V. Germain et al., DIFFERENTIAL EXPRESSION OF 2 TOMATO LACTATE-DEHYDROGENASE GENES IN RESPONSE TO OXYGEN DEFICIT, Plant molecular biology, 35(6), 1997, pp. 711-721
Two different cDNAs encoding lactate dehydrogenase (LDH) were isolated
from a library of hypoxically treated tomato roots and sequenced. The
use of gene-specific probes on northern blots showed that Ldh2 mRNA w
as predominant in well-oxygenated roots and levels remained stable upo
n oxygen deficit; in contrast, Ldh1 mRNA accumulated to high levels wi
thin 2 h of hypoxia or anoxia. Immunoblot analyses of native gels usin
g a polyclonal antiserum raised against an LDH1 fusion protein indicat
ed that LDH2 homotetramer was the major isoform present in aerobic roo
ts. Levels of both LDH1 and LDH2 subunits increased during an is h hyp
oxic treatment, together with a 5-fold rise in activity. These results
suggest that the regulation of ldh1 expression is primarily at the tr
anscriptional level while that of ldh2 is post-transcriptional. Increa
ses in Ldh1 mRNA and LDH activity were not correlated with lactic acid
production, which was maximal at the onset of anoxia in unacclimated
roots and then declined. Taken together, our results indicate that LDH
2 present in aerobic roots is principally responsible for lactic acid
production occurring transiently upon imposition of anoxia. Possible p
hysiological roles for LDH1 are discussed.