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14 results on '"Xianbo Zheng"'

2. Pppif8, a Della2-Interacting Protein, Regulates Peach Shoot Elongation Possibly Through Auxin Signaling

Author

Yun Chen, Mengmeng Zhang, Yingcong Wang, Xianbo Zheng, Haipeng Zhang, Langlang Zhang, Bin Tan, Xia Ye, Wei Wang, Jidong Li, Ming Li, Jun Cheng, and Jiancan Feng

Subjects
History, Indoleacetic Acids, Light, Polymers and Plastics, Arabidopsis Proteins, Arabidopsis, Plant Science, General Medicine, Hypocotyl, Industrial and Manufacturing Engineering, Gene Expression Regulation, Plant, Genetics, Business and International Management, Agronomy and Crop Science
Abstract

Rapid growth of branches in a peach tree restricts the light penetration and air ventilation within the orchard, which lowers fruit quality and promotes the occurrence of diseases and insects. Our previous works showed that PpDELLA1 and PpDELLA2 repress the rapid growth of annual shoots. Proteins that interact with DELLA are vital for its function. In this study, seven PpPIFs (PpPIF1, -2, -3, -4, -6, -7 and -8) were identified in the peach genome and contain a conserved bHLH domain. Among the seven PpPIFs, PpPIF8 interacted with PpDELLA2 through an unknown motif in the C-terminal and/or the bHLH domain. Overexpression of PpPIF8 in Arabidopsis promotes plant height and branch numbers. Hypocotyl elongation was significantly enhanced by PpPIF8 under weak light intensity. PpPIF8 overexpressed in Arabidopsis and transiently expressed in peach seedlings upregulated the transcription of YUCCA and SAUR19 and downregulated SHY1 and -2. Additionally, PpPIF4 and -8 were significantly induced by weak light. Phylogentic analysis and intron patterns of the bHLH domain strongly suggested that PIFs from six species could be divided into two groups of different evolutionary origins. These results lay a foundation for the further study of the repression of shoot growth by PpDELLA2 through protein interaction with PpPIF8 in peach.

Published
2022
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4. Combination of iTRAQ proteomics and RNA-seq transcriptomics reveals jasmonate-related-metabolisms central regulation during the process of Jujube witches’ broom recovery by tetracycline treatment

Author

Jun Cheng, Jidong Li, Xianbo Zheng, Chen Peng, Wei Wang, Yajun Jiang, Xia Ye, Bin Tan, Huiyu Wang, and Jiancan Feng

Subjects
0106 biological sciences, 0301 basic medicine, biology, Tetracycline, Jasmonic acid, Broom, RNA-Seq, Horticulture, biology.organism_classification, 01 natural sciences, Microbiology, Transcriptome, 03 medical and health sciences, chemistry.chemical_compound, 030104 developmental biology, chemistry, Phytoplasma, medicine, Jasmonate, Gene, 010606 plant biology & botany, medicine.drug
Abstract

Witches’ broom disease, caused by phytoplasma, is currently the most destructive disease of jujube. Tetracycline derivatives have been used to treat witches’ broom, and can allow recovery from the phytoplasma infection. Genes related to jasmonic acid (JA) biosynthesis and JA-induced protein-like play roles in phytoplasma infection. Jujube shoots (Ziziphus jujuba Mill. ‘Huizao’) infected by phytoplasma were excised and grown in vitro before treatment with tetracycline. RNA-Seq and iTRAQ analyses of samples treated for different lengths of time were performed during recovery from jujube witches’ broom (JWB) symptoms and diminishing presence of phytoplasma. Phytoplasma was not detected by PCR in the shoots after 6 months of tetracycline treatment (MTT). RNA-Seq and iTRAQ analyses identified 26,790 genes and 6184 proteins from jujube shoot samples. There were 272 differentially expressed genes (DEGs) and 20 differentially expressed proteins (DEPs) between the 3 and 6 MTT samples, respectively. The largest number and the greatest changes of DEGs and DEPs were for those related to alpha-linolenic acid metabolism, jasmonate biosynthesis, and jasmonate induced protein-like (JIPs). JA content slightly decreased at the sixth month compared with the third month. The research avenues explored here showed that genes in the JA biosynthesis pathway, proteins that respond to JA (JIPs), and JA content itself were concurrently regulated during JWB recovery. Alpha-linolenic acid metabolism pathway had higher RichFactor in comparisons between the 3 and 6 MTT samples during JWB recovery, which suggesting JA played vital roles during JWB recovery. The results in this study will help us to understand the roles JA plays in host-phytoplasma interactions during recovery and infection of JWB.

Published
2019
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9. A sensitive visual method for onsite detection of quarantine pathogenic bacteria from horticultural crops using an LbCas12a variant system

Author

Jian Jiao, Mengjie Yang, Tengfei Zhang, Yingli Zhang, Mengli Yang, Ming Li, Chonghuai Liu, Shangwei Song, Tuanhui Bai, Chunhui Song, Miaomiao Wang, Hongguang Pang, Jiancan Feng, and Xianbo Zheng

Subjects
Citrullus, Crops, Agricultural, DNA, Bacterial, Environmental Engineering, Health, Toxicology and Mutagenesis, Quarantine, Environmental Chemistry, Real-Time Polymerase Chain Reaction, Pollution, Waste Management and Disposal
Abstract

Pre-planting testing of seeds and plantlets for the existence of quarantine pathogens is an important phytosanitary measure. The CRISPR-mediated molecular diagnostic methodologies are being developed for pathogens detection, but many challenges remain. Here, we profiled an engineered Crispr/LbCas12a variant (LbCas12a-5M) that has more robust trans-cleavage activity and a wider PAM sequences (TNTN) preference than wild type. We developed a procedure for screening specific sequences of bacterial plant pathogens, and the designed species-specific crRNA displayed no cross-reactions with other bacterial species. Combined with a simple extraction of bacterial DNA, an LbCas12a-5M-based visual detection technique was established and optimized for detecting quarantine pathogens Erwinia amylovora and Acidovorax citrulli with detection limits up to 40 CFU/reaction and a sensitivity consistent with qPCR assay. This protocol was faster and simpler than qPCR, requiring 40 min or less from sample preparation. We further validated the potential application of the method by showing that it can be used for rapid and accurate diagnosis of A. citrulli on seeds of watermelon, with 100% agreement with the results of qPCR assay. The developed method simplifies the detection of pathogens and provides cost-effective countermeasures to quarantine interventions.

Published
2022
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10. Genome‑wide identification and expression analysis of the ASMT gene family reveals their role in abiotic stress tolerance in apple

Author

Shangwei Song, Sen Fang, Jian Jiao, Zhengyang Wang, Chunhui Song, Hongtao Wang, Miaomiao Wang, Xianbo Zheng, and Tuanhui Bai

Subjects
Genetics, Malus, Abiotic stress, Sequence analysis, fungi, Horticulture, Biology, biology.organism_classification, Genome, Transcriptome, Acetylserotonin O-methyltransferase, bacteria, Gene family, Gene
Abstract

Apple (Malus domestica Borkh.), an economically important fruit crop, is widely cultivated worldwide. However, apple trees often suffer from environmental stressors which affect the quality and yield of apple fruit. Acetylserotonin methyltransferase (ASMT) is a key enzyme in melatonin biosynthesis and is known to play critical roles in melatonin production and stress responses of plants. In this study, a total of 37 ASMT genes in apple were identified and unequally distributed on 10 apple chromosomes, with fragment duplication detected in four pairs of genes. The ASMT genes were classified into three groups based on their sequence compositions and phylogenetic relationship. Sequence analysis showed that apple ASMT genes were generally conserved in each group, with minor variations in gene structure and motif distribution. Transcriptome analysis revealed that most apple ASMT genes were nearly unchanged or downregulated under heat, cold, drought, and NaCl stress, whereas MdASMT6, MdASMT11, MdASMT14 and MdASMT19 were highly induced by these stressors. Subsequent qRT-PCR of four apple ASMT genes showed that MdASMT11 and MdASMT14 were extremely up-regulated under heat, cold, drought, and NaCl stress. They were expressed in all tissues, especially in the roots. Subcellular localization showed that MdASMT11 mainly distributed on cell membranes and MdASMT14 mainly anchored to the nucleus and cell membrane, indicating that MdASMT11 and MdASMT14 are potential genes regulating abiotic stress resistance in apple. These results facilitate further investigation to the functional characterization of MdASMT genes in the synthesis of melatonin and the response to abiotic stress and in apple.

Published
2022
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11. Expression of grape ACS1 in tomato decreases ethylene and alters the balance between auxin and ethylene during shoot and root formation

Author

Jiancan Feng, Yu Liu, Xianbo Zheng, Jidong Li, Wei Wang, Dongliang An, Bin Tan, Mengmeng Fu, Xia Ye, and Jun Cheng

Subjects
0106 biological sciences, 0301 basic medicine, Ethylene, Physiology, Lyases, Plant Science, Berry, Biology, Plant Roots, 01 natural sciences, Ectopic Gene Expression, 03 medical and health sciences, chemistry.chemical_compound, Solanum lycopersicum, Plant Growth Regulators, Gene Expression Regulation, Plant, Auxin, Vitis, Genetically modified tomato, Plant Proteins, chemistry.chemical_classification, Indoleacetic Acids, fungi, food and beverages, Ethylenes, Plants, Genetically Modified, biology.organism_classification, Horticulture, 030104 developmental biology, chemistry, Shoot, Ectopic expression, Zeatin, Solanum, Agronomy and Crop Science, Plant Shoots, 010606 plant biology & botany
Abstract

Ethylene plays an important role in the grape rachis, where its production can be 10 times higher than in the berry. VvACS1 is the only rachis-specific ACC synthase (ACS) gene, and its expression is coincident with ethylene production in the rachis of Vitis vinifera 'Thompson seedless'. VvACS1 was cloned and ectopically expressed in tomato (Solanum lycopersicum 'Moneymaker'). Lateral buds were increased in two- or four-week-old 35s∷VvACS1 transgenic tomato plants after transplanting. Compared with wild-type (WT) plants, the transgenic tomato plants showed higher expression of the VvACS1 gene in the flowers, leaves, rachis, and fruits. There was no obvious difference of ACS activity in the fruit of tomato, and only increased ACS activity in the rachis of tomato. Ethylene production was decreased in flowers, leaves, and fruits (seven weeks after full bloom), while the relative expression of endogenous tomato ACS1 and ACS6 genes was not down-regulated by the ectopic expression of VvACS1. These results imply that post-transcriptional or post-translational regulation of ACS may occur, resulting in lower ethylene production in the transgenic tomato plants. Moreover, expression of VvACS1 in tomato resulted in decreased auxin and increased zeatin contents in the lateral buds, as well as reduced or delayed formation of adventitious roots in lateral bud cuttings. RNA-Seq and qRT-PCR analyses of rooted lateral bud cuttings indicated that the relative expression levels of the genes for zeatin O-glucosyltransferase-like, auxin repressed/dormancy-associated protein, and ERF transcription factors were higher in transgenic tomatoes than in WT, suggesting that ethylene may regulate auxin transport and distribution in shoots and that adventitious root formation employs coordination between auxin and ethylene.

Published
2018
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12. Transcriptome profiling analysis revealed co-regulation of multiple pathways in jujube during infection by ‘ Candidatus Phytoplasma ziziphi ’

Author

Wei Wang, Chen Peng, Huiyu Wang, Bin Tan, Jidong Li, Xia Ye, Jiancan Feng, Xianbo Zheng, and Jun Cheng

Subjects
0301 basic medicine, Phytoplasma, Germination, 03 medical and health sciences, chemistry.chemical_compound, Plant Growth Regulators, Gene Expression Regulation, Plant, Auxin, Genetics, Brassinosteroid, Secondary metabolism, Abscisic acid, Plant Diseases, Plant Proteins, chemistry.chemical_classification, Phenylpropanoid, biology, Gene Expression Profiling, Jasmonic acid, food and beverages, Ziziphus, General Medicine, biology.organism_classification, 030104 developmental biology, Flavonoid biosynthesis, chemistry, Signal Transduction
Abstract

Background Jujube witches' broom (JWB), caused by a phytoplasma, devastates jujube tree (Ziziphus jujuba) growth and production in Asia. Although host responses to phytoplasmas are studied at the phenotypic, physiological, biochemical and molecular levels, it remains unclear how a host plant responds at the molecular level during the primary stage of infection. Methods To understand the response of the jujube tree to JWB infection, leaves were sampled at different times during the phytoplasma infection. Transcriptomic analyses at six stages were performed to reveal how phytoplasma infection affects Chinese jujube gene expression through the determination of the key differentially expressed genes (DEGs), and their related pathways. Quantitative real-time PCR was applied to validate 10 differentially expressed genes at different JWB phytoplasma infection stages. Results A total of 25,067 unigenes were mapped to jujube genome reference sequences. In the first infection stage (0–2 weeks after grafting (WAG), a total of 582 jujube genes were differentially regulated but no visible symptoms appeared. Quite a few DEGs related to abscisic acid (ABA) and cytokinin (CTK) were down-regulated, while some related to jasmonic acid (JA) and salicylic acid (SA) were up-regulated, Genes related to plant-pathogen interaction were also differentially expressed. In the second infection stage (37–39WAG), witches' broom symptoms were visible, and a total of 4373 DEGs were identified. Genes involved in biosynthesis and signal transduction of ABA, brassinosteroid (BR), CTK, ethylene (ET), and auxin (IAA), GA, JA and SA, plant-pathogen interaction, flavonoid biosynthesis genes were significantly regulated, suggesting that jujube trees activated defense factors related to SA, JA, ABA and secondary metabolites to defend against phytoplasma infection. By the third infection stage (48–52WAG), serious symptoms occurred and 3386 DEGs were identified. Most DEGs involved in biosynthesis and signal transduction of JA, SA and GA were up-regulated, while those relating to ABA were down-regulated. Genes involved in plant-pathogen interaction were up- or down-regulated, while phenylpropanoid and flavonoid biosynthesis genes were significantly up-regulated. Meanwhile, DEGs involved in photosynthesis, chlorophyll and peroxisome biosynthesis, and carbohydrate metabolism were down-regulated. These results suggested that phytoplasma infection had completely destroyed jujube trees' defense system and had disturbed chlorophyll synthesis and photosynthetic activity in the infected leaves at the late stage, resulting in yellow leaves and other JWB symptoms. Discussion The results in this report suggested that phytohormone biosynthesis and signal transduction, photosynthesis, and secondary metabolism all played important roles in the battle between colonization and defense in the interaction between Ca. Phytoplasma ziziphi and jujube.

Published
2018
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13. Genome-wide identification of microRNAs involved in the regulation of fruit ripening in apple (Malus domestica)

Author

Shangwei Song, Jian Jiao, Xianbo Zheng, Tuanhui Bai, Tong-Xin Li, Chunhui Song, Miaomiao Wang, and Yao Wu

Subjects
Genetics, Malus, microRNA, Postharvest, food and beverages, Identification (biology), Ripening, Horticulture, Biology, biology.organism_classification, Genome, Transcription factor, WRKY protein domain
Abstract

Fruit ripening is a complicated process that is influenced by diverse factors at different regulation levels. The microRNAs (miRNAs), a class of endogenous small noncoding RNAs, are recently demonstrated to regulate several critical biological processes in various aspects of the fruit's life cycle. In this paper, to gain more insights into the regulatory mechanism of miRNAs in apple fruit ripening, a genome-wide identification of the sRNAome was implemented in the postharvest ‘Qinguan’ apple fruit. The ripening process of the postharvest apple fruit was significantly inhibited via the application of 1-MCP (1 µL/L). Totally, 569 miRNAs were successfully identified, including 132 known and 437 novel miRNAs, and 29 of them were significantly differentially expressed. The mdm-miR398a, mdm-miR395i-3p, mdm-miR395b, mdm-miR395d-3p, mdm-miR395h, mdm-miR395g-3p, and the novel-miR156 were identified to be the differentially expressed miRNAs. Moreover, after parsing the targets of these miRNAs, several transcription factors, such as ERF and WRKY, were found to be involved in the apple fruit ripening. The above results provide new information for understanding the sophisticated coordinated regulatory network of apple fruit ripening.

Published
2021
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14. Anthocyanin composition and content in grape berry skin in Vitis germplasm

Author

Xianbo Zheng, Benhong Wu, Wei Duan, Zhenchang Liang, Peige Fan, Shaohua Li, Chunyan Liu, and Chunxiang Yang

Subjects
Wine, Germplasm, General Medicine, Berry, Biology, Malvidin, Analytical Chemistry, chemistry.chemical_compound, chemistry, Anthocyanin, Botany, Cultivar, Rootstock, Food Science, Hybrid
Abstract

The composition and content of anthocyanins were surveyed by HPLC–MS for assessing genotypic variation in berry skin of 110 grape cultivars, including 3 species and 5 interspecific hybrids. Twenty-nine anthocyanins were identified. For total anthocyanin content, Vitis vinifera and hybrids of Vitis labrusca and V. vinifera were low, and in general, wild species and rootstock were higher than interspecific hybrids, and wine grapes were higher than table grapes in the same species. As regards the composition of anthocyanins, malvidin-derivatives were the most abundant anthocyanins in the majority of germplasms. All anthocyanins were monoglucoside derivatives in V. vinifera , but all the other Vitis germplasms had both mono- and di-glucoside derivatives. Moreover, peonidin-derivatives and malvidin 3- O -glucoside were, respectively, main anthocyanins in table and wine grapes of V. vinifera . Via principal component analysis, the distribution of the cultivars in a scatter plot depended upon their total anthocyanins content, mono- and di-glucoside derivatives .

Published
2008
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