| Salicylic acid: biosynthesis, perception, and contributions to plant immunity |
43 |
| Photoreceptor-mediated regulation of the COP1/SPA E3 ubiquitin ligase |
42 |
| The Arabidopsis bZIP transcription factor family - an update |
33 |
| Help wanted: helper NLRs and plant immune responses |
33 |
| Resolution of growth-defense conflict: mechanistic insights from jasmonate signaling |
31 |
| Conveying endogenous and exogenous signals: MAPK cascades in plant growth and defense |
27 |
| Plant-parasitic nematode effectors - insights into their diversity and new tools for their identification |
26 |
| NLR singletons, pairs, and networks: evolution, assembly, and regulation of the intracellular immunoreceptor circuitry of plants |
23 |
| Great moments in evolution: the conquest of land by plants |
23 |
| Next-generation strategies for understanding and influencing source-sink relations in crop plants |
23 |
| Transposons: a blessing curse |
22 |
| SUMOylation: re-wiring the plant nucleus during stress and development |
20 |
| Symbiotic nitrogen fixation by rhizobia - the roots of a success story |
20 |
| Functions of ABC transporters in plant growth and development |
19 |
| De novo root regeneration from leaf explants: wounding, auxin, and cell fate transition |
19 |
| N-hydroxypipecolic acid and salicylic acid: a metabolic duo for systemic acquired resistance |
19 |
| Long-distance signaling in plant stress response |
19 |
| The way out and in: phloem loading and unloading of amino acids |
19 |
| Extracellular vesicles as key mediators of plant-microbe interactions |
18 |
| Post-polyploid diploidization and diversification through dysploid changes |
18 |
| Breeding to adapt agriculture to climate change: affordable phenotyping solutions |
17 |
| Beyond the photocycle - how cryptochromes regulate photoresponses in plants? |
16 |
| Nitrate-mediated control of root nodule symbiosis |
15 |
| Uptake of bacteria into living plant cells, the unifying and distinct feature of the nitrogen-fixing root nodule symbiosis |
15 |
| Exploiting genetic variation in nitrogen use efficiency for cereal crop improvement |
15 |
| Systemic signaling in response to wounding and pathogens |
15 |
| SnRK1 activation, signaling, and networking for energy homeostasis |
14 |
| Plant genome sequences: past, present, future |
14 |
| Nanoscale structure, mechanics and growth of epidermal cell walls |
14 |
| Exploiting natural variation and genetic manipulation of stomatal conductance for crop improvement |
14 |
| Nitrate signaling and the control of Arabidopsis growth and development |
14 |
| NEDD8-its role in the regulation of Cullin-RING ligases |
14 |
| Stomatal development: focusing on the grasses |
14 |
| Axillary meristem initiation - a way to branch out |
14 |
| Cell surface immune receptors: the guardians of the plant's extracellular spaces |
14 |
| Plant cell surface immune receptor complex signaling |
14 |
| Phytohormones, miRNAs, and peptide signals integrate plant phosphorus status with arbuscular mycorrhizal symbiosis |
14 |
| Can genomics deliver climate-change ready crops? |
14 |
| Volatiles as inducers and suppressors of plant defense and immunity - origins, specificity, perception and signaling |
13 |
| Recent advances in broad-spectrum resistance to the rice blast disease |
13 |
| Developing and deploying climate-resilient maize varieties in the developing world |
13 |
| Activation of rice WRKY transcription factors: an army of stress fighting soldiers? |
13 |
| 3D genome organization: a role for phase separation and loop extrusion? |
12 |
| The makings of a gradient: spatiotemporal distribution of gibberellins in plant development |
12 |
| Drought impacts on phloem transport |
12 |
| A mycorrhizal revolution |
12 |
| Sniffing bacterial volatile compounds for healthier plants |
12 |
| Cross-kingdom lipid transfer in arbuscular mycorrhiza symbiosis and beyond |
12 |
| Epigenetic perspectives on the evolution and domestication of polyploid plant and crops |
12 |
| Gene networks and the evolution of plant morphology |
11 |
