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8 results on '"Yuhan Teng"'

1. The Overexpression of Peanut (Arachis hypogaea L.) AhALDH2B6 in Soybean Enhances Cold Resistance

Author

Mingyu Yang, Yuhan Teng, Tong Yue, Ziye Wang, Guanghui Feng, Jingwen Ruan, Shi Yan, Yuhong Zheng, Ling Zhang, Qingshan Chen, and Fanli Meng

Subjects
soybean, transgenic breeding, ALDH, cold stress, RNA-seq, Botany, QK1-989
Abstract

Soybeans are the main source of oils and protein for humans and animals; however, cold stress jeopardizes their growth and limits the soybean planting area. Aldehyde dehydrogenases (ALDH) are conserved enzymes that catalyze aldehyde oxidation for detoxification in response to stress. Additionally, transgenic breeding is an efficient method for producing stress-resistant germplasms. In this study, the peanut ALDH gene AhALDH2B6 was heterologously expressed in soybean, and its function was tested. We performed RNA-seq using transgenic and wild-type soybeans with and without cold treatment to investigate the potential mechanism. Transgenic soybeans developed stronger cold tolerance, with longer roots and taller stems than P3 soybeans. Biochemically, the transgenic soybeans exhibited a decrease in malondialdehyde activity and an increase in peroxidase and catalase content, both of which are indicative of stress alleviation. They also possessed higher levels of ALDH enzyme activity. Two phenylpropanoid-related pathways were specifically enriched in up-regulated differentially expressed genes (DEGs), including the phenylpropanoid metabolic process and phenylpropanoid biosynthetic process. Our findings suggest that AhALDH2B6 specifically up-regulates genes involved in oxidoreductase-related functions such as peroxidase, oxidoreductase, monooxygenase, and antioxidant activity, which is partially consistent with our biochemical data. These findings established the function of AhALDH2B6, especially its role in cold stress processes, and provided a foundation for molecular plant breeding, especially plant-stress-resistance breeding.

Published
2023
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2. Heterologous Expression of Arabidopsis AtARA6 in Soybean Enhances Salt Tolerance

Author

Zhipeng Hong, Yang Li, Yang Zhao, Mingyu Yang, Xiaoming Zhang, Yuhan Teng, Linjie Jing, Danxun Kong, Tongxin Liu, Shuanglin Li, Fanli Meng, Qi Wang, and Ling Zhang

Subjects
soybean, AtARA6, salt tolerance, RAB GTPase, RAB5, SNARE pathway, Genetics, QH426-470
Abstract

Salt damage is an important abiotic stress affecting the agronomic traits of soybean. Soybeans rapidly sense and transmit adverse signals when salt-damaged, inducing a set of response mechanisms to resist salt stress. AtARA6 encodes a small GTPase, which plays an important role in Arabidopsis vesicle transport and salt tolerance. In this study, we transformed the Arabidopsis gene AtARA6 into the cultivated soybean Shen Nong 9 (SN9). To investigate the salt tolerance pathways affected by AtARA6 in soybean, we performed transcriptome sequencing using transgenic soybean and wild-type (SN9) under salt treatment and water treatment. Our results suggest that AtARA6 is involved in the regulation of soybean SNARE complexes in the vesicle transport pathway, which may directly strengthen salt tolerance. In addition, we comprehensively analyzed the RNA-seq data of transgenic soybean and SN9 under different treatments and obtained 935 DEGs. GO analysis showed that these DEGs were significantly enriched in transcription factor activity, sequence-specific DNA binding, and the inositol catabolic process. Three salt-responsive negative regulator transcription factors, namely MYC2, WRKY6, and WRKY86, were found to be significantly downregulated after salt treatment in transgenic soybeans. Moreover, four genes encoding inositol oxygenase were significantly enriched in the inositol catabolic process pathway, which could improve the salt tolerance of transgenic soybeans by reducing their reactive oxygen species content. These are unique salt tolerance effects produced by transgenic soybeans. Our results provide basic insights into the function of AtARA6 in soybeans and its role in abiotic stress processes in plants.

Published
2022
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4. Identification and functional validation of super-enhancers in

Author

Hainan, Zhao, Mingyu, Yang, Jade, Bishop, Yuhan, Teng, Yingxue, Cao, Brandon D, Beall, Shuanglin, Li, Tongxin, Liu, Qingxi, Fang, Chao, Fang, Haoyang, Xin, Hans-Wilhelm, Nützmann, Anne, Osbourn, Fanli, Meng, and Jiming, Jiang

Subjects
Mammals, Arabidopsis, Animals, Regulatory Sequences, Nucleic Acid, Triterpenes, Chromatin
Abstract

Super-enhancers (SEs) are exceptionally large enhancers and are recognized to play prominent roles in cell identity in mammalian species. We surveyed the genomic regions containing large clusters of accessible chromatin regions (ACRs) marked by deoxyribonuclease (DNase) I hypersensitivity in

Published
2022

5. Singlet Oxygen Generation in Ferriporphyrin-Polymer Dots Catalyzed Chemiluminescence System for Cancer Therapy

Author

Mengdi Li, Yuhan Teng, Jicun Ren, and Xiangyi Huang

Subjects
chemistry.chemical_classification, Reactive oxygen species, Chemistry, Singlet oxygen, medicine.medical_treatment, Biochemistry (medical), Biomedical Engineering, Cancer therapy, Resonance, Photodynamic therapy, General Chemistry, Photochemistry, Catalysis, law.invention, Biomaterials, chemistry.chemical_compound, law, medicine, Ferriporphyrin, Chemiluminescence
Abstract

Chemiluminescence (CL) systems have been used as excitation sources through chemiluminescence resonance energy transfer (CRET) between CL substrates and photosensitizers for photodynamic therapy (PDT). However, it is still a tremendous challenge to construct a highly effective CL system that has a strong emission intensity and long duration time for PDT. Here, we constructed a Fe(III) deuteroporphyrin IX chloride-polymer dots (FeDP-Pdots) catalyzed CL system for cancer therapy, where the CL system was used as the generation of singlet oxygen for inhibiting and killing tumor cells with the use of FeDP-Pdots as both the catalysts and the photosensitizers. We prepared metalloporphyrin-polymer dots (M-Pdots) by nanoprecipitation and systematically investigated the relationship between the catalytic CL activities of M-Pdots and the structures of metalloporphyrins. It is found that FeDP-Pdots have the highest catalytic activity among 11 M-Pdots. Their CL intensity is almost 200-fold higher than the hemin-Pdots catalyzed system. The strong catalytic activity of FeDP is derived from its center ion Fe(III), carboxyl groups, conjugated system, and smaller steric hindrance. Importantly, our results demonstrated that the higher the chemiluminescence intensity is, the more reactive oxygen species are produced during the Pdots catalyzed CL reaction. The FeDP-Pdots catalyzed luminol analogue L012-H

Published
2022

6. Polystyrene–Hemin Dots for Chemiluminescence Imaging

Author

Liyun Deng, Min Zhou, Mengdi Li, Xiangyi Huang, Yuhan Teng, and Jicun Ren

Subjects
chemistry.chemical_compound, Autofluorescence, Light source, chemistry, law, General Materials Science, Polystyrene, Photochemistry, Cyclic RGD, Hemin, Chemiluminescence, law.invention
Abstract

Chemiluminescence (CL) imaging has high sensitivity with significantly increased signal-to-background ratio due to no interferences of light source and autofluorescence. However, it is still a grea...

Published
2019
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