http://orcid.org/0000-0001-7688-148X
References
- Agrawal GK, Abe K, Yamazaki M, Miyao A, Hirochika H. 2005. Conservation of the E-function for floral organ identity in rice revealed by the analysis of tissue culture-induced loss-of-function mutants of the OsMADS1 gene. Plant Mol Biol. 59(1):125–135.
- Ambrose BA, Lerner DR, Ciceri P, Padilla CM, Yanofsky MF, Schmidt RJ. 2000. Molecular and genetic analyses of the SILKY1 gene reveal conservation in floral organ specification between eudicots and monocots. Mol Cell. 5(3):569–579.
- Angenent GC, Colombo L. 1996. Molecular control of ovule development. Trends Plant Sci. 1(7):228–232.
- Bowman JL, Smyth DR, Meyerowitz EM. 1991. Genetic interactions among floral homeotic genes of Arabidopsis. Development. 112(1):1–20.
- Bowman JL, Smyth DR, Meyerowitz EM. 2012. The ABC model of flower development: then and now. Development. 139(22):4095–4098.
- Causier B, Schwarz-Sommer Z, Davies B. 2010. Floral organ identity: 20 years of ABCs. Semin Cell Dev Biol. 21(1):73–79.
- Chen Z, Wu J, Ding W, Chen H, Wu P, Shi C. 2006. Morphogenesis and molecular basis on naked seed rice, a novel homeotic mutation of OsMADS1 regulating transcript level of AP3 homologue in rice. Planta. 223(5):882–890.
- Chung HJ, Sehnke, PC, Ferl RJ. 1999. The 14-3-3 proteins: cellular regulators of plant metabolism. Trends Plant Sci. 4(9):367–371.
- Chung Y-Y, Kim S-R, Kang H-G, Noh Y-S, Park MC, Finkel D, An G. 1995. Characterization of two rice MADS box genes homologous to GLOBOSA. Plant Sci. 109(1):45–56.
- Coen E, Meyerowitz EM. 1991. The war of the whorls: genetic interactions controlling flower development. Nature. 353(6339):31–37.
- Colombo L, Franken J, Koetje E, Van Went J, Dons HJM, Angenent GC, Van Tunen AJ. 1995. The petunia MADS box gene FBP11 determines ovule identity. Plant Cell. 7(11):1859–1868.
- Ditta GS, Pinyopich A, Robles P, Pelaz S, Yanofsky MF. 2004. The SEP4 gene of Arabidopsis thaliana functions in floral organ and meristem identity. Curr Opin Biol. 14(21):1935–1940.
- Dreni L, Jacchia S, Fornara F, Fornari M, Ouwerkerk PBF, An G, Colombo L, Kater MM. 2007. The D-lineage MADS-box gene OsMADS13 controls ovule identity in rice. Plant J. 52(4):690–699.
- Ferrario S, Immink RG, Angenent GC. 2004. Conservation and diversity in flower land. Curr Opin Plant Biol. 7(1):84–91.
- Greco R, Stagi L, Colombo L, Angenent GC, Sarigorla M, Pe ME. 1997. MADS box genes expressed in developing inflorescences of rice and sorghum. Mol Genet. 253(5):615–623.
- Irish VF. 2010. The flowering of Arabidopsis flower development. Plant J. 61(6):1014–1028.
- Jeon JS, Jang S, Lee S, Nam J, Kim C, Lee SH, Chung YY, Kim SR, Lee YH, Cho YG, An G. 2000. Leafy hull sterile1 is a homeotic mutation in a rice MADS box gene affecting rice flower development. Plant Cell. 12(6):871–884.
- Kang HG, Jeon J, Lee SI, An G. 1998. B and Class C floral organ identity genes from rice plants. Plant Mol Biol. 38(6):1021–1029.
- Kunst L, Klenz JE, Martinez-Zapater J, Haughn GW. 1989. AP2 gene determines the identity of perianth organs in flowers of Arabidopsis thaliana. Plant Cell. 1(12):1195–1208.
- Li H, Liang W, Yin C, Zhu L, Zhang D. 2011. Genetic interaction of OsMADS3, DROOPING LEAF, and OsMADS13 in specifying rice floral organ identities and meristem determinacy. Plant Physiol. 156(1):263–274.
- Lopez-Dee ZP, Wittich P, Enrico PM, Rigola D, Del BI, Gorla MS, Kater MM, Colombo L. 1999. OsMADS13, a novel rice MADS-box gene expressed during ovule development. Dev Genet. 25(3):237.
- Malcomber ST, Kellogg EA. 2004. Heterogeneous expression patterns and separate roles of the SEPALLATA gene LEAFY HULL STERILE1 in Grasses. Plant Cell. 16(7):1692–1706.
- Moon YH, Jung J, Kang HG, An G. 1999. Identification of a rice APETALA3 homologue by yeast two-hybrid screening. Plant Mol Biol. 40(1):167–177.
- Nagasawa N, Miyoshi M, Sano Y, Satoh H, Hirano H, Sakai H, Nagato Y. 2003. SUPERWOMAN1 and DROOPING LEAF genes control floral organ identity in rice. Development. 130(4):705–718.
- Pelaz S, Ditta GS, Baumann E, Wisman E, Yanofsky MF. 2000. B and C floral organ identity functions require SEPALLATA MADS-box genes. Nature. 405(6783):200–203.
- Prasad K, P S, Kumar S, Kushalappa K, Vijayraghavan U. 2001. Ectopic expression of rice OsMADS1 reveals a role in specifying the lemma and palea, grass floral organs analogous to sepals. Dev Genes Evol. 211(6):281–290.
- Theisen G, Melzer R, Rumpler F. 2016. MADS-domain transcription factors and the floral quartet model of flower development: linking plant development and evolution. Development. 143(18):3259–3271.
- Theisen G, Saedler H. 2001. Plant biology. Floral quartets. Nature. 409(6819):469–471.
- Thompson BE, Hake S. 2009. Translational biology: from Arabidopsis flowers to grass inflorescence architecture. Plant Physiol. 149(1):38–45.
- Yamaguchi T, Lee DY, Miyao A, Hirochika H, An G, Hirano H. 2006. Functional diversification of the two C-class MADS box genes OSMADS3 and OSMADS58 in Oryza sativa. Plant Cell. 18(1):15–28.
- Yamaki S, Nagato Y, Kurata N, Nonomura K. 2011. Ovule is a lateral organ finally differentiated from the terminating floral meristem in rice. Dev Biol. 351(1):208–216.
- Yanofsky MF. 1995. Floral meristems to floral organs: Genes controlling early events in Arabidopsis flower development. Annu Rev Plant Physiol Plant Mol Biol. 46(1):167–188.
- Yun DW, Liang W, Dreni L, Yin C, Zhou Z, Kater MM, Zhang D. 2013. OsMADS16 genetically interacts with OsMADS3 and OsMADS58 in specifying floral patterning in rice. Mol. Plant. 6(3):743–756.