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Christine H. Foyer
Researcher at University of Birmingham
Publications - 517
Citations - 68406
Christine H. Foyer is an academic researcher from University of Birmingham. The author has contributed to research in topics: Photosynthesis & Glutathione. The author has an hindex of 116, co-authored 490 publications receiving 61381 citations. Previous affiliations of Christine H. Foyer include Rothamsted Research & Newcastle University.
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Journal ArticleDOI
Vitamin C and the Abscisic Acid-Insensitive 4 Transcription Factor Are Important Determinants of Aphid Resistance in Arabidopsis
Pavel I. Kerchev,Barbara Karpinska,Jenny Morris,Akila Hussain,Susan R. Verrall,Pete E. Hedley,Brian Fenton,Christine H. Foyer,Robert D. Hancock +8 more
TL;DR: ABI4 is a linchpin of redox regulation of the innate immune response to aphids, and Aphid-dependent transcriptome responses reveal a role for ascorbate-regulated receptor-like kinases in plant defenses against aphids.
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Modulation of carbon and nitrogen metabolism, and of nitrate reductase, in untransformed and transformed Nicotiana plumbaginifolia during CO2 enrichment of plants grown in pots and in hydroponic culture
Sylvie Ferrario-Méry,Marie-Christine Thibaud,Thomas Betsche,Marie-Hélène Valadier,Christine H. Foyer +4 more
TL;DR: It is concluded that plants grown in hydroponic culture have greater access to N than those grown in pots, regardless of the culture method, as CO2 enrichment has a direct effect on NR mRNA stability.
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Overexpression of sucrose phosphate synthase increases sucrose unloading in transformed tomato fruit
TL;DR: Results demonstrate that SPS overexpressing sucrose phosphate synthase increases the sink strength of transformed tomato fruit.
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The roles of redox processes in pea nodule development and senescence
Karin Groten,Hélène Vanacker,Christelle Dutilleul,Fabiola Bastian,Stephanie Bernard,Raffaella Carzaniga,Christine H. Foyer +6 more
TL;DR: No evidence could be found of pro- grammed cell death in nodule senescence and the protein carbonyl groups were more or less constant throughout nodule development, which suggest that ROS, ascorbate, and antioxidants in pea nodules appear to have little capacity to synthesize asCorbate de novo.
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Brassinosteroids Act as a Positive Regulator of Photoprotection in Response to Chilling Stress.
Pingping Fang,Meng‐Yu Yan,Cheng Chi,Mengqi Wang,Yan-Hong Zhou,Jie Zhou,Kai Shi,Xiao-Jian Xia,Christine H. Foyer,Jing-Quan Yu +9 more
TL;DR: It is demonstrated that brassinosteroids act as a positive regulator of photoprotection in a redox-PGR5-dependent manner in response to chilling stress in tomato.