L
Ling-Xia Guo
Researcher at Huazhong Agricultural University
Publications - 11
Citations - 231
Ling-Xia Guo is an academic researcher from Huazhong Agricultural University. The author has contributed to research in topics: Citric acid & Ripening. The author has an hindex of 6, co-authored 10 publications receiving 127 citations.
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Journal ArticleDOI
Recent Advances in the Regulation of Citric Acid Metabolism in Citrus Fruit
TL;DR: In this article, the authors provide a comprehensive model for citrate metabolism in citrus fruit juice sacs, and highlight recent advances and provide an overview of the metabolism, postharvest physiology, and the influence of agro-climatic factors on citrus fruits.
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Citrate Accumulation-Related Gene Expression and/or Enzyme Activity Analysis Combined With Metabolomics Provide a Novel Insight for an Orange Mutant
TL;DR: It is suggested that the reduction in proton pump activity is the key factor for the low citrate accumulation and the comprehensive metabolite alterations as well in ‘HAL’.
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Transcriptome Changes Associated with Boron Deficiency in Leaves of Two Citrus Scion-Rootstock Combinations.
Xiao Liu,Jia-Wei Zhang,Ling-Xia Guo,Yong-Zhong Liu,Long-Fei Jin,Syed Bilal Hussain,Wei Du,Zhao Deng,Shu-Ang Peng +8 more
TL;DR: Ns/Cc had higher boron content, leaf fresh weight, lower leaf chlorosis and stronger photosynthesis ability than Ns/To and the influence of To on the scion of Ns was worse than that of Cc due to differently regulating these metabolic pathways under the long term of B-deficiency.
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Identification and transcript profiles of citrus growth-regulating factor genes involved in the regulation of leaf and fruit development.
Xiao Liu,Ling-Xia Guo,Long-Fei Jin,Yong-Zhong Liu,Yong-Zhong Liu,Tao Liu,Yu-Hua Fan,Shu-Ang Peng +7 more
TL;DR: Results suggested that all citrus GRF genes involve in the leaf development, Cs GRF1, 4, 5, 6, and 8 act developmentally whilst CsGRF2, 3, 7, and 9 play fundamental roles in fruit cell enlargement, which may be through GA pathway or GA-independent pathway.
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Identification of the magnesium transport (MGT) family in Poncirus trifoliata and functional characterization of PtrMGT5 in magnesium deficiency stress
TL;DR: PtrMGT5 overexpression considerably enhanced absolute Mg deficiency and antagonistic MGT deficiency tolerance in transgenic Arabidopsis plants, which was accompanied by increased fresh weight and Mg content, whereas opposite changes were observed when PtrM GT5 homolog in Valencia Orange callus was knocked down.