| Abstract: | The leaves of maize seedlings contain two principal isozymesof fructose 1,6-bisphosphate aldolase (E.C. 4.1.2.13
EC]
), one chloroplasticand one cytosolic (Gasperini and Pupillo, 1982). Mesophyll protoplastswere separated from bundle sheath (BS) strands of both light-grownand dark-grown maize leaves. Aldolase isozymes were separatedfrom extracts of chloroplasts, etioplasts, protoplasts and BSstrands by column isoelectric focusing. The major isozyme ofgreen leaves (pI 4.2) was exclusively in BS chloroplasts, andthere was no evidence of other isozymes occurring in BS tissue.The cytosolic isozyme (pI 6.7) was present in protoplasts ofmesophyll cells, where it may limit the synthesis of hexose-phosphates(estimated activity of 9.4 µmol h–1 g–1 fr.wt.) together with lower activities of an acidic form (pI 4.6).Etiolated leaves contained significant amounts of the pI 6.7isozyme in both mesophyll and BS cells, but also minor activitiesof one or more acidic forms with pI values of 4.4–4.7(average pI 4.6) which appear to be located partly in BS etioplasts.The main developmental events for maize leaf aldolase afterillumination were a moderate decrease of cytosolic isozyme (pI6.7) which disappears from the BS within hours and a large,gradual increase of the BS plastid isozyme (pI 4.2). The isoformwith a pI 4.6 also increased rapidly to a low, steady activityin greening mesophyll protoplasts. Key words: C4, fructose 1,6-bisphosphate, aldolase, Zea mays |
