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Loss of frugivore seed dispersal services under climate change
Seed dispersal can determine the ability of plant species to track shifting climates; therefore, it can influence future biodiversity outcomes. Here, the authors model seed dispersal by fruit-eating vertebrates across the Australian Wet Tropics rainforest and find that it is projected to markedly decrease for many plant species.
- Karel Mokany
- , Soumya Prasad
- & David A. Westcott
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| Open AccessThe tapetal AHL family protein TEK determines nexine formation in the pollen wall
The nexine is a conserved layer of the pollen wall in land plants. The authors show that the AHL family protein TRANSPOSABLE ELEMENT SILENCING VIA AT-HOOK (TEK) is necessary for nexine formation in Arabidopsis, acting downstream of the transcription factor ABORTED MICROSPORES (AMS).
- Yue Lou
- , Xiao-Feng Xu
- & Zhong-Nan Yang
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| Open AccessVariation in Arabidopsis flowering time associated with cis-regulatory variation in CONSTANS
The transcription factor CONSTANS regulates the timing of flowering in Arabidopsis. Rosas et al. report that genetic variation in the cis-regulatory regions of this gene contributes to natural phenotypic variation in flowering time.
- Ulises Rosas
- , Yu Mei
- & Michael D. Purugganan
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| Open AccessArabidopsis florigen FT binds to diurnally oscillating phospholipids that accelerate flowering
Daytime flowering in Arabidopsis is stimulated by the secreted protein FT. Nakamura et al. show that FT binds the lipid phosphatidylcholine (PC) in vitro, and that in plants, different PC species predominate during day and night, with daytime species stimulating flowering in a manner that is partially dependent on FT.
- Yuki Nakamura
- , Fernando Andrés
- & George Coupland
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Reactive oxygen species mediate pollen tube rupture to release sperm for fertilization in Arabidopsis
In plants, sperm is released from pollen tubes in order to fertilize the female gametophyte. In this study, Duan et al.demonstrate that NADPH generated reactive oxygen species are required for the female to induce rupture of the pollen tube.
- Qiaohong Duan
- , Daniel Kita
- & Alice Y. Cheung
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FLOWERING LOCUS T genes control onion bulb formation and flowering
FLOWERING LOCUS T is an important mobile signal that regulates plant development and flowering. In this study, Lee et al. demonstrate that multiple FLOWERING LOCUS Tgenes are involved in onion flowering and bulb formation.
- Robyn Lee
- , Samantha Baldwin
- & Richard Macknight
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FLOWERING LOCUS C in monocots and the tandem origin of angiosperm-specific MADS-box genes
MADS-box genes regulate flowering plant development, but their evolutionary origins are unclear. Here, Ruelens et al.show that three major, apparently flowering plant-specific, MADS-box gene clades are derived from a single ancestral tandem duplication, and identify FLOWERING LOCUS C-like genes in cereals.
- Philip Ruelens
- , Ruud A. de Maagd
- & Kerstin Kaufmann
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Forecasting flowering phenology under climate warming by modelling the regulatory dynamics of flowering-time genes
Climate change and increasing temperature have an impact on the flowering time of plants but models predicting these effects are lacking. Satake et al. provide a model based on differential gene expression to predict the response of plants to warmer temperatures and find that the flowering period is shortened.
- Akiko Satake
- , Tetsuhiro Kawagoe
- & Hiroshi Kudoh
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Two FLX family members are non-redundantly required to establish the vernalization requirement in Arabidopsis
FLCandFRI are two genes required for vernalization in Arabidopsis. In this study, the authors identified a new gene—FLL4—that is required for the upregulation of FLC, and found that fll4mutants flower more rapidly.
- Joohyun Lee
- & Richard M. Amasino
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| Open AccessArabidopsis FLC clade members form flowering-repressor complexes coordinating responses to endogenous and environmental cues
Flowering time is a critical developmental transition for a plant’s reproductive success and it depends on endogenous and environmental signals. Here Gu et al.show that MADS-domain floral repressors form protein complexes that coordinate Arabidopsis responses to these cues and regulate its flowering time.
- Xiaofeng Gu
- , Chau Le
- & Yuehui He
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Release of SOS2 kinase from sequestration with GIGANTEA determines salt tolerance in Arabidopsis
The flowering time and clock-related protein GIGANTEA has been broadly implicated in the development and physiology of plants. Kim and colleagues studyArabidopsisand find that GIGANTEA modulates salt stress via the release of the protein kinase SOS2, which is required for salt tolerance.
- Woe-Yeon Kim
- , Zahir Ali
- & Dae-Jin Yun
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| Open AccessA critical transition in leaf evolution facilitated the Cretaceous angiosperm revolution
The great increase in flowering angiosperm plants during the Cretaceous began the change towards modern biodiversity. This study shows that rapid angiosperm evolution was possible once the leaf interior transport path length for water became shorter than the leaf interior transport path length for carbon dioxide.
- Hugo Jan de Boer
- , Maarten B. Eppinga
- & Stefan C. Dekker
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TEMPRANILLO genes link photoperiod and gibberellin pathways to control flowering in Arabidopsis
InArabidopsis the photoperiod pathway promotes flowering in response to longer days, but during short days flowering depends on gibberellin accumulation. This study shows that TEMPRANILLO downregulation is required to induce flowering, as TEMPRANILLOgenes repress floral induction in the photoperiod and gibberellin pathways.
- Michela Osnato
- , Cristina Castillejo
- & Soraya Pelaz
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VEGETATIVE1 is essential for development of the compound inflorescence in pea
An understanding of the genetic network that controls the flower-bearing structure—the inflorescence—in plants helps to explain the diversity seen in plant forms. This work identifies a new mechanism for the generation of inflorescence complexity in legumes, which is based on the function of theVEG1gene.
- Ana Berbel
- , Cristina Ferrándiz
- & Francisco Madueño
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Burning vegetation produces cyanohydrins that liberate cyanide and stimulate seed germination
Cyanide, a known plant defence compound, can also stimulate seed germination. Flemattiet al. show that glyceronitrile is produced in wildfire smoke, which can release cyanide and stimulate seed germination of fire-responsive plant species, thus serving as an ecological store of cyanide.
- Gavin R. Flematti
- , David J. Merritt
- & Emilio L. Ghisalberti