H
Hui Liu
Researcher at Chinese Academy of Tropical Agricultural Sciences
Publications - 15
Citations - 704
Hui Liu is an academic researcher from Chinese Academy of Tropical Agricultural Sciences. The author has contributed to research in topics: Hevea brasiliensis & Abiotic stress. The author has an hindex of 10, co-authored 15 publications receiving 550 citations. Previous affiliations of Hui Liu include Huazhong Agricultural University.
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Over‐expression of sly‐miR156a in tomato results in multiple vegetative and reproductive trait alterations and partial phenocopy of the sft mutant
Xiaohui Zhang,Zhe Zou,Junhong Zhang,Yuyang Zhang,Qinqin Han,Tixu Hu,Xiaoguang Xu,Hui Liu,Hanxia Li,Zhibiao Ye +9 more
TL;DR: These studies reveal novel phenotypes regulated by miR156, including reduced height, smaller but more numerous leaves, and smaller fruit in transgenic tomato plants.
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Overexpression of ShDHN, a dehydrin gene from Solanum habrochaites enhances tolerance to multiple abiotic stresses in tomato
TL;DR: Overexpression of ShDHN in cultivated tomato increased tolerance to cold and drought stresses and improved seedling growth under salt and osmotic stresses, and overexpression in tomato led to the up- or down-regulated expression of several genes involved in ROS scavenging and JA signaling pathway.
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Differential modulation of photosynthesis, signaling, and transcriptional regulation between tolerant and sensitive tomato genotypes under cold stress.
TL;DR: Gene ontology (GO) term enrichment analysis revealed that more GO biological process terms were significantly enriched among the up-regulated genes in the two tolerant genotypes, whereas more biological processes were significantly repressed by cold stress in the sensitive one.
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Overexpression of calmodulin-like (ShCML44) stress-responsive gene from Solanum habrochaites enhances tolerance to multiple abiotic stresses.
TL;DR: The molecular understanding of ShCML44 gene is strengthened to improve the abiotic stress tolerance in tomato and transgenic tomato plants showed greater tolerance to cold, drought, and salinity stresses, and recorded higher germination and better seedling growth.
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A multiple stress-responsive gene ERD15 from Solanum pennellii confers stress tolerance in tobacco.
Khurram Ziaf,Rachid Loukehaich,Pengjuan Gong,Hui Liu,Qinqin Han,Taotao Wang,Hanxia Li,Zhibiao Ye +7 more
TL;DR: The results show that SpERD15 augments stress tolerance by enhancing the efficiency of PSII through the protection of cellular membranes, as conferred by the accumulation of compatible solutes and limited lipid peroxidation.