Phloretin as a C4 photosynthesis disruptor: Metabolic, enzymatic, and physiological insights [0.03%]
菲洛列汀作为C4光合作用破坏者:代谢、酶和生理学见解
Renato Polimeni Constantin,Gabriele Sauthier Romano de Melo,Isabela de Carvalho Contesoto et al.
Renato Polimeni Constantin et al.
Phloretin, a dihydrochalcone, was investigated for its effects on the physiology and C4 photosynthetic metabolism of maize (Zea mays). Seedlings were grown hydroponically and treated with 500 μM phloretin for seven days. Phloretin signific...
Metabolite profiling reveals slow and uncoordinated adjustment of C4 photosynthesis to sudden changes in irradiance [0.03%]
代谢谱分析揭示C4光合作用对突发性光照变化的缓慢且无序调整
Stéphanie Arrivault,David Barbosa Medeiros,Cristina Rodrigues Gabriel Sales et al.
Stéphanie Arrivault et al.
In the field, plants continually experience changes in irradiance. Research in C3 species has revealed that while the Calvin-Benson cycle (CBC) adjusts rapidly to changing irradiance, there is substantial loss of photosynthesis efficiency d...
Photosynthetic diversity in the genus Blepharis (Acanthaceae) and the evolutionary origins of C4 photosynthesis [0.03%]
Blepharis属(唇形科)的光合作用多样性及其C4光合作用的进化起源
Matheus E Bianconi,Colin P Osborne,Luke T Dunning
Matheus E Bianconi
How evolution repeatedly builds complexity: a case study with C4 photosynthesis in Blepharis (Acanthaceae) [0.03%]
进化如何反复构建复杂性——以Blepharis(爵床科)的C4光合作用为例
Matt Stata,Ming-Ju Amy Lyu,Hongbing Liu et al.
Matt Stata et al.
With over 60 parallel origins representing evolutionary replicates, C4 photosynthesis is well-suited for studying complex trait evolution. However, lineages with diverse C3-C4 intermediate species are scarce, leaving uncertainty in models o...
Genomic and Cis-Regulatory Basis of a Plastic C3-C4 Photosynthesis in Eleocharis Baldwinii [0.03%]
Eleocharis baldwinii塑料C3-C4光合作用的基因组和顺式调控基础
Lu Chen,Yanfeng Jia,Zaihui Zhou et al.
Lu Chen et al.
C4 photosynthesis is a crucial trait for efficient carbon fixation; however, the genomic basis and environmental influences on its formation remain under explored. Here, we examined Eleocharis baldwinii, a sedge that exhibits photosynthetic...
Comprehensive analyses of the metabolome and transcriptome reveals the photosynthetic effects in Arabidopsis thaliana of SaPEPC1 gene from desert plant with single-cell C4 photosynthetic pathway [0.03%]
全面的代谢组和转录组分析揭示了来自单细胞C4光合途径的沙漠植物SaPEPC1基因在拟南芥中的光合作用效应
Caixia Li,Juan Wang,Haiyan Lan et al.
Caixia Li et al.
The enzyme phosphoenolpyruvate carboxylase (PEPC) plays an important role in the photosynthetic metabolism of higher plants. Although the photosynthetic pathway involving PEPC has been clarified, further investigation is required to elucida...
Russell K Monson,Shuai Li,Elizabeth A Ainsworth et al.
Russell K Monson et al.
It has been 60 years since the discovery of C4 photosynthesis, an event that rewrote our understanding of plant adaptation, ecosystem responses to global change, and global food security. Despite six decades of research, one aspect of C4 ph...
Syed Adeel Zafar,Julia Bailey-Serres
Syed Adeel Zafar
C4 photosynthesis underpins the remarkable productivity of certain crops, including maize and sorghum. How the C4 pathway emerged from ancestral C3 relatives has been unclear. Swift et al. have deciphered how a pre-existing cis-regulatory c...
A dominant role of transcriptional regulation during the evolution of C4 photosynthesis in Flaveria species [0.03%]
Flaveria物种中C4光合作用进化过程中转录调控发挥的主要作用
Ming-Ju Amy Lyu,Huilong Du,Hongyan Yao et al.
Ming-Ju Amy Lyu et al.
C4 photosynthesis exemplifies convergent evolution of complex traits. Herein, we construct chromosome-scale genome assemblies and perform multi-omics analysis for five Flaveria species, which represent evolutionary stages from C3 to C4 phot...
Adapting C4 photosynthesis to atmospheric change and increasing productivity by elevating Rubisco content in sorghum and sugarcane [0.03%]
通过提高芦竹和甘蔗中的Rubisco含量适应C4光合作用的气压变化并增加生产力
Coralie E Salesse-Smith,Noga Adar,Baskaran Kannan et al.
Coralie E Salesse-Smith et al.
Meta-analyses and theory show that with rising atmospheric [CO2], Rubisco has become the greatest limitation to light-saturated leaf CO2 assimilation rates (Asat) in C4 crops. So would transgenically increasing Rubisco increase Asat and res...
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