Light Promotion of Hypocotyl Gravitropism of a Starch-Deficient Tobacco Mutant Correlates with Plastid Enlargement and Sedimentation

doi:10.1104/pp.116.2.495

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Light Promotion of Hypocotyl Gravitropism of a Starch-Deficient Tobacco Mutant Correlates with Plastid Enlargement and Sedimentation¹

Stanislav Vitha, Ming Yang², John Z. Kiss³, and Fred D. Sack^*

The Ohio State University, Department of Plant Biology, 1735 Neil Avenue, Columbus, Ohio 43210

Dark-grown hypocotyls of a starch-deficient mutant (NS458) of tobacco (Nicotiana sylvestris) lack amyloplasts and plastidsedimentation, and have severely reduced gravitropism. However,gravitropism improved dramatically when NS458 seedlings were grownin the light. To determine the extent of this improvement andwhether mutant hypocotyls contain sedimented amyloplasts, gravitropicsensitivity (induction time and intermittent stimulation) andplastid size and position in the endodermis were measured in seedlingsgrown for 8 d in the light. Light-grown NS458 hypocotyls weregravitropic but were less sensitive than the wild type (WT). Starchoccupied 10% of the volume of NS458 plastids grown in both thelight and the dark, whereas WT plastids were essentially filledwith starch in both treatments. Light increased plastid size twiceas much in the mutant as in the WT. Plastids in light-grown NS458were sedimented, presumably because of their larger size and greatertotal starch content. The induction by light of plastid sedimentationin NS458 provides new evidence for the role of plastid mass andsedimentation in stem gravitropic sensing. Because the mutantis not as sensitive as the WT, NS458 plastids may not have sufficientmass to provide full gravitropic sensitivity.

¹   This research was supported by the National Aeronautics and Space Administration (grant no. NAGW-4472).
²   Present address: Cold Spring Harbor Laboratory, Cold Spring Harbor, NY 11724.
³   Present address: Botany Department, Miami University, Oxford, OH 45056.
^*   Corresponding author; e-mail sack.1{at}osu.edu; fax 1-614-292-6345.

Plant Physiol. (1998) 116: 495-502
Copyright Clearance Center: 0032-0889/98/116/0495/08
© 1998 American Society of Plant Physiologists

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Light Promotion of Hypocotyl Gravitropism of a Starch-Deficient Tobacco Mutant Correlates with Plastid Enlargement and Sedimentation1

Light Promotion of Hypocotyl Gravitropism of a Starch-Deficient Tobacco Mutant Correlates with Plastid Enlargement and Sedimentation¹