Your search keyword '"Actinidia eriantha"' showing total 20 results

1. Unveiling kiwifruit TCP genes: evolution, functions, and expression insights.

Author

Li D, Li H, Feng H, Qi P, and Wu Z

Subjects

Phylogeny, Transcription Factors genetics, Ethylenes, Pseudomonas syringae physiology, Plant Diseases microbiology, Actinidia genetics

Abstract

The TEOSINTE-BRANCHED1/CYCLOIDEA/PROLEFERATING-CELL-FACTORS (TCP) gene family is a plant-specific transcriptional factor family involved in leaf morphogenesis and senescence, lateral branching, hormone crosstalk, and stress responses. To date, a systematic study on the identification and characterization of the TCP gene family in kiwifruit has not been reported. Additionally, the function of kiwifruit TCPs in regulating kiwifruit responses to the ethylene treatment and bacterial canker disease pathogen ( Pseudomonas syringae pv. actinidiae , Psa) has not been investigated. Here, we identified 40 and 26 TCP genes in Actinidia chinensis (Ac) and A. eriantha (Ae) genomes, respectively. The synteny analysis of AcTCPs illustrated that whole-genome duplication accounted for the expansion of the TCP family in Ac. Phylogenetic, conserved domain, and selection pressure analysis indicated that TCP family genes in Ac and Ae had undergone different evolutionary patterns after whole-genome duplication (WGD) events, causing differences in TCP gene number and distribution. Our results also suggested that protein structure and cis -element architecture in promoter regions of TCP genes have driven the function divergence of duplicated gene pairs. Three and four AcTCP genes significantly affected kiwifruit responses to the ethylene treatment and Psa invasion, respectively. Our results provided insight into general characters, evolutionary patterns, and functional diversity of kiwifruit TCPs .

Published

2024

2. Telomere-to-telomere and haplotype-resolved genome of the kiwifruit Actinidia eriantha.

Author

Wang Y, Dong M, Wu Y, Zhang F, Ren W, Lin Y, Chen Q, Zhang S, Yue J, and Liu Y

Abstract

Actinidia eriantha is a characteristic fruit tree featuring with great potential for its abundant vitamin C and strong disease resistance. It has been used in a wide range of breeding programs and functional genomics studies. Previously published genome assemblies of A. eriantha are quite fragmented and not highly contiguous. Using multiple sequencing strategies, we get the haplotype-resolved and gap-free genomes of an elite breeding line "Midao 31" (MD), termed MDHAPA and MDHAPB. The new assemblies anchored to 29 pseudochromosome pairs with a length of 619.3 Mb and 611.7 Mb, as well as resolved 27 and 28 gap-close chromosomes in a telomere-to-telomere (T2T) manner. Based on the haplotype-resolved genome, we found that most alleles experienced purifying selection and coordinately expressed. Owing to the high continuity of assemblies, we defined the centromeric regions of A. eriantha, and identified the major repeating monomer, which is designated as Ae-CEN153. This resource lays a solid foundation for further functional genomics study and horticultural traits improvement in kiwifruit., (© 2023. The Author(s).)

Published

2023

3. Genome-Wide Identification of Kiwifruit SGR Family Members and Functional Characterization of SGR2 Protein for Chlorophyll Degradation.

Author

Luo J, Abid M, Zhang Y, Cai X, Tu J, Gao P, Wang Z, and Huang H

Subjects

Phylogeny, Plant Growth Regulators metabolism, Plants metabolism, Chlorophyll genetics, Chlorophyll metabolism, Fruit metabolism, Gene Expression Regulation, Plant, Plant Proteins genetics, Plant Proteins metabolism, Actinidia metabolism

Abstract

The STAY-GREEN (SGR) proteins play an important role in chlorophyll (Chl) degradation and are closely related to plant photosynthesis. However, the availability of inadequate studies on SGR motivated us to conduct a comprehensive study on the identification and functional dissection of SGR superfamily members in kiwifruit. Here, we identified five SGR genes for each of the kiwifruit species [ Actinidia chinensis (Ac) and Actinidia eriantha (Ae)]. The phylogenetic analysis showed that the kiwifruit SGR superfamily members were divided into two subfamilies the SGR subfamily and the SGRL subfamily. The results of transcriptome data and RT-qPCR showed that the expression of the kiwifruit SGRs was closely related to light and plant developmental stages (regulated by plant growth regulators), which were further supported by the presence of light and the plant hormone-responsive cis -regulatory element in the promoter region. The subcellular localization analysis of the AcSGR2 protein confirmed its localization in the chloroplast. The Fv/Fm, SPAD value, and Chl contents were decreased in overexpressed AcSGR2 , but varied in different cultivars of A . chinensis . The sequence analysis showed significant differences within AcSGR2 proteins. Our findings provide valuable insights into the characteristics and evolutionary patterns of SGR genes in kiwifruit, and shall assist kiwifruit breeders to enhance cultivar development.

Published

2023

4. Prolonged On-Vine vs. Cold of Actinidia eriantha : Differences in Fruit Quality and Aroma Substances during Soft Ripening Stage.

Author

Lv Z, Ye B, Li X, He Y, Liu Q, Huang C, Jia D, and Xu X

Abstract

In order to find an efficient, economical and feasible method for soft ripening storage of kiwifruit, two softening methods (on-vine, cold) were utilized for the 'Ganlv-2' kiwifruit ( Actinidia. eriantha ) cultivar. A comprehensive evaluation was conducted on the quality changes in 'Ganlv-2' under different methods after fruit ripening by principal component analysis and mathematical modeling. Compared to kiwifruit under cold softening, kiwifruit treated with on-vine soft ripening had slightly greater sugar-acid ratios and flesh firmness and higher contents of dry matter, soluble solids, and soluble sugar. The titratable acid content was slightly lower in the on-vine group than in the cold group. The sensory evaluation results manifested little difference in fruit flavor between the two groups. However, at the end of the trial, the overripe taste of the on-vine group was lighter and the taste was sweeter than those of the cold group. More aromatic substances were emitted from the kiwifruit in the on-vine group. According to the mathematic model, there was no significant difference in fruit quality and flavor between the on-vine and traditional cold groups. The fruit in the on-vine group had a stronger flavor and lighter overripe flavor when they reached the edible state. This paper provided a novel storage method of A. eriantha , it can reduce the cost of traditional cold storage and reduce the pressure on centralized harvesting, and the feasibility of this method was verified from the fruit quality.

Published

2022

5. The phytochemical properties, pharmacological effects and traditional uses of Actinidia eriantha Benth.: A review.

Author

Wang S, Gao X, Sun Q, Zhu Y, Qin L, and Zhu B

Abstract

Actinidia eriantha Benth. (Called Maohuamihoutao in China) is a plant that has been utilized as a heat-clearing drug in She ethnic minority group for a long time in China. Specifically, it has been involved in the treatment of stomach cancer, colon cancer, cirrhosis with ascites, chronic hepatitis, leukemia, rectal prolapse, hernia and uterine prolapse. Pharmacological research provides partial evidence for the traditional use of A. eriantha and might have demonstrated the folk utilization of A. eriantha to combat many cancers. Crude extracts and relatively pure components of A. eriantha possess a variety of pharmacological activities, including anti-cancer, immunoregulatory, anti-angiogenic, neuroprotective, anti-inflammatory, and antioxidant activities. In addition, over 104 chemical substances have been determined from A. eriantha , involving terpenoids, alcohols, phenolics, aldehydes, organic acids, flavonoids glycosides, ketones, and glucoside. The existing literature reveals that a large proportion of the therapeutic effects of A. eriantha were rendered by the polysaccharides. However, the mechanisms of action and the structure-function correlations of these compounds, as well as the synergistic and antagonistic effects between them, need to be investigated further. Therefore, we propose that future studies on A. eriantha should focus on comprehensively assessing its medicinal quality, exploring its multi-target nature using network pharmacology approaches, and evaluating its long-term toxicity and efficacy in vivo ., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2022 Wang, Gao, Sun, Zhu, Qin and Zhu.)

Published

2022

6. Genome-Wide Identification of the LHC Gene Family in Kiwifruit and Regulatory Role of AcLhcb3.1/3.2 for Chlorophyll a Content.

Author

Luo J, Abid M, Tu J, Gao P, Wang Z, and Huang H

Subjects

Chlorophyll A metabolism, Fruit genetics, Fruit metabolism, Light-Harvesting Protein Complexes metabolism, Phylogeny, Plant Diseases genetics, Pseudomonas syringae physiology, Actinidia metabolism

Abstract

Light-harvesting chlorophyll a/b-binding (LHC) protein is a superfamily that plays a vital role in photosynthesis. However, the reported knowledge of LHCs in kiwifruit is inadequate and poorly understood. In this study, we identified 42 and 45 LHC genes in Actinidia chinensis (Ac) and A. eriantha (Ae) genomes. Phylogenetic analysis showed that the kiwifruit LHCs of both species were grouped into four subfamilies (Lhc, Lil, PsbS, and FCII). Expression profiles and qRT-PCR results revealed expression levels of LHC genes closely related to the light, temperature fluctuations, color changes during fruit ripening, and kiwifruit responses to Pseudomonas syringae pv. actinidiae (Psa). Subcellular localization analysis showed that AcLhcb1.5/3.1/3.2 were localized in the chloroplast while transient overexpression of AcLhcb3.1/3.2 in tobacco leaves confirmed a significantly increased content of chlorophyll a. Our findings provide evidence of the characters and evolution patterns of kiwifruit LHCs genes in kiwifruit and verify the AcLhcb3.1/3.2 genes controlling the chlorophyll a content.

Published

2022

7. Molecular phylogeography and species distribution modelling evidence of 'oceanic' adaptation for Actinidia eriantha with a refugium along the oceanic-continental gradient in a biodiversity hotspot.

Author

Guo R, Zhang YH, Zhang HJ, Landis JB, Zhang X, Wang HC, and Yao XH

Subjects

China, Climate, DNA, Chloroplast, Genes, Plant, Genetic Markers, Haplotypes, Microsatellite Repeats, Phylogeography, Actinidia genetics, Actinidia physiology, Adaptation, Biological, Biodiversity, Evolution, Molecular, Refugium

Abstract

Background: Refugia is considered to be critical for maintaining biodiversity; while discerning the type and pattern of refugia is pivotal for our understanding of evolutionary processes in the context of conservation. Interglacial and glacial refugia have been studied throughout subtropical China. However, studies on refugia along the oceanic-continental gradient have largely been ignored. We used a liana Actinidia eriantha, which occurs across the eastern moist evergreen broad-leaved forests of subtropical China, as a case study to test hypotheses of refugia along the oceanic-continental gradient and 'oceanic' adaptation., Results: The phylogeographic pattern of A. eriantha was explored using a combination of three cpDNA markers and 38 nuclear microsatellite loci, Species distribution modelling and dispersal corridors analysis. Our data showed intermediate levels of genetic diversity [haplotype diversity (h T ) = 0.498; unbiased expected heterozygosity (UH E ) = 0.510] both at the species and population level. Microsatellite loci revealed five clusters largely corresponding to geographic regions. Coalescent time of cpDNA lineages was dated to the middle Pliocene (ca. 4.03 Ma). Both geographic distance and climate difference have important roles for intraspecific divergence of the species. The Zhejiang-Fujian Hilly Region was demonstrated to be a refugium along the oceanic-continental gradient of the species and fit the 'refugia in refugia' pattern. Species distribution modelling analysis indicated that Precipitation of Coldest Quarter (importance of 44%), Temperature Seasonality (29%) and Mean Temperature of Wettest Quarter (25%) contributed the most to model development. By checking the isolines in the three climate layers, we found that A. eriantha prefer higher precipitation during the coldest quarter, lower seasonal temperature difference and lower mean temperature during the wettest quarter, which correspond to 'oceanic' adaptation. Actinidia eriantha expanded to its western distribution range along the dispersal corridor repeatedly during the glacial periods., Conclusions: Overall, our results provide integrated evidence demonstrating that the Zhejiang-Fujian Hilly Region is a refugium along the oceanic-continental gradient of Actinidia eriantha in subtropical China and that speciation is attributed to 'oceanic' adaptation. This study gives a deeper understanding of the refugia in subtropical China and will contribute to the conservation and utilization of kiwifruit wild resources in the context of climate change., (© 2022. The Author(s).)

Published

2022

8. Metabolome and Transcriptome Reveal Novel Formation Mechanism of Early Mature Trait in Kiwifruit ( Actinidia eriantha ).

Author

Liao G, Liu Q, Xu X, He Y, Li Y, Wang H, Ye B, Huang C, Zhong M, and Jia D

Abstract

Kiwifruit ( Actinidia eriantha ) is a peculiar berry resource in China, and the maturation period is generally late. Fortunately, we found an early mature A. eriantha germplasm. In order to explore the formation mechanism of its early mature trait, we determined the main carbohydrate and endogenous hormone content of the fruit, and used off-target metabolomics and transcriptomics to identify key regulatory metabolites and genes. We found that early mature germplasm had faster starch conversion rate and higher sucrose, glucose, and fructose content when harvested, while with lower auxin (IAA), abscisic acid (ABA), and zeatin (ZR) content. Through the non-targeted metabolome, 19 and 20 metabolites closely related to fruit maturity and early maturity were identified, respectively. At the same time, weighted correlation network analysis (WGCNA) showed that these metabolites were regulated by 73 and 99 genes, respectively, especially genes related to sugar metabolism were mostly. Based on above, the formation of early mature trait of A. eriantha was mainly due to the sucrose decomposition rate was reduced and the soluble solid content (SSC) accumulated at low levels of endogenous hormones, so as to reach the harvest standard earlier than the late mature germplasm. Finally, ten single nucleotide polymorphism (SNP) loci were developed which can be used for the identification of early mature trait of A. eriantha ., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2021 Liao, Liu, Xu, He, Li, Wang, Ye, Huang, Zhong and Jia.)

Published

2021

9. Genome-Wide Association Studies Provide Insights into the Genetic Determination of Flower and Leaf Traits of Actinidia eriantha .

Author

Liao G, Zhong M, Jiang Z, Tao J, Jia D, Qu X, Huang C, Liu Q, and Xu X

Abstract

Kiwifruit ( Actinidia eriantha ) is a dioecious vine, and the pollen of its male cultivars has a direct effect on the quality of its fruits. In this study, to facilitate molecular breeding and gene identification, we performed genome-wide association studies (GWAS) on 11 traits of flower and leaf. A total of 946,337 highly consistent SNP markers were obtained in the whole genome. Phylogenetic tree analysis and population structure analysis showed that the 143 germplasms can be divided into two groups. The linkage disequilibrium analysis showed that A. eriantha have a relatively fast attenuation rate, and that the average attenuation distance of LD was 0.1-0.3 Kb. The MLM (QK) model was determined as best for correlation analysis, and eight and three SNPs associated with flower- and leaf-related traits were identified, respectively, at 0.01 significance level. However, SNP markers associated with stamen number per flower, pollen viability, total chlorophyll content, and total flavonoid content were not identified at the 0.01 significant level, although it is worth noting that one, one, five, and two SNPs were identified to be associated with these traits at the 0.05 significant level. This study provides insights into the complex flower- and leaf-related biology, and identifies genes controlling important traits in A. eriantha through GWAS, which extends the genetic resources and basis for facilitating molecular breeding in kiwifruits., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2021 Liao, Zhong, Jiang, Tao, Jia, Qu, Huang, Liu and Xu.)

Published

2021

10. Genome-wide identification and comprehensive analysis of NAC family genes involved in fruit development in kiwifruit (Actinidia).

Author

Jia D, Jiang Z, Fu H, Chen L, Liao G, He Y, Huang C, and Xu X

Subjects

Actinidia growth & development, Amino Acid Motifs, Amino Acid Sequence, Chromosome Mapping, Chromosomes, Plant genetics, Conserved Sequence, Gene Expression Regulation, Plant, Genome, Plant, Multigene Family, Phylogeny, Plant Proteins chemistry, Plant Proteins metabolism, Real-Time Polymerase Chain Reaction, Synteny, Transcription Factors chemistry, Transcription Factors metabolism, Actinidia genetics, Fruit genetics, Fruit growth & development, Plant Proteins genetics, Transcription Factors genetics

Abstract

Background: NAC transcription factors (TFs) are plant-specific proteins encoded by a large gene family. They play important roles in diverse biological processes, such as plant growth and development, leaf senescence, and responses to biotic or abiotic stresses. Functions of a number of NAC TFs have been identified mainly in model plants. However, very few studies on NAC TFs have been conducted in the fruit tree of kiwifruit., Results: Genome-wide NAC genes were identified and their phylogeny, genomic structure, chromosomal location, synteny relationships, protein properties and conserved motifs were analyzed. In addition, the fruit developmental process was evaluated in a new kiwifruit cultivar of Actinidia eriantha 'Ganlu 1'. And expressions for all those NAC genes were analyzed by quantitative real-time PCR method in fruits of 'Ganlu 1' during its developmental process. Our research identified 142 NAC TFs which could be phylogenetically divided into 23 protein subfamilies. The genomic structures of those NAC genes indicated that their exons were between one and ten. Analysis of chromosomal locations suggested that 116 out of 142 NACs distributed on all the 29 kiwifruit chromosomes. In addition, genome-wide gene expression analysis showed that expressions of 125 out of 142 NAC genes could be detected in fruit samples., Conclusion: Our comprehensive study provides novel information on NAC genes and expression patterns in kiwifruit fruit. This research would be helpful for future functional identification of NAC genes involved in kiwifruit fruit development.

Published

2021

11. A comparative study on the mechanisms of innate immune responses in mice induced by Alum and Actinidia eriantha polysaccharide.

Author

Du J, Chen X, Ye Y, and Sun H

Subjects

Adjuvants, Immunologic, Animals, Biomarkers, Chemotaxis, Computational Biology methods, Cytokines metabolism, Female, Gene Expression Profiling, Immunophenotyping, Mice, T-Lymphocyte Subsets immunology, T-Lymphocyte Subsets metabolism, Transcriptome, Actinidia immunology, Alum Compounds, Immunity, Innate genetics, Polysaccharides immunology

Abstract

The innate immune mechanisms by which adjuvants enhance the potency and protection of vaccine remain at cellular level, but the molecular mechanisms, especially in vivo, are ill-identified. Actinidia eriantha polysaccharide (AEPS) is a potent adjuvant with dual Th1 and Th2 potentiating activity, while Alum elicits a strict Th2 response. The current experiments were designed to compare the innate immune responses in the peritoneal cavity of mice induced by two adjuvants and explore their molecular mechanisms using gene expression microarray including long noncoding RNAs (lncRNAs). AEPS induced the recruitment of monocytes, neutrophils and dendritic cells. However, Alum recruited neutrophils and eosinophils. AEPS and Alum specifically induced the differential expression of 546 and 922 genes in peritoneal cells, respectively. AEPS induced higher mRNA expression of CCL2, CCL3, CCL4, CCL7, CXCL2, CXCL3, CXCL5, CXCL10, IL-12β, and IL-23α in immune effector process, while Alum tended to Th17 response mRNAs such as IL-7A, IL-17F and IL-17RA. Furthermore, a robust adjuvant-specific expression pattern of lncRNAs was found in above mentioned biological processes, suggesting the involvement of lncRNAs in immune responses induced by AEPS and Alum. This study led to a better understanding of different molecular mechanisms of adjuvants and benefited the rational design of effective vaccines., Competing Interests: Declaration of competing interest The authors declare no competing interests., (Copyright © 2019 Elsevier B.V. All rights reserved.)

Published

2020

12. Characterization of Organic Acid Metabolism and Expression of Related Genes During Fruit Development of Actinidia eriantha 'Ganmi 6'.

Author

Jiang Z, Huang Q, Jia D, Zhong M, Tao J, Liao G, Huang C, and Xu X

Abstract

Studies on organic acid metabolism have been mainly concentrated on the fruit, whereas, few have focused on the mechanism of high organic acids content in the fruit of Actinidia eriantha . Fruits of 'Ganmi 6' harvested at eleven developmental periods were used as materials. The components and content of organic acids were determined by high-performance liquid chromatography (HPLC) system, the activities of the related enzyme were detected, and gene expression levels were measured by quantitative real-time PCR (qRT-PCR). Components of ascorbic acid (AsA) and eight kinds of organic acids were detected. These results showed that quinic acid and citric acid were the main organic acids in the fruit of 'Ganmi 6'. Correlation analysis showed that NADP-Quinate dehydrogenase (NADP-QDH), NADP-Shikimate dehydrogenase (NADP-SDH), and Cyt-Aconitase (Cyt-Aco) may be involved in regulating organic acids biosynthesis. Meanwhile, the SDH gene may play an important role in regulating the accumulation of citric acid. In this study, the activities of NADP-SDH, Mit-Aconitase (Mit-Aco), and NAD-Isocitrate dehydrogenase (NAD-IDH) were regulated by their corresponding genes at the transcriptional level. The activity of Citrate synthase (CS) may be affected by post-translational modification. Our results provided new insight into the characteristics of organic acid metabolism in the fruit of A. eriantha ., Competing Interests: The authors declare no conflicts of interest.

Published

2020

13. Chalcone Synthase-Encoding AeCHS is Involved in Normal Petal Coloration in Actinidia eriantha .

Author

Li Y, Cui W, Qi X, Qiao C, Lin M, Zhong Y, Hu C, and Fang J

Subjects

Actinidia metabolism, Anthocyanins biosynthesis, Flowers metabolism, Pigmentation, Actinidia genetics, Acyltransferases genetics, Flowers genetics, Plant Proteins genetics

Abstract

Studies on anthocyanin biosynthesis have been mainly concentrated on the fruit, whereas few have focused the mechanism of flower coloration in kiwifruit. Here, we report that the structural gene, AeCHS, is involved in anthocyanin accumulation and indispensable for normal petal coloration in Actinidia eriantha. Petals from three different species including Actinidia eriantha (red petals), Actinidia hemsleyana (light pink petals) and Actinidia arguta (white petals) were selected for anthocyanin determination and gene expression analysis. The anthocyanin components in A. eriantha were significantly higher than in A. hemsleyana or A. arguta. Consistently, gene expression profiles suggested that AeCHS expression in A. eriantha was higher than in A. hemsleyana or A. arguta. Cluster analysis showed that AeCHS was clustered into a single group and distinctly separated from other genes, indicating the expression pattern of AeCHS gene was different from any other. Additionally, correlation analysis revealed AeCHS expression significantly correlated with anthocyanin content. The complete coding sequence of AeCHS was cloned from petals of A. eriantha 'Zaoxu', showing the length of AeCHS was 1170 bp encoding a protein of 389 amino acids. AeCHS was located in the cytoplasm, indicating it is indeed a structural gene involved in anthocyanin biosynthesis. AeCHS silencing performed by infiltration grafting-mediated virus-induced gene silencing (VIGS) reduced petal anthocyanin content and bleached red petals in A. eriantha . Our results confirm a crucial role of AeCHS in anthocyanin biosynthesis and accumulation in A. eriantha petals; furthermore, they offer important basic information and constitute a reference point for further research., Competing Interests: The authors declare that they have no conflict of interest.

Published

2019

14. Comprehensive analysis of lncRNA and mRNA expression profiles in macrophages activated by Actinidia eriantha polysaccharide.

Author

Chen X, Du J, Zhu Y, Zhang C, and Sun H

Subjects

Animals, Gene Ontology, Mice, Oligonucleotide Array Sequence Analysis, RAW 264.7 Cells, RNA, Messenger genetics, Actinidia chemistry, Macrophages drug effects, Macrophages metabolism, Polysaccharides pharmacology, RNA, Long Noncoding genetics, Transcriptome drug effects

Abstract

The polysaccharide from the roots of Actinidia eriantha (AEPS) is a potent antitumor agent and immunological adjuvant. The recent evidences indicate that long noncoding RNAs (lncRNAs) play essential roles in regulating the activation and function of immune cells. The objective of this study was to investigate the expression profiles of lncRNAs and mRNAs and explore the role of lncRNAs in AEPS-activated RAW264.7 cells using whole gene expression microarray. AEPS induced the differential expression of 1,807 mRNAs and 506 lncRNAs in RAW264.7 cells. The mRNA expression levels of both M1 and M2 specific cytokines and chemokines were significantly upregulated in RAW264.7 cells by AEPS. NF-κB inhibitors and shRNA-NF-κB p65 significantly decreased the up-regulation of IL-1β expression in RAW264.7 cells induced by AEPS. Five AEPS-induced lncRNAs (D730047E02Rik, Gm14047, A_30_P01020139, A_30_P01026293 and A_30_P01032196) were identified and predicted to locally regulate mRNA expressions of immune response genes in RAW264.7 cells through the specific interaction with NF-κB p65. The inhibition of NF-κB could significantly suppress the expression of these lncRNAs induced by AEPS. These results indicated that AEPS induced the activation of macrophages via lncRNAs/NF-κB networks. This study further expanded current knowledge on the mechanisms of plant polysaccharides., (Copyright © 2019 Elsevier B.V. All rights reserved.)

Published

2019

15. The complete chloroplast genome sequence of Actinidia eriantha .

Author

Tang P, Shen R, He R, and Yao X

Abstract

The complete chloroplast (cp) genome sequence of Actinidia eriantha was sequenced and assembled using Illumina paired-end data. The cp genome from A. eriantha is 156,964 bp in length, composed of a pair of 23,892 bp inverted repeat regions (IR) separated by a large single copy region (LSC) of 88,639 bp and a small single copy region (SSC) of 20,541 bp. The cp genome contained 113 unique genes, including 79 protein-coding genes, 30 tRNA genes, and four ribosomal RNA genes. The phylogenetic position of A. eriantha based the cp genome data was sister to the group A. rufa , A. deliciosa , and A. chinensis ., Competing Interests: The authors report no declaration of interest. The authors alone are responsible for the content and writing of this article., (© 2019 The Author(s). Published by Informa UK Limited, trading as Taylor & Francis Group.)

Published

2019

16. The polysaccharide from the roots of Actinidia eriantha activates RAW264.7 macrophages via regulating microRNA expression.

Author

Chen X, Yuan L, Du J, Zhang C, and Sun H

Subjects

Animals, Macrophage Activation drug effects, Macrophages cytology, Macrophages immunology, Mice, Nitric Oxide biosynthesis, Phagocytosis drug effects, RAW 264.7 Cells, Actinidia chemistry, Gene Expression Regulation drug effects, Macrophages drug effects, Macrophages metabolism, MicroRNAs genetics, Plant Roots chemistry, Polysaccharides pharmacology

Abstract

The polysaccharide from the roots of Actinidia eriantha (AEPS), a potent antitumor agent and immunological adjuvant, has been previously reported to activate RAW264.7 macrophages via TLRs/NF-κB signaling. The objective of this study was to investigate microRNA (miRNA) expression profiles and explore the role of miRNAs in AEPS-activated RAW264.7 cells using microarray assay and specific inhibitor. AEPS induced 82 differentially expressed miRNAs including 43 up-regulated and 39 down-regulated in RAW264.7 cells. A set of 11 differentially expressed miRNAs and their 62 target mRNAs were predicted to involve in activation of RAW264.7 cell induced by AEPS based on computational databases and validated reports. miR-155 inhibitor significantly down-regulated the mRNA expression of proinflammatory factors (IL-1β, IL-6, COX-2 and NOS2), and blocked the production of NO in RAW264.7 cell induced by AEPS. The expression of accessory and costimulatory molecules (CD80, CD86, MHC I and MHC II) in AEPS-activated RAW264.7 cells was also remarkably reduced by miR-155 inhibitor. These results suggested that AEPS may induce macrophage activation through regulating miRNAs expression such as miR-155. This study further expanded current knowledge on the mechanisms of plant polysaccharides., (Copyright © 2019 Elsevier B.V. All rights reserved.)

Published

2019

17. Chromosome-scale genome assembly of kiwifruit Actinidia eriantha with single-molecule sequencing and chromatin interaction mapping.

Author

Tang W, Sun X, Yue J, Tang X, Jiao C, Yang Y, Niu X, Miao M, Zhang D, Huang S, Shi W, Li M, Fang C, Fei Z, and Liu Y

Subjects

Actinidia classification, Evolution, Molecular, Gene Expression Profiling, Genotype, Phenotype, Phylogeny, Transcriptome, Actinidia genetics, Chromatin genetics, Chromosome Mapping, Chromosomes, Plant, Fruit genetics, Genome, Plant, Genomics methods

Abstract

Background: Kiwifruit (Actinidia spp.) is a dioecious plant with fruits containing abundant vitamin C and minerals. A handful of kiwifruit species have been domesticated, among which Actinidiaeriantha is increasingly favored in breeding owing to its superior commercial traits. Recently, elite cultivars from A. eriantha have been successfully selected and further studies on their biology and breeding potential require genomic information, which is currently unavailable., Findings: We assembled a chromosome-scale genome sequence of A. eriantha cultivar White using single-molecular sequencing and chromatin interaction map-based scaffolding. The assembly has a total size of 690.6 megabases and an N50 of 21.7 megabases. Approximately 99% of the assembly were in 29 pseudomolecules corresponding to the 29 kiwifruit chromosomes. Forty-three percent of the A. eriantha genome are repetitive sequences, and the non-repetitive part encodes 42,988 protein-coding genes, of which 39,075 have homologues from other plant species or protein domains. The divergence time between A. eriantha and its close relative Actinidia chinensis is estimated to be 3.3 million years, and after diversification, 1,727 and 1,506 gene families are expanded and contracted in A. eriantha, respectively., Conclusions: We provide a high-quality reference genome for kiwifruit A. eriantha. This chromosome-scale genome assembly is substantially better than 2 published kiwifruit assemblies from A. chinensis in terms of genome contiguity and completeness. The availability of the A. eriantha genome provides a valuable resource for facilitating kiwifruit breeding and studies of kiwifruit biology., (© The Author(s) 2019. Published by Oxford University Press.)

Published

2019

18. Pathway analysis of global gene expression change in dendritic cells induced by the polysaccharide from the roots of Actinidia eriantha.

Author

Du J, Chen X, Wang C, and Sun H

Subjects

Animals, Antineoplastic Agents, Phytogenic isolation & purification, Cells, Cultured, Cytokines genetics, Cytokines metabolism, Dendritic Cells immunology, Dendritic Cells metabolism, Female, Gene Expression Profiling methods, Gene Expression Regulation, Gene Regulatory Networks, Immunologic Factors isolation & purification, Mice, Mice, Inbred BALB C, NF-kappa B immunology, NF-kappa B metabolism, Oligonucleotide Array Sequence Analysis, Phagocytosis drug effects, Phenotype, Phytotherapy, Plant Roots chemistry, Plants, Medicinal, Polysaccharides isolation & purification, Signal Transduction drug effects, Time Factors, Toll-Like Receptor 2 immunology, Toll-Like Receptor 2 metabolism, Toll-Like Receptor 4 immunology, Toll-Like Receptor 4 metabolism, Transcriptome, Actinidia chemistry, Antineoplastic Agents, Phytogenic pharmacology, Dendritic Cells drug effects, Immunologic Factors pharmacology, Polysaccharides pharmacology

Abstract

Ethnopharmacological Relevance: The roots of Actinidia eriantha Benth have been used clinically to treat a variety of cancers in traditional Chinese medicine. The polysaccharide from this drug (AEPS) was previously reported to be a potential antitumor agent with immunomodulatory activity. However, the mechanisms of its antitumor action in immunomodulation have not yet been well-defined., Aim of the Study: To investigate the effects of AEPS on the phenotypic and functional maturation of dendritic cells and to explore the intracellular signaling mechanisms of its antitumor action in the immunomodulation., Materials and Methods: The effects of AEPS on the phagocytic activity, expression of surface molecules, mRNA and protein expression levels of cytokines and chemokines in mouse bone-marrow derived dendritic cells (BMDCs) were determined by flow cytometry, qRT-PCR and ELISA, respectively. The transcriptional profile induced by AEPS was established using oligonucleotide microarray, and Ingenuity Pathway Analysis (IPA) was used to identify potential signaling pathways. Western blotting, neutralization experiments and inhibition assay were performed to confirm signaling pathway involved in maturation of DCs induced by AEPS. Furthermore, we discussed the downstream effects of the action of AEPS using clustering, network and pathway mapping approaches., Results: AEPS could significantly reduced phagocytic activity, promoted expression of accessory and co-stimulatory molecules, and up-regulated the mRNA and protein expression levels of cytokines and chemokines in BMDCs. Microarray assay revealed that AEPS induced significantly differential expression of 452 genes including up-regulated cytokines (IL-6, IL-1β, TNF-α, IL-10, IL-12p40, IFN-β and IFN-γ), chemokines (MIP-1α, MIP-1β, CCL5, MDC and MCP-1), transcription factors (STAT1, STAT2, STAT5b, IRF1 and IRF7) and pattern recognition receptors (TLR3, DDX58, DHX58 and IFIH1) in the BMDCs. AEPS-induced production of TNF-α and IL-12p40 from BMDCs was inhibited by antibodies against TLR2 and TLR4. Furthermore, AEPS induced the phosphorylation of NF-κB p65 in a time-dependent manner, and BAY 11-7082, an inhibitor of NF-κB, remarkably suppressed the production of cytokines induced by AEPS., Conclusion: AEPS triggers the phenotypic and functional maturation of DCs via TLR2/4 and NF-κB signaling pathway, resulting in augmented antitumor immune responses. Our results suggested that AEPS might be helpful in potentiating the efficiency of DC-based cancer immunotherapy. This study further expanded current knowledge on the mechanisms of antitumor action of AEPS., (Copyright © 2017 Elsevier B.V. All rights reserved.)

Published

2018

19. Development and Application of Transcriptome-Derived Microsatellites in Actinidia eriantha (Actinidiaceae).

Author

Guo R, Landis JB, Moore MJ, Meng A, Jian S, Yao X, and Wang H

Abstract

Actinidia eriantha Benth. is a diploid perennial woody vine native to China and is recognized as a valuable species for commercial kiwifruit improvement with high levels of ascorbic acid as well as having been used in traditional Chinese medicine. Due to the lack of genomic resources for the species, microsatellite markers for population genetics studies are scarce. In this study, RNASeq was conducted on fruit tissue of A. eriantha , yielding 5,678,129 reads with a total output of 3.41 Gb. De novo assembly yielded 69,783 non-redundant unigenes (41.3 Mb), of which 21,730 were annotated using protein databases. A total of 8,658 EST-SSR loci were identified in 7,495 unigene sequences, for which primer pairs were successfully designed for 3,842 loci (44.4%). Among these, 183 primer pairs were assayed for PCR amplification, yielding 69 with detectable polymorphism in A. eriantha . Additionally, 61 of the 69 polymorphic loci could be successfully amplified in at least one other Actinidia species. Of these, 14 polymorphic loci (mean N A = 6.07 ± 2.30) were randomly selected for assessing levels of genetic diversity and population structure within A. eriantha . Finally, a neighbor-joining tree and Bayesian clustering analysis showed distinct clustering into two groups ( K = 2), agreeing with the geographical distributions of these populations. Overall, our results will facilitate further studies of genetic diversity within A. eriantha and will aid in discriminating outlier loci involved in local adaptation.

Published

2017

20. Activation of RAW264.7 macrophages by the polysaccharide from the roots of Actinidia eriantha and its molecular mechanisms.

Author

Sun H, Zhang J, Chen F, Chen X, Zhou Z, and Wang H

Subjects

Animals, Macrophages metabolism, Mice, NF-kappa B metabolism, Plant Extracts chemistry, Plant Roots chemistry, Polysaccharides chemistry, Signal Transduction, Toll-Like Receptors metabolism, Actinidia chemistry, Macrophage Activation, Macrophages drug effects, Plant Extracts pharmacology, Polysaccharides pharmacology

Abstract

The polysaccharide from the roots of Actinidia eriantha (AEPS), a potent antitumor agent and immunological adjuvant, was investigated for the immunomodulatory effects on RAW264.7 macrophages and its molecular mechanisms. AEPS could significantly enhance the pinocytic and phagocytic activity, induce the production of NO, TNF-α, IL-10, IL-1β and IL-6, and promote the expression of accessory and costimulatory molecules in RAW264.7 cells. PCR array assay revealed that AEPS up-regulated 28 genes including TLRs (TLR2, TLR8, TLR9), proinflammatory factors (IL-1β, G-CSF, IL-1α, GM-CSF, IL-6, COX-2, TNF-α, IFN-β, CXCL10, CCL2, TNF-β, IL-10), and the genes involved in NF-κB signaling pathway, and down-regulated 6 genes such as TLR3, TLR4, PGLYRP1, EIF2αK2, MAP3K1 and IRF1. AEPS was further showed to promote cytoplasmic IκB-α degradation and increase nuclear NF-κB p65 levels in RAW264.7 cells. These results suggested that AEPS activated RAW264.7 macrophages and elicited a M1 and M2 response through TLRs/NF-κB signaling pathway., (Copyright © 2014 Elsevier Ltd. All rights reserved.)

Published

2015