review article | Q7318358 |
scholarly article | Q13442814 |
P50 | author | Xiaofeng Li | Q88412418 |
P2093 | author name string | Huanhuan Gao | |
Jingjing Li | |||
Kun Ma | |||
Yunhe Luo | |||
Bingtao Niu | |||
Qionghui Fei | |||
Changjun Mu | |||
P2860 | cites work | The main auxin biosynthesis pathway in Arabidopsis | Q24628839 |
Rapid Synthesis of Auxin via a New Tryptophan-Dependent Pathway Is Required for Shade Avoidance in Plants | Q27650264 | ||
Root phenology in a changing climate | Q31050930 | ||
Climate change and its impacts on vegetation distribution and net primary productivity of the alpine ecosystem in the Qinghai-Tibetan Plateau | Q31053943 | ||
Auxin synthesized by the YUCCA flavin monooxygenases is essential for embryogenesis and leaf formation in Arabidopsis | Q33344388 | ||
Climate warming reduces the temporal stability of plant community biomass production. | Q33702237 | ||
H2A.Z-containing nucleosomes mediate the thermosensory response in Arabidopsis. | Q34020881 | ||
Rapid changes in flowering time in British plants | Q34131113 | ||
Transcription factor PIF4 controls the thermosensory activation of flowering | Q34205566 | ||
Hypocotyl transcriptome reveals auxin regulation of growth-promoting genes through GA-dependent and -independent pathways | Q34270681 | ||
Acclimative response to temperature stress in higher plants: approaches of gene engineering for temperature tolerance | Q34833644 | ||
Auxin biosynthesis by the YUCCA flavin monooxygenases controls the formation of floral organs and vascular tissues in Arabidopsis | Q34863451 | ||
Phytochrome-interacting factor 4 (PIF4) regulates auxin biosynthesis at high temperature | Q35647459 | ||
Mutants of Arabidopsis thaliana defective in the acquisition of tolerance to high temperature stress | Q35683924 | ||
High temperature promotes auxin-mediated hypocotyl elongation in Arabidopsis | Q36515847 | ||
Resetting of FLOWERING LOCUS C expression after epigenetic repression by vernalization | Q36890939 | ||
Temperature perception and signal transduction in plants. | Q37157919 | ||
Vernalization: winter and the timing of flowering in plants | Q37540170 | ||
Environmental perception and epigenetic memory: mechanistic insight through FLC. | Q38452102 | ||
Abiotic Stress Signaling and Responses in Plants | Q38975041 | ||
Phylogenetic conservatism and trait correlates of spring phenological responses to climate change in northeast China. | Q41636214 | ||
The Arabidopsis YUCCA1 flavin monooxygenase functions in the indole-3-pyruvic acid branch of auxin biosynthesis | Q44862578 | ||
TAA1-mediated auxin biosynthesis is essential for hormone crosstalk and plant development | Q44873509 | ||
The TRANSPORT INHIBITOR RESPONSE2 gene is required for auxin synthesis and diverse aspects of plant development. | Q45922678 | ||
A genetic defect caused by a triplet repeat expansion in Arabidopsis thaliana | Q46158886 | ||
Adaptation of root growth to increased ambient temperature requires auxin and ethylene coordination in Arabidopsis. | Q48205420 | ||
Long-term pattern and magnitude of soil carbon feedback to the climate system in a warming world | Q48235546 | ||
High temperature-mediated adaptations in plant architecture require the bHLH transcription factor PIF4. | Q51794778 | ||
How plants sense temperature | Q57986171 | ||
Hormonal regulation of temperature-induced growth in Arabidopsis | Q84418109 | ||
P433 | issue | 1 | |
P921 | main subject | climate change | Q125928 |
climate mitigation | Q83420266 | ||
P304 | page(s) | e1414123 | |
P577 | publication date | 2017-12-11 | |
P1433 | published in | Plant Signaling and Behavior | Q15757476 |
P1476 | title | Plant molecular responses to the elevated ambient temperatures expected under global climate change | |
P478 | volume | 13 |
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