Liljegren et al. (2004)
Control
of fruit patterning in Arabidopsis by INDEHISCENT.
Cell 116:843-853.
Dinney et al. (2004)
Vascular
patterning: xylem or phloem?
Curr Biol. 13:1768-1774.
Dinney et al. (2004)
The
role of JAGGED in shaping lateral organs.
Development
131:1101-1110
Rhew et al. (2003)
Genetic
Control of Methyl Halide Production in Arabidopsis
Curr Biol.
13:1809-1813.
Favaro et al. (2003)
MADS-box
protein complexes control carpel and ovule development in Arabidopsis.
Plant Cell15:2603-2611.
Roeder et al. (2003)
The
Role of the REPLUMLESS Homeodomain Protein in Patterning the Arabidopsis
Fruit.
Curr
Biol. 13:1630-1635.
Pinyopich et al. (2003)
Assessing the redundancy of MADS-box genes during carpel and ovule development
Nature 424: 85-88 (Download PDF)
Pelaz et al. (2001)
APETALA1
and SEPALLATA3 interact to promote flower development
Plant Journal 26: 385-394.
Ng, and Yanofsky. (2001)
Activation
of the Arabidopsis B class homeotic genes by APETALA1
Plant Cell 13: 739-753.
Pelaz et al. (2001)
Conversion
of leaves into petals in Arabidopsis
Current Biology 11: 182-184
Sessions et al. (2000)
Cell-Cell Signaling and Movement
by the Floral Transcription Factors LEAFY and APETALA1
Science 289, 779-781
Ferrándiz et al. (2000)
Negative
Regulation of the SHATTERPROOF Genes by FRUITFULL During Arabidopsis
Fruit Development
Science 289, 436-438
Alon Samach, et al. (2000)
Distinct
roles of CONSTANS target genes in reproductive development of
Arabidopsis.
Science 288, 1613-1616
Pelaz et al. (2000)
B and C
floral organ identity functions require SEPALLATA MADS-box genes
Nature 405, 200 - 203
Elena et al. (2000)
An ancestral MADS-box gene duplication occurred before the divergence of
plants and animals
PNAS 97, 5328-5333
Liljegren
et al. (2000)
SHATTERPROOF
MADS-box genes control seed dispersal in Arabidopsis.
Nature 404:766-770
Ferrándiz et al. (2000)
Redundant regulation of meristem
identity and plant architecture by FRUITFULL, APETALA1 and
CAULIFLOWER
Development 127:725-734
Sessions et al. (1999)
The
Arabidopsis thaliana MERISTEM
LAYER 1 promoter specifies epidermal expression in meristems and young
primordia
Plant Journal 20:259-263
Liljegren et al. (1999)
Interactions
among APETALA1, LEAFY, and TERMINAL FLOWER1 Specify
Meristem Fate
Plant Cell 11:1007-1018.
Veit et al. (1998)
Regulation of leaf initiation by the
terminal ear 1
gene of maize
Nature 393:166-168
Qing et al. (1998)
The
FRUITFULL MADS-box gene mediates cell
differentiation during Arabidopsis fruit development
Development 125:1509-1517
Mandel et al. (1998)
The
Arabidopsis AGL9 MADS
box gene is expressed in young flower primordia
Sexual Plant Reproduction 11:22-28
Hempel et al. (1997)
Floral determination and expression of floral
regulatory genes in Arabidopsis
Development 124:3845-3853
Kempin et al. (1997)
Inactivation of the Arabidopsis AGL5 MADS-box
gene by homologous recombination
Nature 389:802
Mena et al.
(1996)
Diversification
of C-function activity in maize flower development.
Science 274:1537-1540.
Mandel
and Yanofsky. (1995)
The
Arabidopsis AGL8 MADS Box Gene
is Expressed in Inflorescence Meristems and is Negatively Regulated by APETALA1
Plant Cell 7:1763-1771.
Mandel and
Yanofsky. (1995)
A gene triggering flower formation in
Arabidopsis
Nature 377:522-524.
Rounsley et al.
(1995)
Diverse roles for MADS-box genes in
Arabidopsis
development.
Plant Cell 7:1259-1269.
Savidge et al.
(1995)
Temporal relationship between the transcription of
two Arabidopsis MADS-box genes and the floral organ identity genes.
Plant Cell 7:721-733.
Puruggganan et al. (1995)
Molecular evolution of flower development:
diversification of the plant MADS-box regulatory gene family.
Genetics 140:345-356.
Kempin et al.
(1995)
Molecular basis of the
cauliflower phenotype in Arabidopsis.
Science 267: 522-525.
Pnueli et al.
(1994)
Isolation of the tomato
AGAMOUS gene TAG1
and analysis of its homeotic role in transgenic plants.
Plant Cell 6:163-173.
Gustafson-Brown et
al. (1994)
Regulation of the
Arabidopsis floral homeotic gene APETALA1.
Cell 76:131-43.
Kempin et al.
(1993)
Conversion of perianth into reproductive organs
by the ectopic expression of the tobacco floral homeotic gene NAG1.
Plant Physiol. 103:1041-1046.
Mandel et al.
(1992)
Manipulation of flower structure in transgenic tobacco.
Cell 71: 133-143.
Mandel et al.
(1992)
Molecular Characterization of the
Arabidopsis
floral homeotic gene APETALA1.
Nature 360:273-277
Yanofsky et al.
(1990)
The protein encoded by the
Arabidopsis homeotic
gene AGAMOUS resembles transcription factors.
Nature 346:35-39
|