Your search keyword '"Zhengyi Ling"' showing total 12 results

1. Terpene produced by coexpression of the TPS and P450 genes from Lavandula angustifolia protects plants from herbivore attacks during budding stages

Author

Zhengyi Ling, Jingrui Li, Yanmei Dong, Wenying Zhang, Hongtong Bai, Shu Li, Su Wang, Hui Li, and Lei Shi

Subjects

Botany, QK1-989

Abstract

Abstract To deter herbivore attacks, plants employ a diverse array of volatile compounds, particularly during the early developmental stages. The highly expressed genes LaTPS7, LaTPS8, and LaCYP71D582 were identified during the budding phases of Lavandula angustifolia. In vitro studies revealed that LaTPS7 generated nine distinct compounds, including camphene, myrcene, and limonene. LaTPS8 enzymatically converted eight volatiles by utilizing geranyl diphosphate and nerolidyl diphosphate as substrates. Overexpression of plastid-localized LaTPS7 in Nicotiana benthamiana resulted in the production of limonene. Furthermore, the endoplasmic reticulum-associated enzyme LaCYP71D582 potentially converted limonene into carveol. In N. benthamiana, LaTPS8 is responsible for the synthesis of α-pinene and sylvestrene. Furthermore, leaves transfected with LaTPS7 and leaves cotransfected with LaTPS7 and LaCYP71D582 exhibited a repellent effect on aphids, with an approximate rate of 70%. In comparison, leaves with an empty vector displayed a repellent rate of approximately 20%. Conversely, tobacco leaves expressing LaTPS7 attracted ladybugs at a rate of 48.33%, while leaves coexpressing LaTPS7 and LaCYP71D582 attracted ladybugs at a slightly higher rate of 58.33%. Subsequent authentic standard tests confirmed that limonene and carveol repel Myzus persicae while attracting Harmonia axyridis. The promoter activity of LaTPS7 and LaCYP71D582 was evaluated in Arabidopsis thaliana using GUS staining, and it was observed that wounding stimulated the expression of LaTPS7. The volatile compounds produced by LaTPS7, LaTPS8, and LaCYP71D582 play a crucial role in plant defence mechanisms. In practical applications, employing biological control measures based on plant-based approaches can promote human and environmental health.

Published

2023

2. Full-length transcriptome-referenced analysis reveals crucial roles of hormone and wounding during induction of aerial bulbils in lily

Author

Jingrui Li, Meiyu Sun, Hui Li, Zhengyi Ling, Di Wang, Jinzheng Zhang, and Lei Shi

Subjects

Bulbil induction, Full-length transcriptome, Oriental hybrid lily cultivar ‘Sorbonne’, Hormone- and wounding-regulated network, Botany, QK1-989

Abstract

Abstract Aerial bulbils are important vegetative reproductive organs in Lilium. They are often perpetually dormant in most Lilium species, and little is known about the induction of these vegetative structures. The world-famous Oriental hybrid lily cultivar ‘Sorbonne’, which blooms naturally devoid of aerial bulbils, is known for its lovely appearance and sweet fragrance. We found that decapitation stimulated the outgrowth of aerial bulbils at lower stems (LSs) and then application of low and high concentrations of IAA promoted aerial bulbils emergence around the wound at upper stems (USs) of ‘Sorbonne’. However, the genetic basis of aerial bulbil induction is still unclear. Herein, ‘Sorbonne’ transcriptome has been sequenced for the first time using the combination of third-generation long-read and next-generation short-read technology. A total of 46,557 high-quality non-redundant full-length transcripts were generated. Transcriptomic profiling was performed on seven tissues and stems with treatments of decapitation and application of low and high concentrations of IAA, respectively. Functional annotation of 1918 DEGs within stem samples of different treatments showed that hormone signaling, sugar metabolism and wound-induced genes were crucial to bulbils outgrowth. The expression pattern of auxin-, shoot branching hormone-, plant defense hormone- and wound-inducing-related genes indicated their crucial roles in bulbil induction. Then we established five hormone- and wounding-regulated co-expression modules and identified some candidate transcriptional factors, such as MYB, bZIP, and bHLH, that may function in inducing bulbils. High connectivity was observed among hormone signaling genes, wound-induced genes, and some transcriptional factors, suggesting wound- and hormone-invoked signals exhibit extensive cross-talk and regulate bulbil initiation-associated genes via multilayered regulatory cascades. We propose that the induction of aerial bulbils at LSs after decapitation can be explained as the release of apical dominance. In contrast, the induction of aerial bulbils at the cut surface of USs after IAA application occurs via a process similar to callus formation. This study provides abundant candidate genes that will deepen our understanding of the regulation of bulbil outgrowth, paving the way for further molecular breeding of lily.

Published

2022

3. Time-series transcriptome provides insights into the gene regulation network involved in the volatile terpenoid metabolism during the flower development of lavender

Author

Hui Li, Jingrui Li, Yanmei Dong, Haiping Hao, Zhengyi Ling, Hongtong Bai, Huafang Wang, Hongxia Cui, and Lei Shi

Subjects

Lavandula angustifolia ‘JX-2’, Pollinator, Herbivore, Volatile terpenoids, Flowering, Network analysis, Botany, QK1-989

Abstract

Abstract Background Essential oils (EOs) of Lavandula angustifolia, mainly consist of monoterpenoids and sesquiterpenoids, are of great commercial value. The multi-flower spiciform thyrse of lavender not only determines the output of EOs but also reflects an environmental adaption strategy. With the flower development and blossom in turn, the fluctuation of the volatile terpenoids displayed a regular change at each axis. However, the molecular mechanism underlying the regulation of volatile terpenoids during the process of flowering is poorly understood in lavender. Here, we combine metabolite and RNA-Seq analyses of flowers of five developmental stages at first- and second-axis (FFDSFSA) and initial flower bud (FB0) to discover the active terpenoid biosynthesis as well as flowering-related genes. Results A total of 56 mono- and sesquiterpenoids were identified in the EOs of L. angustifolia ‘JX-2’. FB0’ EO consists of 55 compounds and the two highest compounds, β-trans-ocimene (20.57%) and (+)-R-limonene (17.00%), can get rid of 74.71 and 78.41% aphids in Y-tube olfactometer experiments, respectively. With sequential and successive blossoms, temporally regulated volatiles were linked to pollinator attraction in field and olfaction bioassays. In three characteristic compounds of FFDSFSA’ EOs, linalyl acetate (72.73%) and lavandulyl acetate (72.09%) attracted more bees than linalool (45.35%). Many transcripts related to flowering time and volatile terpenoid metabolism expressed differently during the flower development. Similar metabolic and transcriptomic profiles were observed when florets from the two axes were maintained at the same maturity grade. Besides both compounds and differentially expressed genes were rich in FB0, most volatile compounds were significantly correlated with FB0-specific gene module. Most key regulators related to flowering and terpenoid metabolism were interconnected in the subnetwork of FB0-specific module, suggesting the cross-talk between the two biological processes to some degree. Conclusions Characteristic compounds and gene expression profile of FB0 exhibit ecological value in pest control. The precise control of each-axis flowering and regular emissions at transcriptional and metabolic level are important to pollinators attraction for lavender. Our study sheds new light on lavender maximizes its fitness from “gene-volatile terpenoid-insect” three layers.

Published

2019

4. Overexpression of Poplar PtrWRKY89 in Transgenic Arabidopsis Leads to a Reduction of Disease Resistance by Regulating Defense-Related Genes in Salicylate- and Jasmonate-Dependent Signaling.

Author

Yuanzhong Jiang, Li Guo, Rui Liu, Bo Jiao, Xin Zhao, Zhengyi Ling, and Keming Luo

Subjects

Medicine, Science

Abstract

The plant hormones jasmonic acid (JA) and salicylic acid (SA) play key roles in plant defenses against pathogens and several WRKY transcription factors have been shown to have a role in SA/JA crosstalk. In a previous study, overexpression of the poplar WRKY gene PtrWRKY89 enhanced resistance to pathogens in transgenic poplars. In this study, the promoter of PtrWRKY89 (ProPtrWRKY89) was isolated and used to drive GUS reporter gene. High GUS activity was observed in old leaves of transgenic Arabidopsis containing ProPtrWRKY89-GUS construct and GUS expression was extremely induced by SA solution and SA+MeJA mixture but not by MeJA treatment. Subcellular localization and transactivation assays showed that PtrWRKY89 acted as a transcription activator in the nucleus. Constitutive expression of PtrWRKY89 in Arabidopsis resulted in more susceptible to Pseudomonas syringae and Botrytis cinerea compared to wild-type plants. Quantitative real-time PCR (qRT-PCR) analysis confirmed that marker genes of SA and JA pathways were down-regulated in transgenic Arabidopsis after pathogen inoculations. Overall, our results indicated that PtrWRKY89 modulates a cross talk in resistance to P. syringe and B. cinerea by negatively regulating both SA and JA pathways in Arabidopsis.

Published

2016

5. Occurrence and Distribution of Shipworms (Mollusca: Bivalvia: Teredinidae) and Two New Records of Bankia species along the Coast of Hokkaido, Japan

Author

Angem Librando-Descallar, Zhengyi Ling, Takuma Haga, and Tatsufumi Okino

Subjects

General Medicine

Published

2023

6. Terpene produced by co-expression of TPS and P450 genes from Lavandula angustifolia protect plant from herbivores attacks during budding stages

Author

Zhengyi Ling, Jingrui Li, Yanmei Dong, Wenying Zhang, Hongtong Bai, Shu Li, Su Wang, Hui Li, and lei shi

Abstract

To defend themselves against herbivore attacks, plants produce a variety of volatiles, especially during the early stages of development. During the budding phases of Lavandula angustifolia , three genes ( La TPS7, La TPS8, and La CYP71D582) were discovered to be highly expressed. The La TPS7 catalyzes total eight different compounds in vitro , including camphene, myrcene, and limonene, among others. The La TPS8 converted ten volatiles using geranyl diphosphate and nerolidyl diphosphate as substrates. The plastid-located La TPS7 gene produced limonene when it was overexpressed in tobacco. The endoplasmic reticulum enzyme La CYP71D582 may further convert limonene to carveol. The La TPS8 present in plastids creates α-pinene and sylvestrene, according to in vitro tests. The limonene and carveol were discovered to repel Myzus persicae while attracting Harmonia axyridis confirmed by standards test. In Arabidopsis thaliana , a GUS staining test was used to evaluate the promoter activity of La TPS7 and La CYP71D582, and it was discovered that wounding may boost La TPS7 expression levels. The volatile compounds generated by La TPS7, La TPS8, and La CYP71D582 were found to be important in plant protection. In practice, biological control can be applied to promote human and environmental health via plant approaches.

Published

2022

7. Time-series transcriptome provides insights into the gene regulation network involved in the volatile terpenoid metabolism during the flower development of lavender

Author

Bai Hongtong, Yanmei Dong, Jingrui Li, Zhengyi Ling, Hongxia Cui, Lei Shi, Hai-Ping Hao, Hui Li, and Huafang Wang

Subjects

0106 biological sciences, 0301 basic medicine, Pollinator, Insecta, Lavender, Flowers, Plant Science, Acetates, Biology, Linalyl acetate, 01 natural sciences, Flowering, 03 medical and health sciences, chemistry.chemical_compound, Linalool, lcsh:Botany, Botany, Oils, Volatile, Animals, Plant Oils, Gene Regulatory Networks, Pollination, Ecosystem, Lavandula angustifolia, Sequence Analysis, RNA, Terpenes, Bud, Gene Expression Profiling, Lavandulyl acetate, Terpenoid, lcsh:QK1-989, Lavandula, 030104 developmental biology, Olfactometer, chemistry, RNA, Plant, Odorants, Herbivore, Monoterpenes, Lavandula angustifolia ‘JX-2’, Network analysis, Volatile terpenoids, Research Article, 010606 plant biology & botany

Abstract

Background Essential oils (EOs) of Lavandula angustifolia, mainly consist of monoterpenoids and sesquiterpenoids, are of great commercial value. The multi-flower spiciform thyrse of lavender not only determines the output of EOs but also reflects an environmental adaption strategy. With the flower development and blossom in turn, the fluctuation of the volatile terpenoids displayed a regular change at each axis. However, the molecular mechanism underlying the regulation of volatile terpenoids during the process of flowering is poorly understood in lavender. Here, we combine metabolite and RNA-Seq analyses of flowers of five developmental stages at first- and second-axis (FFDSFSA) and initial flower bud (FB0) to discover the active terpenoid biosynthesis as well as flowering-related genes. Results A total of 56 mono- and sesquiterpenoids were identified in the EOs of L. angustifolia ‘JX-2’. FB0’ EO consists of 55 compounds and the two highest compounds, β-trans-ocimene (20.57%) and (+)-R-limonene (17.00%), can get rid of 74.71 and 78.41% aphids in Y-tube olfactometer experiments, respectively. With sequential and successive blossoms, temporally regulated volatiles were linked to pollinator attraction in field and olfaction bioassays. In three characteristic compounds of FFDSFSA’ EOs, linalyl acetate (72.73%) and lavandulyl acetate (72.09%) attracted more bees than linalool (45.35%). Many transcripts related to flowering time and volatile terpenoid metabolism expressed differently during the flower development. Similar metabolic and transcriptomic profiles were observed when florets from the two axes were maintained at the same maturity grade. Besides both compounds and differentially expressed genes were rich in FB0, most volatile compounds were significantly correlated with FB0-specific gene module. Most key regulators related to flowering and terpenoid metabolism were interconnected in the subnetwork of FB0-specific module, suggesting the cross-talk between the two biological processes to some degree. Conclusions Characteristic compounds and gene expression profile of FB0 exhibit ecological value in pest control. The precise control of each-axis flowering and regular emissions at transcriptional and metabolic level are important to pollinators attraction for lavender. Our study sheds new light on lavender maximizes its fitness from “gene-volatile terpenoid-insect” three layers. Electronic supplementary material The online version of this article (10.1186/s12870-019-1908-6) contains supplementary material, which is available to authorized users.

Published

2019

8. Additional file 14: of Time-series transcriptome provides insights into the gene regulation network involved in the volatile terpenoid metabolism during the flower development of lavender

Author

Li, Hui, Jingrui Li, Yanmei Dong, Haiping Hao, Zhengyi Ling, Hongtong Bai, Huafang Wang, Hongxia Cui, and Shi, Lei

Abstract

Table S3. Information of Illumina reads from 33 libraries. (DOCX 16 kb)

Published

2019

9. Isolation and characterization of a subgroup IIa WRKY transcription factor PtrWRKY40 fromPopulus trichocarpa

Author

Zhengyi Ling, Yuanzhong Jiang, Abdul Karim, Yanjiao Duan, Li Guo, Keming Luo, Chaofeng Li, and Shenglong Ye

Subjects

Methyl jasmonate, biology, Physiology, Jasmonic acid, fungi, Arabidopsis, Plant Science, Plants, Genetically Modified, biology.organism_classification, Molecular biology, WRKY protein domain, chemistry.chemical_compound, Populus, Ascomycota, chemistry, Dothiorella gregaria, Gene Expression Regulation, Plant, Botany, Arabidopsis thaliana, Jasmonate, Disease Resistance, Plant Diseases, Transcription Factors, Botrytis cinerea

Abstract

Salicylic acid (SA) is a defense-related key signaling molecule involved in plant immunity. In this study, a subgroup IIa WRKY gene PtrWRKY40 was isolated from Populus trichocarpa, which displayed amino acid sequence similar to Arabidopsis AtWRKY40, AtWRKY18 and AtWRKY60. PtrWRKY40 transcripts accumulated significantly in response to SA, methyl jasmonate and hemibiotrophic fungus Dothiorella gregaria Sacc. Overexpression of PtrWRKY40 in transgenic poplar conferred higher susceptibility to D. gregaria infection. This susceptibility was coupled with reduced expression of SA-associated genes (PR1.1, PR2.1, PR5.9, CPR5 and SID2) and jasmonic acid (JA)-related gene JAZ8. Decreased accumulation of endogenous SA was observed in transgenic lines overexpressing PtrWRKY40 when compared with wild-type plants. However, constitutive expression of PtrWRKY40 in Arabidopsis thaliana displayed resistance to necrotrophic fungus Botrytis cinerea, and the expression of JA-defense-related genes such as PDF1.2, VSP2 and PR3 was remarkably increased in transgenic plants upon infection with fugal pathogens. Together, our findings indicate that PtrWRKY40 plays a negative role in resistance to hemibiotrophic fungi in poplar but functions as a positive regulator of resistance toward the necrotrophic fungi in Arabidopsis.

Published

2015

10. Overexpression of Poplar PtrWRKY89 in Transgenic Arabidopsis Leads to a Reduction of Disease Resistance by Regulating Defense-Related Genes in Salicylate- and Jasmonate-Dependent Signaling

Author

Xin Zhao, Rui Liu, Yuanzhong Jiang, Zhengyi Ling, Bo Jiao, Keming Luo, and Li Guo

Subjects

0106 biological sciences, 0301 basic medicine, Chlorophyll, Leaves, Agricultural Biotechnology, Arabidopsis, lcsh:Medicine, Pseudomonas syringae, Gene Expression, GUS reporter system, Plant Science, 01 natural sciences, Genetically Modified Plants, Biochemistry, chemistry.chemical_compound, Transactivation, Genes, Reporter, Plant defense against herbivory, Jasmonate, Plant Hormones, lcsh:Science, Promoter Regions, Genetic, Disease Resistance, Genetics, Multidisciplinary, biology, Plant Biochemistry, Jasmonic acid, Genetically Modified Organisms, Plant Anatomy, food and beverages, Agriculture, Plants, Plants, Genetically Modified, Cell biology, Phenotype, RNA, Plant, Plant Physiology, Hyperexpression Techniques, Botrytis, Salicylic Acid, Genetic Engineering, Signal Transduction, Research Article, Biotechnology, Transcriptional Activation, Arabidopsis Thaliana, Down-Regulation, Cyclopentanes, Brassica, Plant disease resistance, Real-Time Polymerase Chain Reaction, Research and Analysis Methods, 03 medical and health sciences, Model Organisms, Plant and Algal Models, DNA-binding proteins, Gene Expression and Vector Techniques, Gene Regulation, Plant Defenses, Oxylipins, Molecular Biology Techniques, Molecular Biology, Molecular Biology Assays and Analysis Techniques, Arabidopsis Proteins, lcsh:R, fungi, Organisms, Biology and Life Sciences, Proteins, Hydrogen Peroxide, biology.organism_classification, WRKY protein domain, Hormones, Regulatory Proteins, Plant Leaves, 030104 developmental biology, chemistry, Jasmonic Acid, lcsh:Q, Plant Biotechnology, Transcriptome, 010606 plant biology & botany, Transcription Factors

Abstract

The plant hormones jasmonic acid (JA) and salicylic acid (SA) play key roles in plant defenses against pathogens and several WRKY transcription factors have been shown to have a role in SA/JA crosstalk. In a previous study, overexpression of the poplar WRKY gene PtrWRKY89 enhanced resistance to pathogens in transgenic poplars. In this study, the promoter of PtrWRKY89 (ProPtrWRKY89) was isolated and used to drive GUS reporter gene. High GUS activity was observed in old leaves of transgenic Arabidopsis containing ProPtrWRKY89-GUS construct and GUS expression was extremely induced by SA solution and SA+MeJA mixture but not by MeJA treatment. Subcellular localization and transactivation assays showed that PtrWRKY89 acted as a transcription activator in the nucleus. Constitutive expression of PtrWRKY89 in Arabidopsis resulted in more susceptible to Pseudomonas syringae and Botrytis cinerea compared to wild-type plants. Quantitative real-time PCR (qRT-PCR) analysis confirmed that marker genes of SA and JA pathways were down-regulated in transgenic Arabidopsis after pathogen inoculations. Overall, our results indicated that PtrWRKY89 modulates a cross talk in resistance to P. syringe and B. cinerea by negatively regulating both SA and JA pathways in Arabidopsis.

Published

2015

11. PtrWRKY73, a salicylic acid-inducible poplar WRKY transcription factor, is involved in disease resistance in Arabidopsis thaliana

Author

Shenglong Ye, Keming Luo, Yuanzhong Jiang, Zhengyi Ling, Abdul Karim, Yunqiu He, Yanjiao Duan, and Siqi Yang

Subjects

Molecular Sequence Data, Arabidopsis, Gene Expression, Pseudomonas syringae, Plant Science, Plant disease resistance, Plant Roots, Microbiology, chemistry.chemical_compound, SA, Gene Expression Regulation, Plant, Genes, Reporter, Stress, Physiological, Botany, Plant defense against herbivory, Arabidopsis thaliana, Amino Acid Sequence, Phylogeny, Botrytis cinerea, Disease Resistance, Plant Diseases, Plant Proteins, Original Paper, biology, Plant Stems, Pathogen, fungi, food and beverages, WRKY, General Medicine, biology.organism_classification, Plants, Genetically Modified, WRKY protein domain, Plant Leaves, Populus, chemistry, Seedlings, Botrytis, Transcription factor, Salicylic Acid, Agronomy and Crop Science, Sequence Alignment, Salicylic acid, Transcription Factors

Abstract

Key message A salicylic acid-inducible WRKY gene, PtrWRKY73, from Populus trichocarpa , was isolated and characterized. Overexpression of PtrWRKY73 in Arabidopsis thaliana increased resistance to biotrophic pathogens but reduced resistance against necrotrophic pathogens. Abstract WRKY transcription factors are commonly involved in plant defense responses. However, limited information is available about the roles of the WRKY genes in poplar defense. In this study, we isolated a salicylic acid (SA)-inducible WRKY gene, PtrWRKY73, from Populus trichocarpa, belonging to group I family and containing two WRKY domains, a D domain and an SP cluster. PtrWRKY73 was expressed predominantly in roots, old leaves, sprouts and stems, especially in phloem and its expression was induced in response to treatment with exogenous SA. PtrWRKY73 was localized to the nucleus of plant cells and exhibited transcriptional activation. Overexpression of PtrWRKY73 in Arabidopsis thaliana resulted in increased resistance to a virulent strain of the bacterial pathogen Pseudomonas syringae (PstDC3000), but more sensitivity to the necrotrophic fungal pathogen Botrytis cinerea. The SA-mediated defense-associated genes, such as PR1, PR2 and PAD4, were markedly up-regulated in transgenic plants overexpressing PtrWRKY73. Arabidopsis non-expressor of PR1 (NPR1) was not affected, whereas a defense-related gene PAL4 had reduced in PtrWRKY73 overexpressor plants. Together, these results indicated that PtrWRKY73 plays a positive role in plant resistance to biotrophic pathogens but a negative effect on resistance against necrotrophic pathogens. Electronic supplementary material The online version of this article (doi:10.1007/s00299-015-1745-5) contains supplementary material, which is available to authorized users.

Published

2014

12. Isolation and characterization of a subgroup IIa WRKY transcription factor PtrWRKY40 from Populus trichocarpa.

Author

Karim, Abdul, Yuanzhong Jiang, Li Guo, Zhengyi Ling, Shenglong Ye, Yanjiao Duan, Chaofeng Li, and Keming Luo

Subjects

BLACK cottonwood, SALICYLIC acid, TRANSCRIPTION factors, AMINO acid sequence, JASMONIC acid, ARABIDOPSIS thaliana

Abstract

Salicylic acid (SA) is a defense-related key signaling molecule involved in plant immunity. In this study, a subgroup IIa WRKY gene PtrWRKY40 was isolated from Populus trichocarpa, which displayed amino acid sequence similar to Arabidopsis AtWRKY40, AtWRKY18 and AtWRKY60. PtrWRKY40 transcripts accumulated significantly in response to SA, methyl jasmonate and hemibiotrophic fungus Dothiorella gregaria Sacc. Overexpression of PtrWRKY40 in transgenic poplar conferred higher susceptibility to D. gregaria infection. This susceptibility was coupled with reduced expression of SA-associated genes (PR1.1, PR2.1, PR5.9, CPR5 and SID2) and jasmonic acid (JA)-related gene JAZ8. Decreased accumulation of endogenous SA was observed in transgenic lines overexpressing PtrWRKY40 when compared with wild-type plants. However, constitutive expression of PtrWRKY40 in Arabidopsis thaliana displayed resistance to necrotrophic fungus Botrytis cinerea, and the expression of JA-defense-related genes such as PDF1.2, VSP2 and PR3 was remarkably increased in transgenic plants upon infection with fugal pathogens. Together, our findings indicate that PtrWRKY40 plays a negative role in resistance to hemibiotrophic fungi in poplar but functions as a positive regulator of resistance toward the necrotrophic fungi in Arabidopsis. [ABSTRACT FROM AUTHOR]

Published

2015