Published in Plant J on December 09, 2009
Oxygen sensing in plants is mediated by an N-end rule pathway for protein destabilization. Nature (2011) 2.16
Homeostatic response to hypoxia is regulated by the N-end rule pathway in plants. Nature (2011) 2.06
Waterproofing crops: effective flooding survival strategies. Plant Physiol (2012) 1.32
Plant cysteine oxidases control the oxygen-dependent branch of the N-end-rule pathway. Nat Commun (2014) 1.07
The ubiquitination machinery of the ubiquitin system. Arabidopsis Book (2014) 0.93
Bottom-up Metabolic Reconstruction of Arabidopsis and Its Application to Determining the Metabolic Costs of Enzyme Production. Plant Physiol (2014) 0.90
Low oxygen response mechanisms in green organisms. Int J Mol Sci (2013) 0.90
The Arabidopsis Chloroplast Stromal N-Terminome: Complexities of Amino-Terminal Protein Maturation and Stability. Plant Physiol (2015) 0.84
Plastid proteostasis and heterologous protein accumulation in transplastomic plants. Plant Physiol (2012) 0.82
Enhanced waterlogging tolerance in barley by manipulation of expression of the N-end rule pathway E3 ligase PROTEOLYSIS6. Plant Biotechnol J (2015) 0.81
Quantitative proteomics analysis of the Arg/N-end rule pathway of targeted degradation in Arabidopsis roots. Proteomics (2015) 0.78
Identification of Targets and Interaction Partners of Arginyl-tRNA Protein Transferase in the Moss Physcomitrella patens. Mol Cell Proteomics (2016) 0.77
Phenotypes on demand via switchable target protein degradation in multicellular organisms. Nat Commun (2016) 0.76
The N-end rule pathway regulates pathogen responses in plants. Sci Rep (2016) 0.75
Plant arginyltransferases (ATEs). Genet Mol Biol (2017) 0.75
Orchestration of floral initiation by APETALA1. Science (2010) 2.95
The early extra petals1 mutant uncovers a role for microRNA miR164c in regulating petal number in Arabidopsis. Curr Biol (2005) 2.51
Redundancy and specialization among plant microRNAs: role of the MIR164 family in developmental robustness. Development (2007) 2.14
The homeotic protein AGAMOUS controls microsporogenesis by regulation of SPOROCYTELESS. Nature (2004) 1.98
Arabidopsis female gametophyte gene expression map reveals similarities between plant and animal gametes. Curr Biol (2010) 1.85
Repression of AGAMOUS-LIKE 24 is a crucial step in promoting flower development. Nat Genet (2004) 1.69
Floral stem cell termination involves the direct regulation of AGAMOUS by PERIANTHIA. Development (2009) 1.25
Dynamics of chromatin accessibility and gene regulation by MADS-domain transcription factors in flower development. Genome Biol (2014) 1.24
Molecular basis for the specification of floral organs by APETALA3 and PISTILLATA. Proc Natl Acad Sci U S A (2012) 1.23
The plant N-end rule pathway: structure and functions. Trends Plant Sci (2010) 1.20
Gene networks controlling Arabidopsis thaliana flower development. New Phytol (2013) 1.19
Global expression profiling applied to the analysis of Arabidopsis stamen development. Plant Physiol (2007) 1.17
Control of reproductive floral organ identity specification in Arabidopsis by the C function regulator AGAMOUS. Plant Cell (2013) 1.15
The N-end rule pathway controls multiple functions during Arabidopsis shoot and leaf development. Proc Natl Acad Sci U S A (2009) 1.13
Microarray analysis reveals altered expression of a large number of nuclear genes in developing cytoplasmic male sterile Brassica napus flowers. Plant J (2007) 1.12
Floral induction in tissue culture: a system for the analysis of LEAFY-dependent gene regulation. Plant J (2004) 0.78
Identification of direct targets of plant transcription factors using the GR fusion technique. Methods Mol Biol (2015) 0.77
A floral induction system for the study of early Arabidopsis flower development. Methods Mol Biol (2014) 0.77
The low phytic acid1-241 (lpa1-241) maize mutation alters the accumulation of anthocyanin pigment in the kernel. Planta (2010) 0.76
Next-generation sequencing applied to flower development: ChIP-Seq. Methods Mol Biol (2014) 0.75