Phospholipase D (PLD, EC 3.1.4.4) plays an important role in adaptive response of postharvest fruit to environment. In this study, a novel cDNA of PLDα was isolated with the strategy of in silico cloning in combina...Phospholipase D (PLD, EC 3.1.4.4) plays an important role in adaptive response of postharvest fruit to environment. In this study, a novel cDNA of PLDα was isolated with the strategy of in silico cloning in combination with RT-PCR from peach (Prunus persica L. cv. Jiubao). The obtained PLDα gene contained a complete open reading frame encoding a 92- kDa protein of 810 amino acid residues, which possessed the characteristic C2 domain and two catalytic HKD motifs. The alignment analysis of the deduced peach PLDa protein with other known PLDα family proteins indicated that peach PLDα was conserved and highly homologous with strawberry PLDα. Semi-quantitative RT-PCR and Northern blot analysis indicated PLDα mRNA in peach fruits could be induced by low temperature. This work provided a scientific basis for further investigating the mechanism of postharvest fruit adaptation to low temperature.展开更多
[ Objective ] This study aimed to verify the feasibility of in silico cloning of functional candidate genes in tea. [ Method ] Theobroma cacao caffeine syn- thase gene BCS1 was used as a probe to search the establishe...[ Objective ] This study aimed to verify the feasibility of in silico cloning of functional candidate genes in tea. [ Method ] Theobroma cacao caffeine syn- thase gene BCS1 was used as a probe to search the established tea EST database using BLAST; 26 tea ESTs highly homologous to BCS1 were obtained, which were assembled using CAP (contig assembly program) of BioEdit software; subsequently, two EST configs harboring ORF were obtained, which were named TCSnewl and TCSnew2, respectively. Nucleotide sequences and deduced amino acid sequences of theses two genes were compared with those of cDNA of tea caffeine synthase gene TCS in the GenBank database that was cloned with experimental biological method. A phylogenetic tree was constructed for homalogous analysis of the deduced amino acid sequences of theses three genes. [ Result] in silico cloning of functional candidate genes in tea using a homologous gene of distantly related species as a probe is a feasible technical means. [ Conclusion] This study provided the basis for in silico cloning of other functional genes in tea.展开更多
[Objective] The aim was to clone the up-regulated expression gene of rice induced by Rhizoctonia solani.[Method] The EST fragment K16 obtained by suppression subtraction hybridization(SSH)was cloned and confirmed by...[Objective] The aim was to clone the up-regulated expression gene of rice induced by Rhizoctonia solani.[Method] The EST fragment K16 obtained by suppression subtraction hybridization(SSH)was cloned and confirmed by reverse transcription-polymerase chain reaction(RT-PCR).Then RT-PCR products were cloned into the PMD18-T vector and sequenced.The functions of the sequence were predicted with bioinformatics method.[Result] A 1 079 bp gene was obtained.The gene encoded a protein with 236 amino acids.The protein contains many motif sites,two WRKY domains and a C2H2 zinc finger motif.The gene showed high identities with WRKY8,WRKY24 and WRKY30 gene of rice.[Conclusion] The up-regulated expression gene induced by R.solani was representative WRKY family gene.The gene could play an important role on rice sheath blight resistance.展开更多
Bovine coronavirus(BCoV)poses a significant threat to the global cattle industry,causing both respiratory and gastrointestinal infections in cattle populations.This necessitates the development of efficacious vaccines...Bovine coronavirus(BCoV)poses a significant threat to the global cattle industry,causing both respiratory and gastrointestinal infections in cattle populations.This necessitates the development of efficacious vaccines.While several inactivated and live BCoV vaccines exist,they are predominantly limited to calves.The immunization of adult cattle is imperative for BCoV infection control,as it curtails viral transmission to calves and ameliorates the impact of enteric and respiratory ailments across all age groups within the herd.This study presents an in silico methodology for devising a multiepitope vaccine targeting BCoV.The spike glycoprotein(S)and nucleocapsid(N)proteins,which are integral elements of the BCoV structure,play pivotal roles in the viral infection cycle and immune response.We constructed a remarkably effective multiepitope vaccine candidate specifically designed to combat the BCoV population.Using immunoinformatics technology,B-cell and T-cell epitopes were predicted and linked together using linkers and adjuvants to efficiently trigger both cellular and humoral immune responses in cattle.The in silico construct was characterized,and assessment of its physicochemical properties revealed the formation of a stable vaccine construct.After 3D modeling of the vaccine construct,molecular docking revealed a stable interaction with the bovine receptor bTLR4.Moreover,the viability of the vaccine’s high expression and simple purification was demonstrated by codon optimization and in silico cloning expression into the pET28a(+)vector.By applying immunoinformatics approaches,researchers aim to better understand the immune response to bovine coronavirus,discover potential targets for intervention,and facilitate the development of diagnostic tools and vaccines to mitigate the impact of this virus on cattle health and the livestock industry.We anticipate that the design will be useful as a preventive treatment for BCoV sickness in cattle,opening the door for further laboratory studies.展开更多
[Objective] The aim was to clone triosephosphate isomerase (TPI) gene from Apis mellifera, and predict the properties of TPI protein with bioinformatic meth- ods. [Method] The TPI gene was firstly cloned by in silic...[Objective] The aim was to clone triosephosphate isomerase (TPI) gene from Apis mellifera, and predict the properties of TPI protein with bioinformatic meth- ods. [Method] The TPI gene was firstly cloned by in silico cloning based on the ex- pressed sequence tags (ESTs) from Unigene of NCBI. Some characters of the TPI protein including hydrophobicity or hydrophilicity, isoelectric point (pl) and secondary structure were analyzed and predicted by the tools of bioinformatics. [Result] The TPI gene from A. mellifera was 1 768 bp in full length and it contained a complete ORF which encoded 247 amino acids; the pl of TPI protein was 8.515; the TPI protein was a member of ~13-fold family. [Conclusion] The in silico cloning based on the expressed sequence tags is a efficient method in practice, and this study will provide more references for further study on A. mellifera at molecular level.展开更多
[ Objective] The study aimed to clone and identify Na^+/H^+ antiporter genes in maize, and provided the information for characterizing the function of such genes in abiotic stress tolerance of maize. Method The in ...[ Objective] The study aimed to clone and identify Na^+/H^+ antiporter genes in maize, and provided the information for characterizing the function of such genes in abiotic stress tolerance of maize. Method The in silico cloning, RT-PCR, and bioinformatics analysis were used in this study. Result By in sifico cloning, a plasma membrane Na^+/H^+ antiporter gene, named as ZmSOS1 (EMBL accession No. BN001309), was cloned from maize ( Zea mays L. ). ZmSOS1 has an open reading frame (ORF) of 3 411 bp which encoded a protein of 1 136 amino acids. By multiple sequence alignment analysis, it showed the predicated peptide of ZmSOS1 were 61% and 82% identities in amino acids to the plasma membrane Na^+/H^+ antiporter AtSOS1 and OsSOS1, respectively. The RT-PCR analysis revealed that ZmSOS1 could be significantly up-regulated by salt stress, which indicated ZmSOS1 might play a role in salt tolerance of maize. Conclusion ZmSOS1 is a putative plasma membrane Na^+/H^+ antiporter gene and may play a role in abiotic stress tolerance of maize.展开更多
Human fibrinogen-related protein-1/liver fibrinogen-related protein-1 (HFREP-l/LFIRE-1), a liver-specific protein, is a member of fibrinogen superfamily that exerts various biological activities. However, the function...Human fibrinogen-related protein-1/liver fibrinogen-related protein-1 (HFREP-l/LFIRE-1), a liver-specific protein, is a member of fibrinogen superfamily that exerts various biological activities. However, the function of HFREP-l/LFIRE-1 in liver remains unknown. Here we isolated its mouse ortholog gene-mouse fibrinogen-related protein-1 (mfrep-1), which encoded 314 amino acids, exhibiting 80.4% similarity to HFREP-l/LFIRE-1. Northern blot analysis revealed that 1.2-kb mfrep-1 mRNA was detected selectively in mouse liver. To explore the function of MFREP-1, we examined the levels of mfrep-1 mRNA during regeneration after 70% partial hepatectomy (PHx) in mice, mfrep-1 mRNA increased in the regenerating liver and reached the first shoulder peak at 2-4 h after PHx. Cycloheximide pretreatment could suppress the induction of mfrep-1, indicating the up-regulation of this gene need de novo protein synthesis. Its mRNA continued to elevate at 6 h thereafter and reached the second peak at 24 h. The enhanced expression of mfrep-1 maintained high until 72 h and then declined slowly to the basal level. Immunohistochemistry assessment confirmed the up-regulated expression of MFREP-1 protein in parenchymal cells during liver regeneration. These data suggested that MFREP-1 might play an important role in liver regeneration and be involved in the regulation of cell growth.展开更多
Pathogenesis-related proteins (PRs) play many important roles in plant defense response against pathogen attack. To better understand the molecular mechanism of PR genes involved in wheat adult plant resistance (AP...Pathogenesis-related proteins (PRs) play many important roles in plant defense response against pathogen attack. To better understand the molecular mechanism of PR genes involved in wheat adult plant resistance (APR) to stripe rust, based on a differentially expressed transcribed derived fragment (TDF), a novel PR gene from wheat cv. Xingzi 9104 infected by the Puccinia striiformis Westend f. sp. tritici Erikss. pathotype CY32, which was highly similar to the maize ZmPRIO gene and designated as TaPRIO, was identified using in silico cloning and RT-PCR method. This novel TaPRIO gene was predicted to encode a 160-amino acid protein with a deduced molecular weight of 17.06 kDa and an isoelectronic point (pI) of 5.19. An amino acid sequence analysis of TaPR10 demonstrated the presence of a typical conserved domain of pathogenesis related protein Bet v I family. Multiple alignment analysis based on the amino acids encoded by 10 different PRIO genes from maize (Zea mays), rice (Oryza sativa), broomcorn (Sorghum bicolor), and wheat (Triticum aestivum) indicated that PR proteins of class 10 was conserved among the 4 plant species with about 80% similarity. DNA sequence of TaPRIO suggested the presence of one 84-bp intron with the splicing sites of GT-AT bi-nucleotide sequence between 188 and 271 bp. Using a real-time quantitative RT-PCR (qRT-PCR), expression profiles of TaPRIO revealed that at the adult-plant stage, TaPRIO transcript was up-regulated as early as 12 h post-inoculation (hpi), with the occurrence of maximum induction at 24 hpi. At the seedling stage, TaPRIO was also slightly induced 18 hpi. However, the transcript amount was relatively lower than that of the adult-plant stage. Taken together, these results suggest that TaPRIO may participate in wheat defense response of APR to stripe rust.展开更多
Acyl-ACP thioesterases (FATs) terminates the fatty acid synthesis and allow the transport of fatty acids out of the plastids, which are the important determinants of cellular metabolism. FATB is a member of FAT enzy...Acyl-ACP thioesterases (FATs) terminates the fatty acid synthesis and allow the transport of fatty acids out of the plastids, which are the important determinants of cellular metabolism. FATB is a member of FAT enzymes that has been described previously in most of the plants. In silico cloning is a new method that utilizes the bioinformatics on the complete genome and available EST database. In this study, a full-length cDNA clone of PtFATB gene was isolated from Populus tomentosa using this approach. It is 1,450 bp in length and the open reading frame encodes a peptide of 421 amino acids. The predicted amino acid sequence shows significant homology with those from other plant species, which contain typical domains owned by FATB proteins. The transcripts of PtFATB were abundant in leaves, and less in roots detected by using semiquantitative RT-PCR. When the shoots were subjected to the stress treatments (cold, dry, NaC1) and ABA (Abscisic acid), the expression of PtFATB was only slightly reduced under the treatment of low temperature. This suggests that the expression of PtFATB is in a constitutive fashion. This study provides the basis not only for the identification and characterization of this gene but also for the improvement of cold tolerance by controlling the expression of the PtFATB gene in trees in near future.展开更多
[Objective] This study aimed to explore the molecular mechanism of mulberry pigment metabolism regulation. [Method] Chalconesynthase(CHS) gene was cloned from Morus(Moraceae) in silico. The amino acid sequence, ph...[Objective] This study aimed to explore the molecular mechanism of mulberry pigment metabolism regulation. [Method] Chalconesynthase(CHS) gene was cloned from Morus(Moraceae) in silico. The amino acid sequence, physical and chemical properties, transmembrane structural domain, hydrophobicity/hydrophilicity,subcellular localization, secondary and tertiary structure of protein were predicted and analyzed by bioinformatics tools. [Result] The cDNA sequence of CHS gene was 1 365bp by splicing using the software DNAstar and it contained a complete ORF including 1 170 bp which encoded 389 amino acids. Bioinformatic analysis showed that CHS gene included specific peptide sequence RLMMYQQGCFAGGTVLR of chalcone synthase superfamily, but has no signal peptide, belonging to the non-secretory proteins, located inside of cytoplasm. Its molecular evolution is more conservative.[Conclusion] The results above provided foundation for the further studies of structure and function of CHS protein.展开更多
基金supported by China Post doctoral Science Foundation (20070420095)the National Natural Science Foundation of China (30571279,30871699,30901012)+1 种基金Innovative Foundation of Shanghai UniversitySystems Biology Research Foundation of Shanghai University
文摘Phospholipase D (PLD, EC 3.1.4.4) plays an important role in adaptive response of postharvest fruit to environment. In this study, a novel cDNA of PLDα was isolated with the strategy of in silico cloning in combination with RT-PCR from peach (Prunus persica L. cv. Jiubao). The obtained PLDα gene contained a complete open reading frame encoding a 92- kDa protein of 810 amino acid residues, which possessed the characteristic C2 domain and two catalytic HKD motifs. The alignment analysis of the deduced peach PLDa protein with other known PLDα family proteins indicated that peach PLDα was conserved and highly homologous with strawberry PLDα. Semi-quantitative RT-PCR and Northern blot analysis indicated PLDα mRNA in peach fruits could be induced by low temperature. This work provided a scientific basis for further investigating the mechanism of postharvest fruit adaptation to low temperature.
基金Supported by National Science and Technology Support Program of China(2011BAD01B01)Youth Talent Innovation Fund of Fujian Academy of Agricultural Sciences(2011QC-2)Special Fund for"Double Hundred Plan"of Fujian Academy of Agricultural Sciences(sbmx1303-1)
文摘[ Objective ] This study aimed to verify the feasibility of in silico cloning of functional candidate genes in tea. [ Method ] Theobroma cacao caffeine syn- thase gene BCS1 was used as a probe to search the established tea EST database using BLAST; 26 tea ESTs highly homologous to BCS1 were obtained, which were assembled using CAP (contig assembly program) of BioEdit software; subsequently, two EST configs harboring ORF were obtained, which were named TCSnewl and TCSnew2, respectively. Nucleotide sequences and deduced amino acid sequences of theses two genes were compared with those of cDNA of tea caffeine synthase gene TCS in the GenBank database that was cloned with experimental biological method. A phylogenetic tree was constructed for homalogous analysis of the deduced amino acid sequences of theses three genes. [ Result] in silico cloning of functional candidate genes in tea using a homologous gene of distantly related species as a probe is a feasible technical means. [ Conclusion] This study provided the basis for in silico cloning of other functional genes in tea.
基金Supported by Young Academic Backbone Support Program of Heilongjiang Province(1152G022)~~
文摘[Objective] The aim was to clone the up-regulated expression gene of rice induced by Rhizoctonia solani.[Method] The EST fragment K16 obtained by suppression subtraction hybridization(SSH)was cloned and confirmed by reverse transcription-polymerase chain reaction(RT-PCR).Then RT-PCR products were cloned into the PMD18-T vector and sequenced.The functions of the sequence were predicted with bioinformatics method.[Result] A 1 079 bp gene was obtained.The gene encoded a protein with 236 amino acids.The protein contains many motif sites,two WRKY domains and a C2H2 zinc finger motif.The gene showed high identities with WRKY8,WRKY24 and WRKY30 gene of rice.[Conclusion] The up-regulated expression gene induced by R.solani was representative WRKY family gene.The gene could play an important role on rice sheath blight resistance.
文摘Bovine coronavirus(BCoV)poses a significant threat to the global cattle industry,causing both respiratory and gastrointestinal infections in cattle populations.This necessitates the development of efficacious vaccines.While several inactivated and live BCoV vaccines exist,they are predominantly limited to calves.The immunization of adult cattle is imperative for BCoV infection control,as it curtails viral transmission to calves and ameliorates the impact of enteric and respiratory ailments across all age groups within the herd.This study presents an in silico methodology for devising a multiepitope vaccine targeting BCoV.The spike glycoprotein(S)and nucleocapsid(N)proteins,which are integral elements of the BCoV structure,play pivotal roles in the viral infection cycle and immune response.We constructed a remarkably effective multiepitope vaccine candidate specifically designed to combat the BCoV population.Using immunoinformatics technology,B-cell and T-cell epitopes were predicted and linked together using linkers and adjuvants to efficiently trigger both cellular and humoral immune responses in cattle.The in silico construct was characterized,and assessment of its physicochemical properties revealed the formation of a stable vaccine construct.After 3D modeling of the vaccine construct,molecular docking revealed a stable interaction with the bovine receptor bTLR4.Moreover,the viability of the vaccine’s high expression and simple purification was demonstrated by codon optimization and in silico cloning expression into the pET28a(+)vector.By applying immunoinformatics approaches,researchers aim to better understand the immune response to bovine coronavirus,discover potential targets for intervention,and facilitate the development of diagnostic tools and vaccines to mitigate the impact of this virus on cattle health and the livestock industry.We anticipate that the design will be useful as a preventive treatment for BCoV sickness in cattle,opening the door for further laboratory studies.
基金Supported by Scientific Research Fund of Changzhi University (2010111)~~
文摘[Objective] The aim was to clone triosephosphate isomerase (TPI) gene from Apis mellifera, and predict the properties of TPI protein with bioinformatic meth- ods. [Method] The TPI gene was firstly cloned by in silico cloning based on the ex- pressed sequence tags (ESTs) from Unigene of NCBI. Some characters of the TPI protein including hydrophobicity or hydrophilicity, isoelectric point (pl) and secondary structure were analyzed and predicted by the tools of bioinformatics. [Result] The TPI gene from A. mellifera was 1 768 bp in full length and it contained a complete ORF which encoded 247 amino acids; the pl of TPI protein was 8.515; the TPI protein was a member of ~13-fold family. [Conclusion] The in silico cloning based on the expressed sequence tags is a efficient method in practice, and this study will provide more references for further study on A. mellifera at molecular level.
基金Supported by the Natural Science Foundation of the Department of Educationof Jiangsu Province(07KJD180168)the Doctoral ScienceStarting Foundation of Nantong UniversityAnd the Openning Subjectof Plant Functional Genomics Key Laboratory of Jiangsu Province~~
文摘[ Objective] The study aimed to clone and identify Na^+/H^+ antiporter genes in maize, and provided the information for characterizing the function of such genes in abiotic stress tolerance of maize. Method The in silico cloning, RT-PCR, and bioinformatics analysis were used in this study. Result By in sifico cloning, a plasma membrane Na^+/H^+ antiporter gene, named as ZmSOS1 (EMBL accession No. BN001309), was cloned from maize ( Zea mays L. ). ZmSOS1 has an open reading frame (ORF) of 3 411 bp which encoded a protein of 1 136 amino acids. By multiple sequence alignment analysis, it showed the predicated peptide of ZmSOS1 were 61% and 82% identities in amino acids to the plasma membrane Na^+/H^+ antiporter AtSOS1 and OsSOS1, respectively. The RT-PCR analysis revealed that ZmSOS1 could be significantly up-regulated by salt stress, which indicated ZmSOS1 might play a role in salt tolerance of maize. Conclusion ZmSOS1 is a putative plasma membrane Na^+/H^+ antiporter gene and may play a role in abiotic stress tolerance of maize.
基金supported by research grants from the Special Funds for Major State Basic Research of China(Grant G1999053905)
文摘Human fibrinogen-related protein-1/liver fibrinogen-related protein-1 (HFREP-l/LFIRE-1), a liver-specific protein, is a member of fibrinogen superfamily that exerts various biological activities. However, the function of HFREP-l/LFIRE-1 in liver remains unknown. Here we isolated its mouse ortholog gene-mouse fibrinogen-related protein-1 (mfrep-1), which encoded 314 amino acids, exhibiting 80.4% similarity to HFREP-l/LFIRE-1. Northern blot analysis revealed that 1.2-kb mfrep-1 mRNA was detected selectively in mouse liver. To explore the function of MFREP-1, we examined the levels of mfrep-1 mRNA during regeneration after 70% partial hepatectomy (PHx) in mice, mfrep-1 mRNA increased in the regenerating liver and reached the first shoulder peak at 2-4 h after PHx. Cycloheximide pretreatment could suppress the induction of mfrep-1, indicating the up-regulation of this gene need de novo protein synthesis. Its mRNA continued to elevate at 6 h thereafter and reached the second peak at 24 h. The enhanced expression of mfrep-1 maintained high until 72 h and then declined slowly to the basal level. Immunohistochemistry assessment confirmed the up-regulated expression of MFREP-1 protein in parenchymal cells during liver regeneration. These data suggested that MFREP-1 might play an important role in liver regeneration and be involved in the regulation of cell growth.
基金supported by grants from the National Basic Research Program of China (2006CB708208,2006CB101901)the Program for Changjiang Scholars and Innovative Research Team in University, Ministry of Education of China (IRT0558)+1 种基金the National Natural Science Foundation of China (30930064)the 111Project from the Ministry of Education of China(B07049)
文摘Pathogenesis-related proteins (PRs) play many important roles in plant defense response against pathogen attack. To better understand the molecular mechanism of PR genes involved in wheat adult plant resistance (APR) to stripe rust, based on a differentially expressed transcribed derived fragment (TDF), a novel PR gene from wheat cv. Xingzi 9104 infected by the Puccinia striiformis Westend f. sp. tritici Erikss. pathotype CY32, which was highly similar to the maize ZmPRIO gene and designated as TaPRIO, was identified using in silico cloning and RT-PCR method. This novel TaPRIO gene was predicted to encode a 160-amino acid protein with a deduced molecular weight of 17.06 kDa and an isoelectronic point (pI) of 5.19. An amino acid sequence analysis of TaPR10 demonstrated the presence of a typical conserved domain of pathogenesis related protein Bet v I family. Multiple alignment analysis based on the amino acids encoded by 10 different PRIO genes from maize (Zea mays), rice (Oryza sativa), broomcorn (Sorghum bicolor), and wheat (Triticum aestivum) indicated that PR proteins of class 10 was conserved among the 4 plant species with about 80% similarity. DNA sequence of TaPRIO suggested the presence of one 84-bp intron with the splicing sites of GT-AT bi-nucleotide sequence between 188 and 271 bp. Using a real-time quantitative RT-PCR (qRT-PCR), expression profiles of TaPRIO revealed that at the adult-plant stage, TaPRIO transcript was up-regulated as early as 12 h post-inoculation (hpi), with the occurrence of maximum induction at 24 hpi. At the seedling stage, TaPRIO was also slightly induced 18 hpi. However, the transcript amount was relatively lower than that of the adult-plant stage. Taken together, these results suggest that TaPRIO may participate in wheat defense response of APR to stripe rust.
基金This work was supported by project "Regulation of Composition and Saturation of Fatty Acid in Trees by Genetic Engineering", Introduction of Foreign Advanced Agricultural Science and Technology into China (No. 2005-4-52).
文摘Acyl-ACP thioesterases (FATs) terminates the fatty acid synthesis and allow the transport of fatty acids out of the plastids, which are the important determinants of cellular metabolism. FATB is a member of FAT enzymes that has been described previously in most of the plants. In silico cloning is a new method that utilizes the bioinformatics on the complete genome and available EST database. In this study, a full-length cDNA clone of PtFATB gene was isolated from Populus tomentosa using this approach. It is 1,450 bp in length and the open reading frame encodes a peptide of 421 amino acids. The predicted amino acid sequence shows significant homology with those from other plant species, which contain typical domains owned by FATB proteins. The transcripts of PtFATB were abundant in leaves, and less in roots detected by using semiquantitative RT-PCR. When the shoots were subjected to the stress treatments (cold, dry, NaC1) and ABA (Abscisic acid), the expression of PtFATB was only slightly reduced under the treatment of low temperature. This suggests that the expression of PtFATB is in a constitutive fashion. This study provides the basis not only for the identification and characterization of this gene but also for the improvement of cold tolerance by controlling the expression of the PtFATB gene in trees in near future.
基金Supported by the National Natural Science Foundation of China(31072087)~~
文摘[Objective] This study aimed to explore the molecular mechanism of mulberry pigment metabolism regulation. [Method] Chalconesynthase(CHS) gene was cloned from Morus(Moraceae) in silico. The amino acid sequence, physical and chemical properties, transmembrane structural domain, hydrophobicity/hydrophilicity,subcellular localization, secondary and tertiary structure of protein were predicted and analyzed by bioinformatics tools. [Result] The cDNA sequence of CHS gene was 1 365bp by splicing using the software DNAstar and it contained a complete ORF including 1 170 bp which encoded 389 amino acids. Bioinformatic analysis showed that CHS gene included specific peptide sequence RLMMYQQGCFAGGTVLR of chalcone synthase superfamily, but has no signal peptide, belonging to the non-secretory proteins, located inside of cytoplasm. Its molecular evolution is more conservative.[Conclusion] The results above provided foundation for the further studies of structure and function of CHS protein.