Abstract
In the Arabidopsis inflorescence meristem (IM), auxin is considered a prepatterning signal for floral primordia, whereas a centripetal mode of positional information for floral organ identity is inherent to the ABCE model. However, spatio-temporal patterns of organ initiation in each whorl at the earliest initiation stages are largely unknown. Evidence suggests that initial flower development occurs along an abaxial/adaxial axis and conforms to phytomer theory. Use of the founder cell marker DORNRÖSCHEN-LIKE (DRNL) as a tool in leafy, puchi, and apetala 1 cauliflower mutant backgrounds suggests that bract founder cells are marked at the IM periphery. The DRNL transcription domain in the wild-type IM is spatially discrete from DR5 expression, suggesting that bract initiation is independent of canonical auxin response. When bracts develop in lfy and puchi mutant floral primordia the initiation of lateral sepals precedes the specification of medial sepals compared with wild type, showing an interplay between bract and abaxial sepal founder cell recruitment. In the perianthia (pan) mutant background, DRNL expression indicates that a radial outer whorl arrangement derives from splitting of sepal founder cell populations at abaxial and adaxial positions. This splitting of incipient sepal primordia is partially dependent on PRESSED FLOWER (PRS) activity and implies that sepal specification is independent of WUSCHEL and CLAVATA3 expression, as both marker genes only regain activity in stage-2 flowers, when patterning of inner floral organs switches to a centripetal mode. The transition from an initially abaxial/adaxial into a centripetal patterning programme, and its timing represent an adaptive trait that possibly contributes to variation in floral morphology, especially unidirectional organ initiation.
Highlights
Angiosperm flowers are comprised of concentric whorls of outer perianth and inner androecium organs and a central gynoecium
This splitting of incipient sepal primordia is partially dependent on PRESSED FLOWER (PRS) activity and implies that sepal specification is independent of WUSCHEL and CLAVATA3 expression, as both marker genes only regain activity in stage-2 flowers, when patterning of inner floral organs switches to a centripetal mode
As the expression patterns of DR5::GFP and DRNL::GFP are qualitatively similar in the inflorescence meristem (IM), to resolve the relationship between auxin response maxima and cells recruited for lateral primordia marked by DRNL within the IM, we raised double transgenic plants that either expressed DRNL::erGFP with nucleartargeted DR5::VENUS, or DRNL::erCERULEAN with DR5::erGFP
Summary
Angiosperm flowers are comprised of concentric whorls of outer perianth and inner androecium organs and a central gynoecium. The ABCE model is broadly conserved among eudicots (Kanno et al, 2003) and monocots (Whipple et al, 2004), with modifications among basal angiosperms (Soltis et al, 2007). It only accounts for organ identity, and not the relative timing of organ initiation or positions within whorls. In Arabidopsis, medial stamens become morphologically evident slightly before petals and lateral stamens (Smyth et al, 1990)
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
