Surface growth at the reproductive shoot apex of Arabidopsis thaliana pin-formed 1 and wild type

doi:10.1093/jxb/erh109

JXB Advance Access originally published online on March 12, 2004

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Journal of Experimental Botany, Vol. 55, No. 399, pp. 1021-1032, May 1, 2004
© 2004 Oxford University Press

Regulation of Growth, Development and Whole Organism Physiology

Surface growth at the reproductive shoot apex of Arabidopsis thaliana pin-formed 1 and wild type

Received 14 November 2003; Accepted 20 January 2004

Dorota Kwiatkowska^*

Institute of Plant Biology, Wroc $l$ aw University, Kanonia 6/8, 50-328 Wroc $l$ aw, Poland

* Fax: +48 71 375 41 18. E-mail: dorotak{at}biol.uni.wroc.pl

With the aid of a non-destructive replica method and computationalprotocol, surface geometry and expansion at the reproductiveshoot apex are analysed for pin-formed 1 (pin1) Arabidopsisthaliana and compared with the wild type. The observed complexityof geometry and expansion at the pin1 apex indicates that bothcomponents of shoot apex growth, i.e. the meristem self-perpetuationand initiation of lateral organs, are realized by the pin1 apex.The realization of the latter component, however, is only occasionallycompleted. The pin1 apex is generally dome-shaped, but its curvatureis not uniform, especially later during apex ontogeny, whenbulges and saddle-shaped regions appear on its periphery. Theonly saddle-shaped regions at the wild-type shoot apex are creasesseparating flower primordia from the meristem. Surface expansionat the pin1 apex is faster than at the wild type. In both pin1and wild type the apex surface is differentiated into regionsof various areal strain rates. In the pin1 apex, but not inthe wild type, these regions correspond to the geometricallydistinguished central and peripheral zones. Expansion of thecentral zone of the pin1 apex is nearly isotropic and slowerthan in the peripheral zone. The peripheral zone is differentiatedinto ring-shaped portions of different expansion anisotropy.The distal portion of this zone expands anisotropically, similarto regions of the wild-type apex periphery, which contact olderflower primordia. The proximal portion expands nearly isotropically,like sites of flower initiation in the wild type. The peripheralzone in pin1 is surrounded by a ‘basal zone’, asui generis zone, where areal strain rates are low and expansionis anisotropic. The possible relationships between the observedregions of different expansion and the various gene expressionpatterns in the pin1 apex known from the literature are discussed.

Key words: Arabidopsis, curvature, pin-formed 1, reproductive shoot apex, surface expansion.

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