Your search keyword '"Xianbo Zheng"' showing total 9 results

1. Identification of Laccase Genes in Grapevine and Their Roles in Response to Botrytis cinerea

Author

Ran Wan, Zhenfeng Yang, Jun Liu, Mengxi Zhang, Jian Jiao, Miaomiao Wang, Kunxi Zhang, Pengbo Hao, Yu Liu, Tuanhui Bai, Chunhui Song, Shangwei Song, Jiangli Shi, and Xianbo Zheng

Subjects

grape laccase and lignin, the VvLAC gene family, gene expression, response to Botrytis cinerea, Plant culture, SB1-1110

Abstract

Laccases are the key enzymes responsible for plant lignin biosynthesis and responses to environment stress. However, the roles of LAC genes in plant disease resistance are still largely unknown, especially in grapevine, one of the most important horticultural crops in the world. Its quality and yield are very vulnerable to gray mold disease caused by Botrytis cinerea. In total, 30 VvLAC genes were identified and found to be unevenly distributed on seven chromosomes; they were classified into seven groups based on phylogenetic analysis according to the criteria applied in Arabidopsis thaliana. Collinearity and synteny analyses identified some orthologous gene pairs in Vitis vinifera and a few paralogous gene pairs among grape and peach. The VvLAC gene family has diverse gene structures and a highly conserved motif composition. The prominent presence of the MYB cis-elements in each VvLAC promoter highlighted MYB transcriptional factors as the main regulators of VvLAC genes. Furthermore, twenty-five VvLAC genes with functional redundancy are probably implicated in grape lignin biosynthesis. The expression patterns of the LAC genes in grape leaves of Chinese wild V. amurensis ‘Shuangyou’ (SY), a germplasm highly resistant to B. cinerea, were investigated through transcriptomic data and qRT-PCR verification. Combined with the phylogenetic analysis, with AtLACs participating in lignin metabolism, and the cis-element analysis, VaLAC14, VaLAC19, VaLAC24 and VaLAC30 were identified as key candidate genes for lignin biosynthesis in the grape response to B. cinerea. This study supplies a comprehensive understanding of the classification, evolution, structure and responses of the grape LAC genes against B. cinerea. It also provides valuable genetic resources for functional characterization towards enhancing grapevine disease resistance.

Published

2024

2. Exploring the PpEXPs Family in Peach: Insights into Their Role in Fruit Texture Development through Identification and Transcriptional Analysis

Author

Yakun Guo, Conghao Song, Fan Gao, Yixin Zhi, Xianbo Zheng, Xiaobei Wang, Haipeng Zhang, Nan Hou, Jun Cheng, Wei Wang, Langlang Zhang, Xia Ye, Jidong Li, Bin Tan, Xiaodong Lian, and Jiancan Feng

Subjects

pach (Prunus persica), expansins, genome-wide, fruit texture, Plant culture, SB1-1110

Abstract

Expansins (EXPs) loosen plant cell walls and are involved in diverse developmental processes through modifying cell-walls; however, little is known about the role of PpEXPs in peach fruit. In this study, 26 PpEXP genes were identified in the peach genome and grouped into four subfamilies, with 20 PpEXPAs, three PpEXPBs, one PpEXPLA and two PpEXPLBs. The 26 PpEXPs were mapped on eight chromosomes. The primary mode of gene duplication of the PpEXPs was dispersed gene duplication (DSD, 50%). Notably, cis-elements involved in light responsiveness and MeJA-responsiveness were detected in the promoter regions of all PpEXPs, while ethylene responsive elements were observed in 12 PpEXPs. Transcript profiling of PpEXPs in the peach fruit varieties of MF (melting), NMF (non-melting) and SH (stony hard) at different stages showed that PpEXPs displayed distinct expression patterns. Among the 26 PpEXPs, 15 PpEXPs were expressed in the fruit. Combining the expressing patterns of PpEXPs in fruits with different flesh textures, PpEXPA7, PpEXPA13 and PpEXPA15 were selected as candidate genes, as they were highly consistent with the patterns of previous reported key genes (PpPGM, PpPGF and PpYUC11) in regard to peach fruit texture. The genes with different expression patterns between MF and NMF were divided into 16 modules, of which one module, with pink and midnightblue, negatively correlated with the phenotype of fruit firmness and was identified as PpEXPA1 and PpEXPA7, while the other module was identified as PpERF in the pink module, which might potentially effect fruit texture development by regulating PpEXPs. These results provide a foundation for the functional characterization of PpEXPs in peach.

Published

2024

3. Exploring MicroRNAs Associated with Pomegranate Pistil Development: An Identification and Analysis Study

Author

Yujie Zhao, Jingyi Huang, Ming Li, Hongfang Ren, Jian Jiao, Ran Wan, Yu Liu, Miaomiao Wang, Jiangli Shi, Kunxi Zhang, Pengbo Hao, Shangwei Song, Tuanhui Bai, and Xianbo Zheng

Subjects

pomegranate, pistil, miRNA, correlation analysis, Plant culture, SB1-1110

Abstract

The interaction between miRNAs (microRNAs) and target genes plays an important role in plant pistil development. MiRNAs related to pistils were explored in pomegranate. The differentially expressed miRNAs were screened at different developmental stages of pomegranate pistils, and their target differentially expressed mRNAs were further identified to clarify the regulatory effect of miRNAs on pistil development. In our study, 61 conserved miRNAs were identified in 30 families, including miR395, miR394, miR393, miR161, miR162, and miR168. Among them, miR156, miR157, miR159, miR160, miR164, miR165, miR166, miR167, miR169, and miR172 were involved in the development of flower organs. Eight miRNAs were randomly selected and verified for qRT-PCR analysis. The result analysis indicated that miR160, miR164, and miR172 might be positive factors in the regulation of pomegranate pistil development. MiR156 and miR166 might be involved in regulation of pomegranate pistil development as negative factors.

Published

2024

4. Genome-Wide Identification of Laccase Gene Family from Punica granatum and Functional Analysis towards Potential Involvement in Lignin Biosynthesis

Author

Jiangli Shi, Jianan Yao, Ruiran Tong, Sen Wang, Ming Li, Chunhui Song, Ran Wan, Jian Jiao, and Xianbo Zheng

Subjects

pomegranate, lignin biosynthesis, seed hardness, laccase, gene expression, Plant culture, SB1-1110

Abstract

Laccase (LAC) is the key enzyme responsible for lignin biosynthesis. Here, 57 PgLACs from pomegranate were identified and distributed on eight chromosomes and one unplaced scaffold. They were divided into six groups containing three typical Cu-oxidase domains. Totally, 51 cis-acting elements in the promoter region of PgLACs are involved in response to ABA, GA, light, stress, etc., indicating diverse functions of PgLACs. The expression profiles of 13 PgLACs during the seed development stage showed that most PgLACs expressed at a higher level earlier than at the later seed development stage in two pomegranate cultivars except PgLAC4. Also, PgLAC1/6/7/16 expressed at a significantly higher level in soft-seed ‘Tunisia’; on the contrary, PgLAC37 and PgLAC50 with a significantly higher expression in hard-seed ‘Taishanhong’. Combined with their distinguishing cis-acting elements, it was concluded that PgLAC1/6/7 may respond to GA via TATC-box and GARE-motif, and PgLAC16 repressed the promotor activity of embryo mid-maturation genes via RY-element so as to contribute to softer seed formation, whereas PgLAC37/50 may participate in seed formation and accelerate seed maturity via ABRE and G-box elements. Collectively, the dramatic gene expressions of PgLAC1/6/7/16/37/50 will provide valuable information to explore the formation of soft- and hard-seed in pomegranate.

Published

2023

5. VvERF111 Regulates Chlorophyll Degradation by Activating Expression of VvCLH1, Leading to Rachis Browning in Grape

Author

Dongfang Zou, Jingwen Li, Xia Ye, Xianbo Zheng, Bin Tan, Jun Cheng, Wei Wang, Zhiqian Li, and Jiancan Feng

Subjects

chlorophyll breakdown, ethylene, VvERF111, transcriptional regulation, Plant culture, SB1-1110

Abstract

The plant growth regulator ethylene influences rachis browning in grape (Vitis vinifera L.). Although the ethylene signaling pathway is well defined, there is limited knowledge on its mode of action during rachis browning. Here, we show that an ethylene response factor (VvERF111) positively regulates chlorophyll degradation in rachis by binding to a DRE motif in the promoter of VvCLH1. The expression of VvERF111 and VvCLH1 in rachis was induced by ethylene and inhibited by 1-methylcyclopropene (1-MCP). VvERF111 belongs to the ERF IX subfamily of the APETALA2/ethylene responsive factor (AP2/ERF) superfamily, shows transcriptional activity in yeast, and is localized in the nucleus and membrane. The transient overexpression of VvERF111 or chlorophyllase (VvCLH1) in grape leaves accelerated chlorophyll degradation. In VvERF111-overexpressing leaves, transcript levels of VvCLH1 were also increased. Our findings offer a deeper understanding of the transcriptional regulation of chlorophyll degradation during the rachis browning of grape.

Published

2023

6. VvPL11 Is a Key Member of the Pectin Lyase Gene Family Involved in Grape Softening

Author

Wenxin Li, Chang He, Hongli Wei, Jiakang Qian, Jiannan Xie, Zhiqian Li, Xianbo Zheng, Bin Tan, Jidong Li, Jun Cheng, Wei Wang, Xia Ye, and Jiancan Feng

Subjects

pectin lyase, Vitis labrusca × Vitis vinifera, propectin, ripening, grape berry, Plant culture, SB1-1110

Abstract

Fruit ripening includes several metabolic changes that lead to sweeter and softer fruit. Pectin depolymerization is one of major factors that softens developing grape berries. Pectin lyases (PLs) play important roles in pectin degradation in the grape berry. However, little is known about the temporal and spatial expression of grapevine (Vitis spp.) pectin lyase genes (VvPLs) or their function during fruit ripening and softening. In this study, 18 individual VvPL genes were identified in the grape genome. All VvPL genes were sorted into group I and group II, except VvPL12 which demonstrated higher and similar expression trends in different tissues and organs. In grape berry, VvPL1, 5, 7, 11 and 16 were highly expressed, whereas VvPL18, 15, 2, 13, 10, 14, 17, 6 and 8 showed lower expression levels at different berry developmental stages. Expression of VvPL11 firstly increased and then decreased, and the highest expression was shown at 6 weeks after full bloom (WAFB) during berry development. Over-expression of the VvPL11 gene in tomato caused higher ethylene production and lower firmness compared to wild-type fruit. Moreover, decreased propectin and increased water-soluble pectin (WSP) levels were observed in VvPL11 transgenic tomato fruit. Consistent with this result, the expression levels of SlPG2, SlEXP, and SlPME1, all of which are genes involved in fruit softening, were up-regulated in VvPL11-OE tomato fruit, which supported the idea that VvPL11 plays an important role in fruit ripening and softening. This study provided a comprehensive analysis of the grapevine PL family and advanced our knowledge of the functions of VvPLs during fruit softening.

Published

2023

7. Transcriptome Analysis Identifies Genes Associated with Chlorogenic Acid Biosynthesis during Apple Fruit Development

Author

Hao Wang, Xianbo Zheng, Yao Wu, Wenduo Zhan, Yanfei Guo, Ming Chen, Tuanhui Bai, Jian Jiao, Chunhui Song, Shangwei Song, and Miaomiao Wang

Subjects

apple fruit, chlorogenic acid, transcriptome, gene expression, Plant culture, SB1-1110

Abstract

As a predominant phenolic compound in apple fruits, chlorogenic acid (CGA) benefits human health due to its various antioxidant properties. However, little has been known regarding the molecular mechanism underlying the CGA accumulation in apple fruits. In this study, we measured the CGA content and relative enzymes’ activities during fruit development in two different flesh-colored cultivars ‘Huashuo’ and ‘Red Love’. The CGA content in both cultivars decreased sharply from 30 days after full bloom (DAFB) to 60 DAFB. Notably, the CGA content in fruit flesh was relatively higher than that in the peel. Further, the activities of C3H and HCT enzymes downstream of the CGA biosynthesis showed the similar changing trend as CGA content. Based on the transcriptome data of ‘Huashuo’ fruit at 30 DAFB and 60 DAFB, 23 differentially expressed CGA synthesis-related genes were screened. Gene expression analyses further showed that MdHCT1/2/4/5/6 and MdC3H1/2/3 were positively correlated to the variation of CGA content in two cultivars. These findings establish a theoretical foundation for further mechanism study on CGA biosynthesis and provide guidance for nutrient improvement in apple breeding programs.

Published

2023

8. Comparative Physiological and Transcriptome Analysis Reveals Potential Pathways and Specific Genes Involved in Waterlogging Tolerance in Apple Rootstocks

Author

Kunxi Zhang, Xiaofei Chen, Penghao Yuan, Chunhui Song, Shangwei Song, Jian Jiao, Miaomiao Wang, Pengbo Hao, Xianbo Zheng, and Tuanhui Bai

Subjects

Inorganic Chemistry, waterlogging stress, apple rootstocks, flavonoids, RNA-seq, ethylene, Organic Chemistry, General Medicine, Physical and Theoretical Chemistry, Molecular Biology, Spectroscopy, Catalysis, Computer Science Applications

Abstract

Apple (Malus × domestica Borkh.) is one of the most cultivated fruit crops in China. Apple trees frequently encounter waterlogging stress, mainly due to excess rainfall, soil compaction, or poor soil drainage, results in yellowing leaves and declined fruit quality and yield in some regions. However, the mechanism underlying the response to waterlogging has not been well elucidated. Therefore, we performed a physiological and transcriptomic analysis to examine the differential responses of two apple rootstocks (waterlogging-tolerant M. hupehensis and waterlogging-sensitive M. toringoides) to waterlogging stress. The results showed that M. toringoides displayed more severe leaf chlorosis during the waterlogging treatment than M. hupehensis. Compared with M. hupehensis, the more severe leaf chlorosis induced by waterlogging stress in M. toringoides was highly correlated with increased electrolyte leakage and superoxide radicals, hydrogen peroxide accumulation, and increased stomata closure. Interestingly, M. toringoides also conveyed a higher ethylene production under waterlogging stress. Furthermore, RNA-seq revealed that a total of 13,913 common differentially expressed genes (DEGs) were differentially regulated between M. hupehensis and M. toringoides under waterlogging stress, especially those DEGs involved in the biosynthesis of flavonoids and hormone signaling. This suggests a possible link of flavonoids and hormone signaling to waterlogging tolerance. Taken together, our data provide the targeted genes for further investigation of the functions, as well as for future molecular breeding of waterlogging-tolerant apple rootstocks.

Published

2023

9. Overexpression of PgCBF3 and PgCBF7 Transcription Factors from Pomegranate Enhances Freezing Tolerance in Arabidopsis under the Promoter Activity Positively Regulated by PgICE1

Author

Lei Wang, Sa Wang, Ruiran Tong, Sen Wang, Jianan Yao, Jian Jiao, Ran Wan, Miaomiao Wang, Jiangli Shi, and Xianbo Zheng

Subjects

Inorganic Chemistry, cold stress, PgCBFs, transcriptional regulation, pomegranate, Organic Chemistry, General Medicine, Physical and Theoretical Chemistry, Molecular Biology, Spectroscopy, Catalysis, Computer Science Applications

Abstract

Cold stress limits plant growth, development and yields, and the C-repeat binding factors (CBFs) function in the cold resistance in plants. However, how pomegranate CBF transcription factors respond to cold signal remains unclear. Considering the significantly up-regulated expression of PgCBF3 and PgCBF7 in cold-tolerant Punica granatum ‘Yudazi’ in comparison with cold-sensitive ‘Tunisia’ under 4 °C, the present study focused on the two CBF genes. PgCBF3 was localized in the nucleus, while PgCBF7 was localized in the cell membrane, cytoplasm, and nucleus, both owning transcriptional activation activity in yeast. Yeast one-hybrid and dual-luciferase reporter assay further confirmed that PgICE1 could specifically bind to and significantly enhance the activation activity of the promoters of PgCBF3 and PgCBF7. Compared with the wild-type plants, the PgCBF3 and PgCBF7 transgenic Arabidopsis thaliana lines had the higher survival rate after cold treatment; exhibited increased the contents of soluble sugar and proline, while lower electrolyte leakage, malondialdehyde content, and reactive oxygen species production, accompanying with elevated enzyme activity of catalase, peroxidase, and superoxide dismutase; and upregulated the expression of AtCOR15A, AtCOR47, AtRD29A, and AtKIN1. Collectively, PgCBFs were positively regulated by the upstream PgICE1 and mediated the downstream COR genes expression, thereby enhancing freezing tolerance.

Published

2022