-base pair proximal promoter fragment that
needs more upstream sequences to be fully active.