Genetic control of alcohol dehydrogenase in the Japanese species of Trillium.

Abstract

Endosperm alcohol dehydrogenase (ADH) was investigated electrophoretically in T. kamtschaticum Pall. (2n=10; K₁K₁), T. tschonoskii Maxim. (2n=20; K₂K₂TT), T. smallii Maxim. (2n=20; SSUU) and their F₁ hybrids. Main electrophoretic phenotypes so far detected are composed of fast, slow and intermediately moving bands. We denote them for convenience as F, S and H bands, respectively. T, kamtschaticum shows only F band; T, tschonoskii has two visible and one concealed S bands, viz., the main slowest band (S₁), a hybrid band (S₂) and slightly faster but concealed band (S₃); T. smallii reveals all three main bands or FS pattern. All the F₁ progeny of interspecific crosses exhibit the FS pattern. We assign the following alleles for respective ADH isozymes of each entity: AdhF′(K) in T. kamtschaticum, Adh^s₁^(T) and Adh^S₂^(T) in T. tschonoskii and Adh^F′(S) and Adh^S(S) in T. smallii. In vitro dissociation-recombination experiment demonstrates that these isozymes are dimers. These isozymes exhibit substrate specificity for alcohols with -CH₂OH radical remarkably, viz., the highest activity for ethanol and n-propyl alcohol but inert for isopropyl alcohol and so forth.