Your search keyword '"Hongxue Li"' showing total 5 results

1. Comprehensive Analysis of the SBP Family in Blueberry and Their Regulatory Mechanism Controlling Chlorophyll Accumulation

Author

Yuhai Cui, Xin Xie, Shuchun Li, Jingying Wang, Shaokang Yue, Xuyan Li, Shaomin Bian, Pengjie Yang, Baosheng Shi, and Hongxue Li

Subjects

0106 biological sciences, 0301 basic medicine, Berry, Plant Science, 01 natural sciences, SB1-1110, Transcriptome, 03 medical and health sciences, chemistry.chemical_compound, Arabidopsis, Squamosa promoter binding protein, Gene, Original Research, blueberry, Genetics, miR156, biology, Plant culture, Ripening, Promoter, biology.organism_classification, chlorophyll accumulation, 030104 developmental biology, chemistry, Chlorophyll, SBP gene, SBP targets, 010606 plant biology & botany

Abstract

SQUAMOSA Promoter Binding Protein (SBP) family genes act as central players to regulate plant growth and development with functional redundancy and specificity. Addressing the diversity of the SBP family in crops is of great significance to precisely utilize them to improve agronomic traits. Blueberry is an important economic berry crop. However, the SBP family has not been described in blueberry. In the present study, twenty VcSBP genes were identified through data mining against blueberry transcriptome databases. These VcSBPs could be clustered into eight groups, and the gene structures and motif compositions are divergent among the groups and similar within each group. The VcSBPs were differentially expressed in various tissues. Intriguingly, 10 VcSBPs were highly expressed at green fruit stages and dramatically decreased at the onset of fruit ripening, implying that they are important regulators during early fruit development. Computational analysis showed that 10 VcSBPs were targeted by miR156, and four of them were further verified by degradome sequencing. Moreover, their functional diversity was studied in Arabidopsis. Noticeably, three VcSBPs significantly increased chlorophyll accumulation, and qRT-PCR analysis indicated that VcSBP13a in Arabidopsis enhanced the expression of chlorophyll biosynthetic genes such as AtDVR, AtPORA, AtPORB, AtPORC, and AtCAO. Finally, the targets of VcSBPs were computationally identified in blueberry, and the Y1H assay showed that VcSBP13a could physically bind to the promoter region of the chlorophyll-associated gene VcLHCB1. Our findings provided an overall framework for individually understanding the characteristics and functions of the SBP family in blueberry.

Published

2021

2. A blueberry MIR156a-SPL12 module coordinates the accumulation of chlorophylls and anthocyanins during fruit ripening

Author

Chunyu Zhang, Shaomin Bian, Hongxue Li, Xin Xie, Lulu Zhai, Yan Zhu, Xiaodong Li, Xuyan Li, and Yanming Hou

Subjects

Chlorophyll, biology, Physiology, Blueberry Plants, food and beverages, Ripening, Plant Science, biology.organism_classification, Chloroplast, Anthocyanins, chemistry.chemical_compound, chemistry, Biochemistry, Gene Expression Regulation, Plant, Anthocyanin, Fruit, Gene expression, Solanum, Regulator gene, Vaccinium, Plant Proteins

Abstract

Color change is an important event during fruit maturation in blueberry, usually depending on chlorophyll degradation and anthocyanin accumulation. MicroRNA156 (miR156)–SPL modules are an important group of regulatory hubs involved in the regulation of anthocyanin biosynthesis. However, little is known regarding their roles in blueberry or in chlorophyll metabolism during color change. In this study, a MIR156 gene (VcMIR156a) was experimentally identified in blueberry (Vaccinium corymbosum). Overexpression of VcMIR156a in tomato (Solanum lycopersicum) enhanced anthocyanin biosynthesis and chlorophyll degradation in the stem by altering pigment-associated gene expression. Further investigation indicated that the VcSPL12 transcript could be targeted by miR156, and showed the reverse accumulation patterns during blueberry fruit development and maturation. Noticeably, VcSPL12 was highly expressed at green fruit stages, while VcMIR156a transcripts mainly accumulated at the white fruit stage when expression of VcSPL12 was dramatically decreased, implying that VcMIR156a–VcSPL12 is a key regulatory hub during fruit coloration. Moreover, VcSPL12 decreased the expression of several anthocyanin biosynthetic and regulatory genes, and a yeast two-hybrid assay indicated that VcSPL12 interacted with VcMYBPA1. Intriguingly, expression of VcSPL12 significantly enhanced chlorophyll accumulation and altered the expression of several chlorophyll-associated genes. Additionally, the chloroplast ultrastructure was altered by the expression of VcMIR156a and VcSPL12. These findings provide a novel insight into the functional roles of miR156–SPLs in plants, especially in blueberry fruit coloration.

Published

2020

3. Identification and functional characterization of the Aux/IAA gene VcIAA27 in blueberry

Author

Lulu Zhai, Xuyan Li, Shaomin Bian, Xin Xie, Hongxue Li, and Yanming Hou

Subjects

0106 biological sciences, 0301 basic medicine, Blueberry Plants, Arabidopsis, Plant Science, 01 natural sciences, Plant Roots, Polymerase Chain Reaction, 03 medical and health sciences, Gene Expression Regulation, Plant, Botany, Gene expression, Promoter Regions, Genetic, biology, fungi, food and beverages, Ripening, biology.organism_classification, Trichome, Hydathode, 030104 developmental biology, Seedling, Shoot, Silique, 010606 plant biology & botany, Research Paper

Abstract

Aux/IAA genes are an important class of players in diverse developmental processes in plants, which generally exert their functions through the auxin signaling pathway. Blueberry is an economically and nutritionally important berry-bearing crop. However, Aux/IAA genes remain unknown in blueberry. In the present study, an Aux/IAA gene (VcIAA27) was identified and characterized in blueberry, and it is most closely related to IAA27 in other plant species. Expression analysis indicated that VcIAA27 transcripts accumulate highly in shoot, flower and fruit. Interestingly, VcIAA27 was highly expressed at early fruit developmental stages, and dramatically decreased from the onset of fruit ripening, implying that VcIAA27 possibly plays important roles during fruit enlargement. Meanwhile, the analysis of promoter activity in Arabidopsis showed that strong GUS signal was detected in the trichome and hydathodes of leaves, receptacle of silique, and lateral roots of seedling. Overexpression of VcIAA27 in Arabidopsis leads to auxin-related defects such as downward-curled leaves, short or sterile siliques, shorter stature, and more shoot branches. Moreover, qPCR analysis indicated that VcIAA27 is able to alter the expression patterns of the auxin-related genes BRU6, SAG13, SAUR26 in Arabidopsis, suggesting that VcIAA27 might be negatively involved in the auxin signaling pathway. The findings will greatly contribute to future investigation of Aux/IAA-mediated mechanisms that control blueberry development, especially fruit development and ripening.

Published

2019

4. The genomic and seroprevalence of human bocavirus in healthy Chinese plasma donors and plasma derivatives

Author

Hongxue Li, Wuping Li, Zhan Gao, Peibin Zeng, Guohui Bian, Miao He, and Chunhui Yang

Subjects

biology, Parvovirus, Immunology, Human bocavirus, Hematology, biology.organism_classification, Virology, Molecular biology, law.invention, Real-time polymerase chain reaction, law, Genotype, biology.protein, Immunology and Allergy, Seroprevalence, Antibody, Nested polymerase chain reaction, Polymerase chain reaction

Abstract

Background Human bocavirus (HBoV) is a novel parvovirus identified in 2005. It has mostly been detected in respiratory and enteric infections and has not been studied large scale in blood products in relation to transfusion. Study Design and Methods An in-house quantitative polymerase chain reaction (Q-PCR) was developed to test HBoV DNA in plasma and plasma derivatives. Plasma samples (n = 6096) collected from healthy donors, 241 plasma pools, and 326 plasma derivatives were screened for HBoV DNA by Q-PCR. Positive samples were confirmed by nested PCR and further amplified for sequence analysis and phylogenetic studies. The prevalence of immunoglobulin (Ig)G and IgM specific to HBoV structural proteins was measured by enzyme-linked immunosorbent assay in 209 samples grouped according to virus load (Group 1, HBoV DNA >104 copies/mL; Group 2, HBoV DNA >5 × 102 copies/mL but below 104 copies/mL; Group 3,HBoV DNA negative). Results The genomic prevalence of HBoV in the plasma donors was 9.06%, ranging from 5.01 × 102 to 3.02 × 106 copies/mL. HBoV-specific IgG and IgM were detected at 20.00 and 7.50% in Group 1, at 20.29 and 2.90% in Group 2, and at 13.00 and 4.0% in Group 3, respectively. Phylogenetic analyses proved that HBoV Genotype 1 was the prevalent genotype in Chinese plasma donors. Conclusion Low levels of HBoV DNA were detectable at high prevalence in Chinese plasma donors and plasma derivatives. Further study is needed to determine whether HBoV screening is necessary.

Published

2014

5. Comparative Analysis of Fruit Ripening-Related miRNAs and Their Targets in Blueberry Using Small RNA and Degradome Sequencing

Author

Jingjing Wang, Yu Xue, Chunmei Cao, Xuyan Li, Shaomin Bian, Hongxue Li, Pengjie Yang, Yuhai Cui, Lulu Zhai, and Yanming Hou

Subjects

0301 basic medicine, Small RNA, Blueberry Plants, fruit ripening, Computational biology, Berry, Biology, Article, Catalysis, lcsh:Chemistry, Inorganic Chemistry, 03 medical and health sciences, Gene Expression Regulation, Plant, Complementary DNA, microRNA, blueberry, miRNA, sRNA sequencing, targets, degradome sequencing, RNA, Messenger, RNA Processing, Post-Transcriptional, Physical and Theoretical Chemistry, lcsh:QH301-705.5, Molecular Biology, Spectroscopy, Organic Chemistry, Gene Expression Regulation, Developmental, food and beverages, RNA, Ripening, General Medicine, Computer Science Applications, White (mutation), MicroRNAs, 030104 developmental biology, lcsh:Biology (General), lcsh:QD1-999, Fruit, Transfer RNA, Genome, Plant

Abstract

MicroRNAs (miRNAs) play vital roles in the regulation of fruit development and ripening. Blueberry is an important small berry fruit crop with economical and nutritional value. However, nothing is known about the miRNAs and their targets involved in blueberry fruit ripening. In this study, using high-throughput sequencing of small RNAs, 84 known miRNAs belonging to 28 families and 16 novel miRNAs were identified in white fruit (WF) and blue fruit (BF) libraries, which represent fruit ripening onset and in progress, respectively. Among them, 41 miRNAs were shown to be differentially expressed during fruit maturation, and 16 miRNAs representing 16 families were further chosen to validate the sRNA sequencing data by stem-loop qRT-PCR. Meanwhile, 178 targets were identified for 41 known and 7 novel miRNAs in WF and BF libraries using degradome sequencing, and targets of miR160 were validated using RLM-RACE (RNA Ligase-Mediated (RLM)-Rapid Amplification of cDNA Ends) approach. Moreover, the expression patterns of 6 miRNAs and their targets were examined during fruit development and ripening. Finally, integrative analysis of miRNAs and their targets revealed a complex miRNA-mRNA regulatory network involving a wide variety of biological processes. The findings will facilitate future investigations of the miRNA-mediated mechanisms that regulate fruit development and ripening in blueberry.

Published

2017