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Items: 1 to 20 of 103


Developmental origins of the world's largest flowers, Rafflesiaceae.

Nikolov LA, Endress PK, Sugumaran M, Sasirat S, Vessabutr S, Kramer EM, Davis CC.

Proc Natl Acad Sci U S A. 2013 Nov 12;110(46):18578-83. doi: 10.1073/pnas.1310356110. Epub 2013 Oct 28.


Floral structure and development in Rafflesiaceae with emphasis on their exceptional gynoecia.

Nikolov LA, Staedler YM, Manickam S, Schönenberger J, Endress PK, Kramer EM, Davis CC.

Am J Bot. 2014 Feb;101(2):225-43. doi: 10.3732/ajb.1400009. Epub 2014 Feb 8.


Holoparasitic Rafflesiaceae possess the most reduced endophytes and yet give rise to the world's largest flowers.

Nikolov LA, Tomlinson PB, Manickam S, Endress PK, Kramer EM, Davis CC.

Ann Bot. 2014 Aug;114(2):233-42. doi: 10.1093/aob/mcu114. Epub 2014 Jun 18.


Floral gigantism in Rafflesiaceae.

Davis CC, Latvis M, Nickrent DL, Wurdack KJ, Baum DA.

Science. 2007 Mar 30;315(5820):1812. Epub 2007 Jan 11.


Identification and characterization of RcMADS1, an AGL24 ortholog from the holoparasitic plant Rafflesia cantleyi Solms-Laubach (Rafflesiaceae).

Ramamoorthy R, Phua EE, Lim SH, Tan HT, Kumar PP.

PLoS One. 2013 Jun 28;8(6):e67243. doi: 10.1371/journal.pone.0067243. Print 2013.


The modified ABC model explains the development of the petaloid perianth of Agapanthus praecox ssp. orientalis (Agapanthaceae) flowers.

Nakamura T, Fukuda T, Nakano M, Hasebe M, Kameya T, Kanno A.

Plant Mol Biol. 2005 Jun;58(3):435-45.


Heterotopic expression of class B floral homeotic genes supports a modified ABC model for tulip (Tulipa gesneriana).

Kanno A, Saeki H, Kameya T, Saedler H, Theissen G.

Plant Mol Biol. 2003 Jul;52(4):831-41.


'Living stones' reveal alternative petal identity programs within the core eudicots.

Brockington SF, Rudall PJ, Frohlich MW, Oppenheimer DG, Soltis PS, Soltis DE.

Plant J. 2012 Jan;69(2):193-203. doi: 10.1111/j.1365-313X.2011.04797.x. Epub 2011 Nov 23.


Accelerated rates of floral evolution at the upper size limit for flowers.

Barkman TJ, Bendiksby M, Lim SH, Salleh KM, Nais J, Madulid D, Schumacher T.

Curr Biol. 2008 Oct 14;18(19):1508-13. doi: 10.1016/j.cub.2008.08.046.


The expression of floral organ identity genes in contrasting water lily cultivars.

Luo H, Chen S, Jiang J, Chen Y, Chen F, Teng N, Yin D, Huang C.

Plant Cell Rep. 2011 Oct;30(10):1909-18. doi: 10.1007/s00299-011-1098-7. Epub 2011 Jun 10.


Floral evolution: dramatic size change was recent and rapid in the world's largest flowers.

Davis CC.

Curr Biol. 2008 Dec 9;18(23):R1102-4. doi: 10.1016/j.cub.2008.10.011.


Variations on a theme: changes in the floral ABCs in angiosperms.

Rijpkema AS, Vandenbussche M, Koes R, Heijmans K, Gerats T.

Semin Cell Dev Biol. 2010 Feb;21(1):100-7. doi: 10.1016/j.semcdb.2009.11.002. Epub 2009 Nov 22. Review.


The corona of the daffodil Narcissus bulbocodium shares stamen-like identity and is distinct from the orthodox floral whorls.

Waters MT, Tiley AM, Kramer EM, Meerow AW, Langdale JA, Scotland RW.

Plant J. 2013 May;74(4):615-25. doi: 10.1111/tpj.12150. Epub 2013 Mar 13.


The expression and phylogenetic analysis of four AP3-like paralogs in the stamens, carpels, and single-whorl perianth of the paleoherb Asarum caudigerum.

Zhao YH, Larson-Rabin Z, Li DZ, Wang GY, Peng S, Li CY.

Mol Biol Rep. 2013 Aug;40(8):4691-9. doi: 10.1007/s11033-013-2564-9. Epub 2013 May 9.


Floral morphogenesis in Euptelea (Eupteleaceae, Ranunculales).

Ren Y, Li HF, Zhao L, Endress PK.

Ann Bot. 2007 Aug;100(2):185-93. Epub 2007 Jun 5.


Changes in cis-regulatory elements of a key floral regulator are associated with divergence of inflorescence architectures.

Kusters E, Della Pina S, Castel R, Souer E, Koes R.

Development. 2015 Aug 15;142(16):2822-31. doi: 10.1242/dev.121905. Epub 2015 Jul 27.


Expression of floral MADS-box genes in basal angiosperms: implications for the evolution of floral regulators.

Kim S, Koh J, Yoo MJ, Kong H, Hu Y, Ma H, Soltis PS, Soltis DE.

Plant J. 2005 Sep;43(5):724-44.

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