Your search keyword '"Jihai Gao"' showing total 7 results

1. Hierarchical chromatin features reveal the toxin production in Bungarus multicinctus

Author

Xuejiao Liao, Shilin Chen, Jiang Xu, Jihai Gao, Shuai Guo, He Su, Juan Lei, Jin Pei, Zhihai Huang, Xiwen Li, Mingqian Li, Baosheng Liao, Xianmei Yin, and Qiushi Li

Subjects

Pharmacology, Research, Biology, Chromatin, Cell biology, Chromosome conformation capture, Other systems of medicine, Histone, Complementary and alternative medicine, Hi-C, Gene expression, biology.protein, Transcriptional regulation, Chromosome organization, Epigenetics, Chromatin interaction, Gene, RZ201-999, Function (biology), Hierarchical architecture, Bungarus multicinctus

Abstract

Background Bungarus multicinctus, from which a classical Chinese medicine is produced, is known as the most venomous land snake in the world, but the chromatin organization and transcription factor activity during venom replenishment progress have not been explored yet. This study aimed to determine the roles of chromatin structure in toxin activity via bioinformatics and experimental validation. Methods Chromosome conformation capture (Hi-C) analysis was used to examine interactions among chromosomes and identify different scales of chromatin during envenomation in B. multicinctus. Correlations between epigenetic modifications and chromatin structure were verified through ChIP-seq analysis. RNA-seq was used to validate the influence of variation in chromatin structure and gene expression levels on venom production and regulation. Results Our results suggested that intra-chromosomal interactions are more intense than inter-chromosomal interactions among the control group, 3-day group of venom glands and muscles. Through this, we found that compartmental transition was correlated with chromatin interactions. Interestingly, the up-regulated genes in more compartmental switch regions reflect the function of toxin activity. Topologically associated domain (TAD) boundaries enriched with histone modifications are associated with different distributions of genes and the expression levels. Toxin-coding genes in the same loop are highly expressed, implying that the importance of epigenetic regulation during envenomination. On a smaller scale, the epigenetic markers affect transcriptional regulation by controlling the recruitment/inhibition of transcription initiation complexes. Conclusions Chromatin structure and epigenetic modifications could play a vital status role in the mechanisms of venom regulation in B. multicinctus.

Published

2021

2. The complete chloroplast genome of Aconitum scaposum

Author

Xianmei Yin, Min Zhang, Feixia Hou, Jihai Gao, Jiawei Luo, Lijun Su, Ding Qiaojiao, and Cheng Peng

Subjects

Genetics, Phylogenetic tree, biology, Delphinium, Transfer RNA, Ribosomal RNA, biology.organism_classification, Molecular Biology, Gene, Genome, GC-content, Aconitum

Abstract

Aconitum scaposum Franch 1894 belongs to the Genus Aconitum and Subgenus Lycoctonum (Ranunculaceae). It is widely distributed in China and adjacent areas, used as herbal medicine and had highy toxic components. This species has little reasearch information, especially its chloroplast (cp) genome information being unclear. Therefore, with the method of high salt and low pH to extract the cp of A. scaposum, we sequenced and assembled the complete cp genome of A. scaposum using Illumina high-throughput sequencing platform. The results showed the cp genome of A. scaposum was 157 688 bp in length, including a pair of inverted repeated regions (IRa 26 156 bp and IRb 26 232 bp, respectively), large single copy region (LSC 69 309 bp) and small single copy region (SSC 16 917 bp). And cp genome of A. scaposum consisted of 145 unique genes, 8 ribosomal RNA (rRNA) genes and 38 transfer RNA (tRNA) genes, with GC content was 38%. Meanwhile, based on the cp complete genome, we performed the phylogenetic tree of 66 species with maximum likelihood (ML) method, respectively. Among them, we selected one Delphinium species as the outgroup and the bootstrap of each braches were greater than 90%. The results indicated that the phylogenetic relationship of A. scaposum was relatively closely related to A. scaposum var. vaginatum compared to other Aconitum species.

Published

2021

3. Deep sequencing of Magnoliae officinalis reveals upstream genes related to the lignan biosynthetic pathway

Author

Langsheng Yang, Guoqing Zhuang, Jihai Gao, Sheng Yuzhen, Yunjie Gu, Xiaoqing Li, Fang Chen, and Xiaodong Shi

Subjects

0301 basic medicine, Honokiol, Forestry, Biology, Deep sequencing, Magnolol, Transcriptome, 03 medical and health sciences, chemistry.chemical_compound, Metabolic pathway, 030104 developmental biology, chemistry, Biochemistry, Officinalis, KEGG, Gene

Abstract

Magnoliae officinalis is the plant source of houpo, a widely used traditional Chinese medicine to treat symptoms of gastrointestinal diseases. Its main active components, magnolol (MG) and honokiol (HK), have excellent pharmacological actions, but little research has focused on the functional genes involved in the MG and HK metabolic pathways. In this study, using RNA-seq and gene expression profile, we present the first transcriptome characterization of M. officinalis leaves, twigs and stems. Based on similarity search against nonredundant protein databases, 30,660 contigs had at least a significant alignment to existing public database. Pathway analysis showed that 8707 contigs were assigned to 317 KEGG pathways. A second skeleton pathway with 14 putative homologous genes was also identified as involved in lignan biosynthesis. Expression profiles of these 14 genes showed that leaves and twigs seem to have higher transcript levels for lignan components than in stem tissue; this result was then verified by qRT-PCR. Our work will immensely facilitate metabolic research on lignan biosynthesis in M. officinalis.

Published

2016

4. JcCBF2 gene from Jatropha curcas improves freezing tolerance of Arabidopsis thaliana during the early stage of stress

Author

Lin Luo, Chenyang Li, Qifan Liu, Xiaodong Shi, Jihai Gao, Linghui Wang, Minchao Hu, Xiaobo Qin, Ying Xu, Zhang Guozhen, Hongwu Yu, and Fang Chen

Subjects

Acclimatization, Molecular Sequence Data, Arabidopsis, Jatropha, Genetically modified crops, Genes, Plant, Gene Expression Regulation, Plant, Freezing, Botany, Gene expression, Genetics, Arabidopsis thaliana, Amino Acid Sequence, Transgenes, Molecular Biology, Gene, Phylogeny, Plant Proteins, biology, Arabidopsis Proteins, Cold-Shock Response, fungi, food and beverages, General Medicine, Plants, Genetically Modified, biology.organism_classification, Cell biology, Plant Leaves, Seedlings, Trans-Activators, Heterologous expression, Jatropha curcas

Abstract

High chilling-susceptibility is becoming the bottleneck for cultivation and commercialization of Jatropha curcas L. For insights to chilling resistance ability of this plant species, a cold response transcription factor, JcCBF2, was cloned and studied. It codes a 26 kDa protein, which contains all conserved motifs unique to the C-repeat binding factor (CBF) family and has high similarity to CBFs of Ricinus communis and Populus. Its transcripts express specifically in leaves of Jatropha at cold temperature. After transmitting the report vector, 35S::JcCBF2-GFP, into Arabidopsis thaliana, JcCBF2 protein is main detected in cell nucleus, being consistent to the nuclear orientation signal in its N-terminal. Compared to the control Arabidopsis, the frozen leaves of JcCBF2-overexpressed seedlings grow stronger with less malondialdehyde, smaller leaf conductivity and activer superoxide dismutase, showing their higher freezing tolerance. RT-PCR tests revealed that JcCBF2 functioned mainly at the early stage (0-6 h) of resistance events in Arabidopsis, and its transcripts reduced after 6 h. In addition, JcCBF2 could quickly regulate transcripts of some cold-responsive (COR) genes such as RD29A, COR105A and COR6.6, also during the early stage of frozen treatment. This study not only proves the chilling resistance roles of JcCBF2, but also presents a candidate gene engineering for improvement of chilling tolerance in J. curcas.

Published

2014

5. Identification of novel acyl-ACP thioesterase gene ClFATB1 from Cinnamomum longepaniculatum

Author

Tao-bo Ai, Na Lin, Shenghua Wang, Fang Chen, Lin-hong Fan, and Jihai Gao

Subjects

DNA, Complementary, Molecular Sequence Data, Biology, medicine.disease_cause, Biochemistry, Substrate Specificity, chemistry.chemical_compound, Thioesterase, Complementary DNA, Tobacco, Acyl Carrier Protein, Escherichia coli, medicine, Amino Acid Sequence, Cloning, Molecular, Gene, Phylogeny, Fatty acid synthesis, Cinnamomum, Gene Library, Plant Proteins, chemistry.chemical_classification, Sequence Homology, Amino Acid, cDNA library, Fatty Acids, Fatty acid, General Medicine, Plants, Genetically Modified, Plant Leaves, Enzyme, chemistry, lipids (amino acids, peptides, and proteins), Thiolester Hydrolases, Sequence Alignment

Abstract

A putative fatty acyl-acyl carrier protein (acyl-ACP) thioesterase (thioesterase) full-length cDNA sequence named as ClFATB1 was obtained from the seed cDNA library of Cinnamomum longepaniculatum by the SMART-RACE method. The novel gene encodes a protein of 382 amino acid residues with close homology to fatty acid thioesterase type B (FATB) enzymes of other plants, with two essential residues (His285 and Cys320) for thioesterase catalytic activity. The gene was transcribed in all tissues of C. longepaniculatum, the highest being in seeds. Recombinant ClFATB1 in Escherichia coli had higher specific activities against saturated 16:0- and 18:0-ACPs than on unsaturated 18:1-ACP. Overexpression of ClFATB1 in transgenic tobaccos upregulated thioesterase activities of crude proteins against 16:0-ACP and 18:0-ACP by 20.3 and 5.7%, respectively, and resulted in an increase in the contents of palmitic and stearic acids by 15.4 and 10.5%, respectively. However, ectopic expression of this gene decreased the substrate specificities of crude proteins to unsaturated 18:1-ACP by 12.7% in transgenic tobacco and lowered the contents of oleic, linoleic, and linolenic acids in transgenic leaves. So ClFATB1 would potentially upregulate the synthesis of saturated fatty acids and downregulate unsaturated ones in the fatty acid synthesis pathway of plants.

Published

2013

6. Stress-induced curcin-L promoter in leaves of Jatropha curcas L. and characterization in transgenic tobacco

Author

Luding Jiang, Ying Xu, Fang Yan, Xiaobo Qin, Lin Tang, Xiaojiang Zheng, Caixia Shao, Jihai Gao, Fang Chen, and Xunlu Zhu

Subjects

Ultraviolet Rays, Transgene, Molecular Sequence Data, Jatropha, Plant Science, Beta-glucuronidase, Genetically modified crops, Biology, Polyethylene Glycols, Gene Expression Regulation, Plant, Stress, Physiological, Tobacco, Botany, Genetics, Ultraviolet light, Fluorometry, Promoter Regions, Genetic, Gene, Plant Proteins, Regulation of gene expression, Reporter gene, Ribosome-inactivating protein, Temperature, Plants, Genetically Modified, Molecular biology, Plant Leaves, Ribosome Inactivating Proteins, Type 1, Salicylic Acid, Abscisic Acid

Abstract

Ribosome-inactivating proteins (RIPs) represent a type of protein that universally inactivates the ribosome thus inhibiting protein biosynthesis. Curcin-L was a type I RIP found in Jatropha curcas L.. Its expression could be activated in leaves by treatments with abscisic acid, salicylic acid, polyethylene glycol, temperature 4, 45 degrees C and ultraviolet light. A 654 bp fragment of a 5' flanking region preceding the curcin-L gene, designated CP2, was cloned from the J. curcas genome and its expression pattern was studied via the expression of the beta-glucuronidase (GUS) gene in transgenic tobacco. Analysis of GUS activities showed that the CP2 was leaf specific, and was able to drive the expression of the reporter gene under stress-induction conditions. Analysis of a series of 5'-deletions of the CP2 suggested that several promoter motifs were necessary to respond to environmental stresses.

Published

2009

7. Characterization, and expression profile of a phenylalanine ammonia lyase gene from Jatropha curcas L

Author

Feng Cai, Ying Xu, Xiaoping Gu, Xiaojiang Zheng, Yangchao Ou, Na Lin, Fang Chen, Xiaobo Qin, Jihai Gao, Xihong Zhu, and Shuwen Zhang

Subjects

DNA, Complementary, TATA box, Molecular Sequence Data, Phenylalanine, Jatropha, Phenylalanine ammonia-lyase, Biology, Regulatory Sequences, Nucleic Acid, Genes, Plant, Real-Time Polymerase Chain Reaction, Gene Expression Regulation, Enzymologic, Gene Expression Regulation, Plant, Gene expression, Genetics, Escherichia coli, Tyrosine, Molecular Biology, Gene, Phenylalanine Ammonia-Lyase, Plant Proteins, chemistry.chemical_classification, Phenylpropanoid, Base Sequence, Gene Expression Profiling, General Medicine, Sequence Analysis, DNA, Recombinant Proteins, Amino acid, Kinetics, Biochemistry, chemistry, Electrophoresis, Polyacrylamide Gel, Transcriptome

Abstract

A PAL gene designated as JcPAL1 was cloned from J. curcas L. The full-length is 2336 bp in size with one intron and two exons, encoding a polypeptide of 713 amino acids. Its 5'-upstream region is rich in putative cis-elements including not only PAL typical TATA box, L-box and transcriptional initiation site (TIS) but also light responding motifs. Expression pattern analysis indicated that JcPAL1 were expressed in all tissues, most highly in flowers. When Treated with ABA, GA3, high and low temperature, expression of JcPAL1 were induced. Recombinant JcPAL1 has a pH optimum at 8.7 and a temperature optimum at 60°C in 100 mM Tris-HCl buffer. The Km and Kcat values are 0.125 mM and 1.73 S(-1) for L: -phenylalanine, and 1.312 mM and 0.109 S(-1) for L: -tyrosine, respectively. These findings suggested that JcPAL1 might involve in the J. curcas responding to various stresses and L: -Phe should be its true physiological substrate. This study is essential prior to uncover whether and how the PAL initiated phenylpropanoid metabolic networks functioning in the defense responses of J. curcas.

Published

2011