Results 221 to 230 of about 118,614 (242)
Transcriptional control of tomato fruit development and ripening. [PDF]
Wang R, de Maagd RA.
europepmc +1 more source
Hidden gradients before form: a spatial transcriptomic atlas of wheat spike patterning. [PDF]
Jhu MY, Lee TA.
europepmc +1 more source
Interaction study of MADS-domain proteins in tomato [PDF]
MADS-domain proteins are important transcription factors involved in many biological processes of plants. Interactions between MADS-domain proteins are essential for their functions. In tomato (Solanum lycopersicum), the number of MIKC(c)-type MADS-domain proteins identified has totalled 36, but a large-scale interaction assay is lacking. In this study,
Mitrick A Johns +2 more
exaly +5 more sources
Molecular mechanisms of floral organ specification by MADS domain proteins
Flower development is a model system to understand organ specification in plants. The identities of different types of floral organs are specified by homeotic MADS transcription factors that interact in a combinatorial fashion. Systematic identification of DNA-binding sites and target genes of these key regulators show that they have shared and unique ...
Wenhao Yan +2 more
exaly +6 more sources
Mapping the protein regions responsible for the functional specificities of the Arabidopsis MADS domain organ-identity proteins. [PDF]
The Arabidopsis MADS domain proteins AP1, AP3, PI, and AG specify floral organ identity. All of these proteins contain a MADS domain required for DNA binding and dimerization; a region termed L (linker between MADS domain and K domain), which plays an important role in dimerization specificity; the K domain, named for its similarity to the coiled-coil ...
Elliot M Meyerowitz, Meyerowitz E M
exaly +6 more sources
MADS domain proteins are members of a highly conserved family found in all eukaryotes. Genetic studies clearly indicate that many plant MADS domain proteins have different regulatory functions in flower development, yet they share a highly conserved DNA binding domain and can bind to very similar sequences.
H, Huang +5 more
exaly +5 more sources
Dimerization specificity of Arabidopsis MADS domain homeotic proteins APETALA1, APETALA3, PISTILLATA, and AGAMOUS. [PDF]
The MADS domain homeotic proteins APETALA1 (AP1), APETALA3 (AP3), PISTILLATA (PI), and AGAMOUS (AG) act in a combinatorial manner to specify the identity of Arabidopsis floral organs. The molecular basis for this combinatorial mode of action was investigated.
JOSÉ Luis Riechmann +2 more
exaly +6 more sources
Some of the next articles are maybe not open access.
Related searches:
Related searches:
The ‘ABC’ of MADS domain protein behaviour and interactions
Seminars in Cell and Developmental Biology, 2010Development of eudicot flowers is under tight developmental control by genes belonging to the MADS box transcription factor family, as is nicely represented by the well-known ABC model of floral organ development. During the last two decades enormous progress has been made in our understanding of the molecular mechanisms underlying the combinatorial ...
Richard G H Immink, Kerstin Kaufmann
exaly +3 more sources
MADS domain (for MCM1, AG, DEFA and SRF) proteins are regulatory proteins found in all major eukaryotic kingdoms. Plant MADS domain regulatory proteins have a region of moderate sequence similarity that has been designated as the K domain, and its ...
Hong Ma
exaly +2 more sources

