Chalcone synthase( CHS) and chalcone isomerase( CHI) are key enzymes in the biosynthesis pathway of flavonoids. In this study,unigenes for CHS and CHI were screened from the transcriptome database of Arisaema heterophyllum. The open reading frame( ORFs) of chalcone synthase( Ah CHS) and chalcone isomerase( Ah CHI) were cloned from the plant by RT-PCR. The physicochemical properties,expression and structure characteristics of the encoded proteins Ah CHS and Ah CHI were analyzed. The ORFs of Ah CHS and Ah CHI were 1 176,630 bp in length and encoded 392,209 amino acids,respectively. Ah CHS functioned as a symmetric homodimer. The N-terminal helix of one monomer entwined with the corresponding helix of another monomer. Each CHS monomer consisted of two structural domains. In particular,four conserved residues define the active site. The tertiary structure of Ah CHI revealed a novel open-faced β-sandwich fold. A large β-sheet( β4-β11) and a layer of α-helices( α1-α7) comprised the core structure. The residues spanning β4,β5,α4,and α6 in the three-dimensional structure were conserved among CHIs from different species. Notably,these structural elements formed the active site on the protein surface,and the topology of the active-site cleft defined the stereochemistry of the cyclization reaction. The homology comparison showed that Ah CHS had the highest similarity to the CHS of Anthurium andraeanum,while Ah CHI had the highest similarity to the CHI of Paeonia delavayi. This study provided the basis for the functional study of Ah CHS and Ah CHI and the further study on plant flavonoid biosynthesis pathway.
Acyltransferases ; chemistry ; genetics ; Arisaema ; enzymology ; genetics ; Cloning, Molecular ; Intramolecular Lyases ; chemistry ; genetics ; Plant Proteins ; chemistry ; genetics

Three Chrysanthemum-chalcone-isomerase genes( CmCHI) were successfully cloned by PCR from the database of Chrysanthemum transcriptome and named CmCHI1,CmCHI2 and CmCHI3,respectively. Bioinformatics analysis showed that the base numbers of CmCHI1-3 open reading frame were 708,633 and 681 bp,encoding 235,210 and 226 amino acids,respectively. Three fusion proteins of about 30 kDa were successfully induced by prokaryotic expression technology,and the corresponding recombinant fusion proteins were isolated and purified by Ni-NTA resin column. Clustering analysis showed that the 3 CmCHI were homologous with Compositae plants,and CmCHI1 and CmCHI3 belonged to type Ⅰ CHI. CmCHI2 belongs to type Ⅳ CHI. Using β-actin as an internal reference gene,RT-qPCR was used to detect and analyze the expression of CmCHI1-3 genes in Hangju. The results showed that the expression levels of CmCHI1 and CmCHI3 were higher,while the expression levels of CmCHI2 were lower. It was concluded that CmCHI1 and CmCHI3 were the main chalcone isomerase genes involved in the synthesis of flavonoids in Hangju,and CmCHI2 was a helper gene. Flooding treatment significantly promoted the expression of CmCHI1 and CmCHI3 genes,but had no regulatory effect on CmCHI2. The above results provided a basis for further study of the molecular regulation mechanism of CHI gene in the metabolism of flavonoids in Hangju,which laid a foundation for improving the content of flavonoids in Hangju and finally improving the medicinal quality of Hangju.
Chrysanthemum ; enzymology ; genetics ; Cloning, Molecular ; Intramolecular Lyases ; genetics ; Plant Proteins ; genetics

Tripterygium wilfordii is a medicinal plant commonly used in the treatment of rheumatoid arthritis,and with pharmacological activities in anti-tumor and obesity treatment. The known active ingredients in T. wilfordii are mainly terpenoids,but with very low content. Therefore,the analysis of the biosynthesis pathway of terpenoids in T. wilfordii has become a research hotspot to solve the problem of its resources. Terpenoid synthase( TPS) is a key enzyme that catalyzes the formation of a wide variety of terpenoid skeletons. In this study,a gene fragment with an ORF of 1 785 bp was cloned from T. wilfordii. Bioinformatics analysis was performed using NCBI's BLASTP,ProtParam and Interpro online tools and MEGA 6.0 software. The response of this gene to methyl jasmonate was also detected by real-time fluorescent quantitative PCR,and its catalytic function was verified by prokaryotic expression and in vitro enzymatic assay. Bioinformatics analysis indicated that the amino acid sequence encoded by this gene had both N-terminal domain and C-terminal domain of TPS,as well as the DDxx D conserved domain of the class I of TPS family. And Tw MTS gathered together with TPS-b subfamily in the Neighbor-Joining Tree constructed with known homologous TPSs. The results of RT-PCR showed that 50 μmol·L-1 MeJA 12 h could increase the expression of Tw MTS to 735 times in the control group at 12 h,and 1 644 times at 24 h. In addition,in vitro enzymatic reaction results showed that Tw MTS can catalyze the production of β-citronellol with GPP as substrate,indicating that Tw MTS was a monoterpene synthase. The above results provided a new element for the synthetic biology database of T. wilfordii terpenoids,and laid the foundation for future biosynthesis research.
Cloning, Molecular ; Intramolecular Lyases ; genetics ; Plant Proteins ; genetics ; Tripterygium ; enzymology ; genetics

Flavonoids are a group of secondary metabolites found in plants. They have many pharmacological functions and play an important role in Chinese sumac( Rhus chinensis),which is a well-known traditional Chinese medicinal plant. Chalcone isomerase( CHI,EC 5. 5. 1. 6) is one of the key enzymes in the flavonoids biosynthesis pathway. In this paper,the full-length c DNA sequence encoding the chalcone isomerase from R. chinensis( designated as Rc CHI) was cloned by RT-PCR and rapid-amplification of c DNA Ends( RACE). The Rc CHI c DNA sequence was 1 058 bp and the open reading frame( ORF) was 738 bp. The ORF predicted to encode a 245-amino acid polypeptide. Rc CHI gene contained an intron and two exons. The sequence alignments revealed Rc CHI shared47. 1%-71. 6% identity with the homologues in other plants. Real-time PCR analysis showed that the total flavonoid levels were positively correlated with tissue-specific expressions of Rc CHI mRNA in different tissues. The recombinant protein was successfully expressed in an Escherichia coli strain with the p GEX-6 P-1 vector. In this paper,the CHI gene was cloned and characterized in the family of Anacardiaceae and will help us to obtain better knowledge of the flavonoids biosynthesis of the flavonoid compounds in R. chinensis.
Cloning, Molecular ; DNA, Complementary ; Flavonoids ; biosynthesis ; Intramolecular Lyases ; genetics ; Plants, Medicinal ; enzymology ; genetics ; Rhus ; enzymology ; genetics

In order to explore the functions of genes of key rate-limiting enzymes chalcone isomerase(CHI) and chalcone synthase(CHS) in the biosynthesis of flavonoids in Lonicera macranthoides, this study screened and cloned the cDNA sequences of CHI and CHS genes from the transcriptome data of conventional variety and 'Xianglei' of L. macranthoides. Online bioinformatics analysis software was used to analyze the characteristics of the encoded proteins, and quantitative reverse-transcription polymerase chain reaction(qRT-PCR) to detect the expression of CHI and CHS in different parts of the varieties at different flowering stages. The content of luteo-loside was determined by high performance liquid chromatography(HPLC) and the correlation with the expression of the two genes was analyzed. The results showed that the CHI and CHS of the two varieties contained a 627 bp and 1170 bp open reading frame(ORF), respectively, and the CHI protein and CHS protein were stable, hydrophilic, and non-secretory. qRT-PCR results demonstrated that CHI and CHS of the two varieties were differentially expressed in stems and leaves at different flowering stages, particularly the key stages. Based on HPLC data, luteoloside content was in negative correlation with the relative expression of the genes. Thus, CHI and CHS might regulate the accumulation of flavonoids in L. macranthoides, and the specific functions should be further studied. This study cloned CHI and CHS in L. macranthoides and analyzed their expression for the first time, which laid a basis for investigating the molecular mechanism of the differences in flavonoids such as luteoloside in L. macranthoides and variety breeding.
Acyltransferases/metabolism* ; Chalcone ; Cloning, Molecular ; Intramolecular Lyases ; Lonicera/metabolism* ; Plant Breeding

Blakeslea trispora CarRA has both lycopene cyclase and phytoene synthase activity. In order to analyze the double functional activity of CarRA proteins and to detect the active sites of lycopene cyclase, we constructed two detection systems in Escherichia coli by color complementary. Through PCR-driven overlap extension we got carRA gene cDNA, then constructed prokaryotes expression vector pET28a-carRA. pET28a-carRA with plasmid pAC-LYC carrying crtl/crtB/crtE gene clusters were co-transformed to BL21(DE3) to validate lycopene cyclase activity. We constructed the plasmid pAC-LYC delta (crtB) carrying crtl/crtE gene clusters, then co-transtormed them with pET28a-carRA to BL21(DE3) to validate phytoene synthase activity. Based on color complementary, and HPLC analysis of metabolites, we confirmed that the CarRA protein activity detection system was reliable. Our study provides a screening model for specific mutation of lycopene cyclase without affecting phytoene synthase activity.
Alkyl and Aryl Transferases ; genetics ; metabolism ; Carotenoids ; biosynthesis ; Cloning, Molecular ; DNA, Complementary ; genetics ; Escherichia coli ; genetics ; metabolism ; Fungal Proteins ; genetics ; metabolism ; Genetic Vectors ; genetics ; Geranylgeranyl-Diphosphate Geranylgeranyltransferase ; Intramolecular Lyases ; genetics ; metabolism ; Mucorales ; enzymology ; genetics ; Mutation ; Polymerase Chain Reaction

Tomatoes ( Lycopersicon esculentum Mill.) are the principal dietary source of Lycopene which is one of carotenoid and is highly beneficial in preventing some diseases such as the cancer and the heart disease. Suppressing the expression of Lcy gene, the main gene regulating the transformation of the lycopene, is a convenient and effective way to enhance the content of lycopene. The primers were designed according to the gene sequence(U46919)and (X86452) in GenBank. The fruit-specific promoter--phytoene desaturase gene(Pds) promoter and the DNA segment of the Lcy gene were isolated from the genome DNA of tomatoes. The 3'end of Lcy DNA segment was connected together by an intron to inform the RNA interferential segment then which was inserted in the expression vector with the Pds promoter to inform the fruit-specific expression vector. The vector was transformed into the tomatoes through the Agrobacterium tumefaciens. Five transformants were obtained. And the PCR proved that the extra-gene was integrated into the tomato genome. The lycopene in the transgenic tomatoes fruit was increased significantly through analysing the contents of lycopene. These results show that regutating biosynthetic enzyme in carotenoid pathway by RNAi can improve the lycopene content of plant-derived products.
Agrobacterium tumefaciens ; genetics ; Carotenoids ; metabolism ; DNA, Plant ; genetics ; Fruit ; enzymology ; genetics ; metabolism ; Intramolecular Lyases ; genetics ; metabolism ; Lycopersicon esculentum ; enzymology ; genetics ; metabolism ; Oxidoreductases ; genetics ; Plant Proteins ; genetics ; metabolism ; Plants, Genetically Modified ; Polymerase Chain Reaction ; Promoter Regions, Genetic ; genetics ; RNA Interference ; Transformation, Genetic

In plants, lipoxygenases (LOXs) play a crucial role in biotic and abiotic stresses. In our previous study, five 13-LOX genes of oriental melon were regulated by abiotic stress but it is unclear whether the 9-LOX is involved in biotic and abiotic stresses. The promoter analysis revealed that CmLOX09 (type of 9-LOX) has hormone elements, signal substances, and stress elements. We analyzed the expression of CmLOX09 and its downstream genes-CmHPL and CmAOS-in the leaves of four-leaf stage seedlings of the oriental melon cultivar "Yumeiren" under wound, hormone, and signal substances. CmLOX09, CmHPL, and CmAOS were all induced by wounding. CmLOX09 was induced by auxin (indole acetic acid, IAA) and gibberellins (GA₃); however, CmHPL and CmAOS showed differential responses to IAA and GA₃. CmLOX09, CmHPL, and CmAOS were all induced by hydrogen peroxide (H₂O₂) and methyl jasmonate (MeJA), while being inhibited by abscisic acid (ABA) and salicylic acid (SA). CmLOX09, CmHPL, and CmAOS were all induced by the powdery mildew pathogen Podosphaera xanthii. The content of 2-hexynol and 2-hexenal in leaves after MeJA treatment was significantly higher than that in the control. After infection with P. xanthii, the diseased leaves of the oriental melon were divided into four levels-levels 1, 2, 3, and 4. The content of jasmonic acid (JA) in the leaves of levels 1 and 3 was significantly higher than that in the level 0 leaves. In summary, the results suggested that CmLOX09 might play a positive role in the response to MeJA through the hydroperoxide lyase (HPL) pathway to produce C6 alcohols and aldehydes, and in the response to P. xanthii through the allene oxide synthase (AOS) pathway to form JA.
Abscisic Acid ; Acetates/chemistry* ; Aldehyde-Lyases/metabolism* ; Aldehydes/chemistry* ; Cucurbitaceae/genetics* ; Cyclopentanes/chemistry* ; Cytochrome P-450 Enzyme System/metabolism* ; Gene Expression Profiling ; Gene Expression Regulation, Plant ; Hormones/metabolism* ; Hydrogen Peroxide/metabolism* ; Intramolecular Oxidoreductases/metabolism* ; Lipoxygenase/metabolism* ; Oxylipins/chemistry* ; Plant Leaves/genetics* ; Plant Proteins/metabolism* ; Promoter Regions, Genetic ; Salicylic Acid/chemistry* ; Seedlings/metabolism* ; Signal Transduction ; Stress, Physiological ; Transgenes