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Fig. 3. Analysis of photoperiod response by grafting. (A) Transport of
phloem-mobile 14C-sucrose across graft union. Tissues were
harvested 2 hours after feeding 14C-sucrose (1 µCi, 1.5 nmol) to
leaf on graft partner (donor). Graph shows the proportion of the mobile
fraction recovered on the other side of the graft union. Defoliation of the
receiver shoot was expected to increase the transfer of photosynthate to the
receiver shoot, and a significant effect of defoliation is observed
(P=0.05 by t-test). (B) Transmission of a photoperiod
stimulus across a graft union. Y-grafted Col wild-type plants grown in 8-hour
SDs for 70 days were transferred to 16-hour LDs for 7 days. During this time
one of the shoots, the SD receptor, was partially defoliated and covered for
part of the day so that it was only exposed to SDs. After the 7 days in LDs,
the grafted plants were returned to SDs. Flowering was scored 17 days after
the start of LD treatment. Disconnected Y-graft plant pairs were treated
exactly as grafted except the graft union was severed. Under these conditions,
none of the plants exposed only to SDs flowered. (C) Photograph of Y-grafted
co-2 mutant and wild-type plants. Developing flower buds on
co-2 shoot (right) grafted to Columbia-5 (left) under LD (27 days).
(D) Flowering-time of grafted plants. Y-grafts were assembled on 4- to
5-day-old seedlings. The co-2 mutant grafted to the wild-type plants
flowered earlier after producing fewer leaves than the co mutant
control (P<0.001 for acceleration of flowering in co
grafts versus co controls). Plants were held under 16-hour LD
(n=9-16). Bars are mean±s.e.
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