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266 results on '"Zhu, Benzhong"'

2. Control of fruit softening and Ascorbic acid accumulation by manipulation of SlIMP3 in tomato

Author

Zheng, Xianzhe, Yuan, Yujin, Huang, Baowen, Hu, Xiaowei, Tang, Yuwei, Xu, Xin, Wu, Mengbo, Gong, Zehao, Luo, Yingqing, Gong, Min, Gao, Xueli, Wu, Guanle, Zhang, Qiongdan, Zhang, Lu, Chan, Helen, Zhu, Benzhong, Li, Zhengguo, Ferguson, Louise, and Deng, Wei

Subjects
Ascorbic Acid, Cell Wall, Fruit, Gene Expression Regulation, Plant, Inositol, Solanum lycopersicum, Plant Proteins, fruit, softening, tomato, ascorbic acid, myoinositol, Biological Sciences, Technology, Medical and Health Sciences, Biotechnology
Abstract

Postharvest deterioration is among the major challenges for the fruit industry. Regulation of the fruit softening rate is an effective strategy for extending shelf-life and reducing the economic losses due postharvest deterioration. The tomato myoinositol monophosphatase 3 gene SlIMP3, which showed highest expression level in fruit, was expressed and purified. SlIMP3 demonstrated high affinity with the L-Gal 1-P and D-Ins 3-P, and acted as a bifunctional enzyme in the biosynthesis of AsA and myoinositol. Overexpression of SlIMP3 not only improved AsA and myoinositol content, but also increased cell wall thickness, improved fruit firmness, delayed fruit softening, decreased water loss, and extended shelf-life. Overexpression of SlIMP3 also increased uronic acid, rhamnose, xylose, mannose, and galactose content in cell wall of fruit. Treating fruit with myoinositol obtained similar fruit phenotypes of SlIMP3-overexpressed fruit, with increased cell wall thickness and delayed fruit softening. Meanwhile, overexpression of SlIMP3 conferred tomato fruit tolerance to Botrytis cinerea. The function of SlIMP3 in cell wall biogenesis and fruit softening were also verified using another tomato species, Ailsa Craig (AC). Overexpression of SlDHAR in fruit increased AsA content, but did not affect the cell wall thickness or fruit firmness and softening. The results support a critical role for SlIMP3 in AsA biosynthesis and cell wall biogenesis, and provide a new method of delaying tomato fruit softening, and insight into the link between AsA and cell wall metabolism.

Published
2022

4. Re-evaluation of the nor mutation and the role of the NAC-NOR transcription factor in tomato fruit ripening

Author

Gao, Ying, Wei, Wei, Fan, Zhongqi, Zhao, Xiaodan, Zhang, Yiping, Jing, Yuan, Zhu, Benzhong, Zhu, Hongliang, Shan, Wei, Chen, Jianye, Grierson, Donald, Luo, Yunbo, Jemrić, Tomislav, Jiang, Cai-Zhong, and Fu, Da-Qi

Subjects
Agricultural, Veterinary and Food Sciences, Horticultural Production, Genetics, Ethylenes, Fruit, Gene Expression Regulation, Plant, Solanum lycopersicum, Mutation, Plant Proteins, Transcription Factors, CRISPR/Cas9, gene function, NAC-NOR, nor mutant, tomato fruit ripening, transcription factor, NAC-NOR, nor mutant, Plant Biology, Crop and Pasture Production, Plant Biology & Botany, Crop and pasture production, Biochemistry and cell biology, Plant biology
Abstract

The tomato non-ripening (nor) mutant generates a truncated 186-amino-acid protein (NOR186) and has been demonstrated previously to be a gain-of-function mutant. Here, we provide more evidence to support this view and answer the open question of whether the NAC-NOR gene is important in fruit ripening. Overexpression of NAC-NOR in the nor mutant did not restore the full ripening phenotype. Further analysis showed that the truncated NOR186 protein is located in the nucleus and binds to but does not activate the promoters of 1-aminocyclopropane-1-carboxylic acid synthase2 (SlACS2), geranylgeranyl diphosphate synthase2 (SlGgpps2), and pectate lyase (SlPL), which are involved in ethylene biosynthesis, carotenoid accumulation, and fruit softening, respectively. The activation of the promoters by the wild-type NOR protein can be inhibited by the mutant NOR186 protein. On the other hand, ethylene synthesis, carotenoid accumulation, and fruit softening were significantly inhibited in CR-NOR (CRISPR/Cas9-edited NAC-NOR) fruit compared with the wild-type, but much less severely affected than in the nor mutant, while they were accelerated in OE-NOR (overexpressed NAC-NOR) fruit. These data further indicated that nor is a gain-of-function mutation and NAC-NOR plays a significant role in ripening of wild-type fruit.

Published
2020

6. RNA–protein interactions reveals the pivotal role of lncRNA1840 in tomato fruit maturation.

Author

Zhu, Guoning, Li, Ran, Zhang, Lingling, Ma, Liqun, Li, Jinyan, Chen, Jieyin, Deng, Zhiping, Yan, Shijie, Li, Tao, Ren, Huazhong, Cui, Kaicheng, Qu, Guiqin, Zhu, Benzhong, Fu, Daqi, Luo, Yunbo, and Zhu, Hongliang

Subjects
GENE regulatory networks, ALTERNATIVE RNA splicing, GENE expression, TOMATO ripening, ETHYLENE synthesis, RNA splicing, FRUIT ripening
Abstract

SUMMARY: Long non‐coding RNAs (lncRNAs) play crucial roles in various biological processes in plants. However, the functional mechanism of lncRNAs in fruit ripening, particularly the transition from unripe to ripe stages, remains elusive. One such lncRNA1840, reported by our group, was found to have important role in tomato fruit ripening. In the present study, we gain insight into its functional role in fruit ripening. CRISPR‐Cas9 mediated lncRNA1840 mutants caused the delayed tomato fruit ripening. Notably, loss function of lncRNA1840 did not directly impact ethylene signaling but rather delay ethylene synthesis. Transcriptomic analysis revealed differences in the expression of ripening related genes in lncRNA1840 mutants, suggesting that it is involved in gene regulation of fruit ripening. We used Chromatin Isolation by RNA Purification (ChIRP)‐Seq to identify lncRNA1840 binding sites on chromatin. ChIRP‐seq suggested that lncRNA1840 had occupancy on 40 genes, but none of them is differentially expressed genes in transcriptomic analysis, which indicated lncRNA1840 might indirectly modulate the gene expression. ChIRP‐mass spectrometry analysis identified potential protein interactors of lncRNA1840, Pre‐mRNA processing splicing factor 8, highlighting its involvement in post‐transcriptional regulatory pathways. In summary, lncRNA1840 is key player in tomato plant growth and fruit ripening, with multifaceted roles in gene expression and regulatory networks. Significance Statement: Long non‐coding RNAs (lncRNAs) play important roles in various biological processes in plants, but the mechanism of action of lncRNAs during fruit ripening remains unexplored. lncRNA1840 was identified in tomato, which confirmed that it affected the ripening process of tomato fruit and achieved post‐transcriptional regulation by participating in alternative splicing, which improved the regulatory network of tomato fruit ripening and filled the gap of lncRNA in the field of fruit ripening. [ABSTRACT FROM AUTHOR]

Published
2024
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7. A NAC transcription factor, NOR-like1, is a new positive regulator of tomato fruit ripening

Author

Gao, Ying, Wei, Wei, Zhao, Xiaodan, Tan, Xiaoli, Fan, Zhongqi, Zhang, Yiping, Jing, Yuan, Meng, Lanhuan, Zhu, Benzhong, Zhu, Hongliang, Chen, Jianye, Jiang, Cai-Zhong, Grierson, Donald, Luo, Yunbo, and Fu, Da-Qi

Subjects
Biotechnology, Genetics, Aetiology, 2.1 Biological and endogenous factors
Abstract

Ripening of the model fruit tomato (Solanum lycopersicum) is controlled by a transcription factor network including NAC (NAM, ATAF1/2, and CUC2) domain proteins such as No-ripening (NOR), SlNAC1, and SlNAC4, but very little is known about the NAC targets or how they regulate ripening. Here, we conducted a systematic search of fruit-expressed NAC genes and showed that silencing NOR-like1 (Solyc07g063420) using virus-induced gene silencing (VIGS) inhibited specific aspects of ripening. Ripening initiation was delayed by 14 days when NOR-like1 function was inactivated by CRISPR/Cas9 and fruits showed obviously reduced ethylene production, retarded softening and chlorophyll loss, and reduced lycopene accumulation. RNA-sequencing profiling and gene promoter analysis suggested that genes involved in ethylene biosynthesis (SlACS2, SlACS4), color formation (SlGgpps2, SlSGR1), and cell wall metabolism (SlPG2a, SlPL, SlCEL2, and SlEXP1) are direct targets of NOR-like1. Electrophoretic mobility shift assays (EMSA), chromatin immunoprecipitation-quantitative PCR (ChIP-qPCR), and dual-luciferase reporter assay (DLR) confirmed that NOR-like1 bound to the promoters of these genes both in vitro and in vivo, and activated their expression. Our findings demonstrate that NOR-like1 is a new positive regulator of tomato fruit ripening, with an important role in the transcriptional regulatory network.

Published
2018

20. Dicer‐like2b suppresses the wiry leaf phenotype in tomato induced by tobacco mosaic virus

Author

Ma, Liqun, primary, Zhang, Xi, additional, Deng, Zhiqi, additional, Zhang, Peiyu, additional, Wang, Tian, additional, Li, Ran, additional, Li, Jinyan, additional, Cheng, Ke, additional, Wang, Jubin, additional, Ma, Nan, additional, Qu, Guiqin, additional, Zhu, Benzhong, additional, Fu, Daqi, additional, Luo, Yunbo, additional, Li, Feng, additional, and Zhu, Hongliang, additional

Published
2023
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28. SlRIP1b is a global organellar RNA editing factor, required for normal fruit development in tomato plants

Author

Li, Jinyan, primary, Wang, Keru, additional, Yang, Yongfang, additional, Lu, Yao, additional, Cui, Kaicheng, additional, Ji, Yajing, additional, Ma, Liqun, additional, Cheng, Ke, additional, Ostersetzer‐Biran, Oren, additional, Li, Feng, additional, Qu, Guiqin, additional, Zhu, Benzhong, additional, Fu, Daqi, additional, Luo, Yunbo, additional, and Zhu, Hongliang, additional

Published
2022
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29. Increasing flavonoid contents of tomato fruits through disruption of the SlSPL‐CNR, a suppressor of SlMYB12 transcription activity.

Author

Zhou, Leilei, Sun, Zongyan, Hu, Tingting, Chen, Di, Chen, Xue, Zhang, Qiaoli, Cao, Jiankang, Zhu, Benzhong, Fu, Daqi, Zhu, Hongliang, and Qu, Guiqin

Subjects
FLAVONOIDS, TOMATOES, FRUIT, FRUIT ripening, FRUIT composition
Abstract

This article discusses the potential for increasing the flavonoid content in tomato fruits through the disruption of a gene called SlSPL-CNR. Flavonoids are important compounds that contribute to the color and health benefits of fruits. The researchers found that the SlSPL-CNR gene negatively regulates flavonoid biosynthesis by repressing the transcriptional activity of another gene called SlMYB12. By using the CRISPR/Cas9 gene editing system to disrupt the SlSPL-CNR gene, the researchers were able to increase the flavonoid content in tomato fruits. This study provides valuable information for improving the quality of tomatoes through breeding. [Extracted from the article]

Published
2024
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34. SlRBP1 promotes translational efficiency via SleIF4A2 to maintain chloroplast function in tomato

Author

Ma, Liqun, primary, Yang, Yongfang, additional, Wang, Yuqiu, additional, Cheng, Ke, additional, Zhou, Xiwen, additional, Li, Jinyan, additional, Zhang, Jingyu, additional, Li, Ran, additional, Zhang, Lingling, additional, Wang, Keru, additional, Zeng, Ni, additional, Gong, Yanyan, additional, Zhu, Danmeng, additional, Deng, Zhiping, additional, Qu, Guiqin, additional, Zhu, Benzhong, additional, Fu, Daqi, additional, Luo, Yunbo, additional, and Zhu, Hongliang, additional

Published
2022
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38. SlRIP1b is a global organellar RNA editing factor, required for normal fruit development in tomato plants.

Author

Li, Jinyan, Wang, Keru, Yang, Yongfang, Lu, Yao, Cui, Kaicheng, Ji, Yajing, Ma, Liqun, Cheng, Ke, Ostersetzer‐Biran, Oren, Li, Feng, Qu, Guiqin, Zhu, Benzhong, Fu, Daqi, Luo, Yunbo, and Zhu, Hongliang

Subjects
RNA editing, FRUIT development, PLANT development, PLANT mitochondria, STOP codons, TOMATOES, CYTOCHROME c
Abstract

Summary: RNA editing in plant organelles involves numerous C‐U conversions, which often restore evolutionarily conserved codons and may generate new translation initiation and termination codons. These RNA maturation events rely on a subset of nuclear‐encoded protein cofactors. Here, we provide evidence of the role of SlRIP1b on RNA editing of mitochondrial transcripts in tomato (Solanum lycopersicum) plants.SlRIP1b is a RIP/MORF protein that was originally identified as an interacting partner of the organellar editing factor SlORRM4. Mutants of SlRIP1b, obtained by CRISPR/Cas9 strategy, exhibited abnormal carpel development and grew into fruit with more locules.RNA‐sequencing revealed that SlRIP1b affects the C‐U editing of numerous mitochondrial pre‐RNA transcripts and in particular altered RNA editing of various cytochrome c maturation (CCM)‐related genes. The slrip1b mutants display increased H2O2 and aberrant mitochondrial morphologies, which are associated with defects in cytochrome c biosynthesis and assembly of respiratory complex III.Taken together, our results indicate that SlRIP1b is a global editing factor that plays a key role in CCM and oxidative phosphorylation system biogenesis during fruit development in tomato plants. These data provide important insights into the molecular roles of organellar RNA editing factors during fruit development. [ABSTRACT FROM AUTHOR]

Published
2023
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39. A tomato receptor-like cytoplasmic kinase, SlZRK1, acts as a negative regulator in wound-induced jasmonic acid accumulation and insect resistance

Author

Sun, Zongyan, primary, Zang, Yudi, additional, Zhou, Leilei, additional, Song, Yanping, additional, Chen, Di, additional, Zhang, Qiaoli, additional, Liu, Chengxia, additional, Yi, Yuetong, additional, Zhu, Benzhong, additional, Fu, Daqi, additional, Zhu, Hongliang, additional, and Qu, Guiqin, additional

Published
2021
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40. MicroRNAs in tomato plants

Author

Zuo, JinHua, Wang, YunXiang, Liu, HaiPing, Ma, YuanZheng, Ju, Zheng, Zhai, BaiQiang, Fu, DaQi, Zhu, Yi, Luo, YunBo, and Zhu, BenZhong

Published
2011
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44. Aberrant gut microbiota alters host metabolome and impacts renal failure in humans and rodents

Author

Wang, Xifan, Yang, Songtao, Li, Shenghui, Zhao, Liang, Hao, Yanling, Qin, Junjie, Zhang, Lian, Zhang, Chengying, Bian, Weijing, Zuo, L. I., Gao, Xiu, Zhu, Baoli, Lei, Xingen, Gu, Zhenglong, Cui, Wei, Xu, Xiping, Li, Zhiming, Zhu, Benzhong, Li, Yuan, Chen, Shangwu, Guo, Huiyuan, Zhang, Hao, Sun, Jing, Zhang, Ming, Hui, Yan, Zhang, Xiaolin, Liu, Xiaoxue, Sun, Bowen, Wang, Longjiao, Qiu, Qinglu, Zhang, Yuchan, Li, Xingqi, Liu, Weiqian, Xue, Rui, Wu, Hong, Shao, Donghua, Li, Junling, Zhou, Yuanjie, Li, Shaochuan, Yang, Rentao, Pedersen, Oluf Borbye, Yu, Zhengquan, Ehrlich, Stanislav Dusko, Ren, Fazheng, Wang, Xifan, Yang, Songtao, Li, Shenghui, Zhao, Liang, Hao, Yanling, Qin, Junjie, Zhang, Lian, Zhang, Chengying, Bian, Weijing, Zuo, L. I., Gao, Xiu, Zhu, Baoli, Lei, Xingen, Gu, Zhenglong, Cui, Wei, Xu, Xiping, Li, Zhiming, Zhu, Benzhong, Li, Yuan, Chen, Shangwu, Guo, Huiyuan, Zhang, Hao, Sun, Jing, Zhang, Ming, Hui, Yan, Zhang, Xiaolin, Liu, Xiaoxue, Sun, Bowen, Wang, Longjiao, Qiu, Qinglu, Zhang, Yuchan, Li, Xingqi, Liu, Weiqian, Xue, Rui, Wu, Hong, Shao, Donghua, Li, Junling, Zhou, Yuanjie, Li, Shaochuan, Yang, Rentao, Pedersen, Oluf Borbye, Yu, Zhengquan, Ehrlich, Stanislav Dusko, and Ren, Fazheng

Abstract

Objective: Patients with renal failure suffer from symptoms caused by uraemic toxins, possibly of gut microbial origin, as deduced from studies in animals. The aim of the study is to characterise relationships between the intestinal microbiome composition, uraemic toxins and renal failure symptoms in human end-stage renal disease (ESRD). Design: Characterisation of gut microbiome, serum and faecal metabolome and human phenotypes in a cohort of 223 patients with ESRD and 69 healthy controls. Multidimensional data integration to reveal links between these datasets and the use of chronic kidney disease (CKD) rodent models to test the effects of intestinal microbiome on toxin accumulation and disease severity. Results: A group of microbial species enriched in ESRD correlates tightly to patient clinical variables and encode functions involved in toxin and secondary bile acids synthesis; the relative abundance of the microbial functions correlates with the serum or faecal concentrations of these metabolites. Microbiota from patients transplanted to renal injured germ-free mice or antibiotic-Treated rats induce higher production of serum uraemic toxins and aggravated renal fibrosis and oxidative stress more than microbiota from controls. Two of the species, Eggerthella lenta and Fusobacterium nucleatum, increase uraemic toxins production and promote renal disease development in a CKD rat model. A probiotic Bifidobacterium animalis decreases abundance of these species, reduces levels of toxins and the severity of the disease in rats. Conclusion: Aberrant gut microbiota in patients with ESRD sculpts a detrimental metabolome aggravating clinical outcomes, suggesting that the gut microbiota will be a promising target for diminishing uraemic toxicity in those patients. Trial registration number: This study was registered at ClinicalTrials.gov (NCT03010696).

Published
2020

47. Corrigendum to: Re-evaluation of the nor mutation and the role of the NAC-NOR transcription factor in tomato fruit ripening

Author

Gao, Ying, primary, Wei, Wei, primary, Fan, Zhongqi, primary, Zhao, Xiaodan, primary, Zhang, Yiping, primary, Jing, Yuan, primary, Zhu, Benzhong, primary, Zhu, Hongliang, primary, Shan, Wei, primary, Chen, Jianye, primary, Grierson, Donald, primary, Luo, Yunbo, primary, Jemrić, Tomislav, primary, Jiang, Cai-Zhong, primary, and Fu, Da-Qi, primary

Published
2020
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49. Aberrant gut microbiota alters host metabolome and impacts renal failure in humans and rodents

Author

Wang, Xifan, primary, Yang, Songtao, additional, Li, Shenghui, additional, Zhao, Liang, additional, Hao, Yanling, additional, Qin, Junjie, additional, Zhang, Lian, additional, Zhang, Chengying, additional, Bian, Weijing, additional, Zuo, Li, additional, Gao, Xiu, additional, Zhu, Baoli, additional, Lei, Xin Gen, additional, Gu, Zhenglong, additional, Cui, Wei, additional, Xu, Xiping, additional, Li, Zhiming, additional, Zhu, Benzhong, additional, Li, Yuan, additional, Chen, Shangwu, additional, Guo, Huiyuan, additional, Zhang, Hao, additional, Sun, Jing, additional, Zhang, Ming, additional, Hui, Yan, additional, Zhang, Xiaolin, additional, Liu, Xiaoxue, additional, Sun, Bowen, additional, Wang, Longjiao, additional, Qiu, Qinglu, additional, Zhang, Yuchan, additional, Li, Xingqi, additional, Liu, Weiqian, additional, Xue, Rui, additional, Wu, Hong, additional, Shao, DongHua, additional, Li, Junling, additional, Zhou, Yuanjie, additional, Li, Shaochuan, additional, Yang, Rentao, additional, Pedersen, Oluf Borbye, additional, Yu, Zhengquan, additional, Ehrlich, Stanislav Dusko, additional, and Ren, Fazheng, additional

Published
2020
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50. tomato receptor-like cytoplasmic kinase, SlZRK1, acts as a negative regulator in wound-induced jasmonic acid accumulation and insect resistance.

Author

Sun, Zongyan, Zang, Yudi, Zhou, Leilei, Song, Yanping, Chen, Di, Zhang, Qiaoli, Liu, Chengxia, Yi, Yuetong, Zhu, Benzhong, Fu, Daqi, Zhu, Hongliang, and Qu, Guiqin

Subjects
JASMONIC acid, PLANT resistance to insects, CELL membranes, RECEPTOR-like kinases, CELLULAR signal transduction, TOMATOES, WOUND healing
Abstract

Jasmonates accumulate rapidly and act as key regulators in response to mechanical wounding, but few studies have linked receptor-like cytoplasmic kinases (RLCKs) to wound-induced jasmonic acid (JA) signaling cascades. Here, we identified a novel wounding-induced RLCK-XII-2 subfamily member (SlZRK1) in tomato (Solanum lycopersicum) that was closely related to Arabidopsis HOPZ-ETI-DEFICIENT 1 (ZED1)-related kinases 1 based on phylogenetic analysis. SlZRK1 was targeted to the plasma membrane of tobacco mesophyll protoplasts as determined by transient co-expression with the plasma membrane marker mCherry–H+-ATPase. Catalytic residue sequence analysis and an in vitro kinase assay indicated that SlZRK1 may act as a pseudokinase. To further analyse the function of SlZRK1, we developed two stable knock-out mutants by CRISPR/Cas9. Loss of SlZRK1 significantly altered the expression of genes involved in JA biosynthesis, salicylic acid biosynthesis, and ethylene response. Furthermore, after mechanical wounding treatment, slzrk1 mutants increased transcription of early wound-inducible genes involved in JA biosynthesis and signaling. In addition, JA accumulation after wounding and plant resistance to herbivorous insects also were enhanced. Our findings expand plant regulatory networks in the wound-induced JA production by adding RLCKs as a new component in the wound signal transduction pathway. [ABSTRACT FROM AUTHOR]

Published
2021
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