At the early stage,the transcriptome sequencing technique was used to detect the differentially expressed gene CsFK111 between vine cucumber and dwarf cucumber D0462.The gene was cloned,and bioinformatics software too...At the early stage,the transcriptome sequencing technique was used to detect the differentially expressed gene CsFK111 between vine cucumber and dwarf cucumber D0462.The gene was cloned,and bioinformatics software tools were used to analyze and predict the gene family and this gene.There were 30 members of the cucumber F-box gene family.The coding region of the cucumber CsFK111 gene was full-length 1314 bp,which encoded 437 amino acids and was predicted to be located in the nucleus.The protein encoded by this gene was a non-transmembrane protein,and the prediction of the secondary structure showed thatβ-lamellar structure and irregular crimp were dominant.A comparison of the phylogenetic tree showed that it was closest to cantaloupe and belonged to the same branch.The results provided a basis for future study on the regulation mechanism of the CsFK111 gene on cucumber dwarfing and also laid a foundation for further study of FBK family proteins.展开更多
The regulating axillary branch gene was cloned and named as CsCCD7.Using a series bioinformatic computer softwares,database and online programes,CsCCD7 nucleotide sequence and CsCCD7 amino acid sequence were analyzed ...The regulating axillary branch gene was cloned and named as CsCCD7.Using a series bioinformatic computer softwares,database and online programes,CsCCD7 nucleotide sequence and CsCCD7 amino acid sequence were analyzed and CsCCD7 function was predicted.The results showed that CsCCD7 cDNA full length sequence was 2 136 bp,and included a 1 665 bp ORF which encoded a 554 AA protein;there were 32 kinds of cis-acting regulating element in 2 136 bp cDNA sequence;CsCCD7 was an unstable protein(the unstable coefficient:40.77),including many phosphorylation sites related with CsCCD7 function;CsCCD7 had no transmembrane domain,and its subcellular localization was in chloroplast.CsCCD7 secondary structure contained four conformations including α-helix,β-sheet,β-turn and random coil.CsCCD7 protein had no signal peptide,so was non-secretory protein and hydrophilicity protein(grand average of hydropathicity:-0.401).Both CsCCD7 secondary and tertiary structure prediction results showed that it was classified as carotenoid oxygenase family.Phylogenetic tree drew by Geneious showed that CsCCD7 was more closely related to AtCCD7 than any other Arabidopsis CCD protein.展开更多
Potassium-calcium activates channel subfamily N member 3(KCNN3/SK3/KCa2.3)is involved in regulating cellular calcium signaling,muscle contraction and neurotransmitter release.Dysregulation of the KCNN3 channel is asso...Potassium-calcium activates channel subfamily N member 3(KCNN3/SK3/KCa2.3)is involved in regulating cellular calcium signaling,muscle contraction and neurotransmitter release.Dysregulation of the KCNN3 channel is associated with the development of various tumors.We use bioinformatics analysis to identify whether KCNN3 regulates the occurrence and development of stomach adenocarcinoma(STAD)as a prognostic target.By analyzing the Human Protein Atlas(HPA)database and The Cancer Genome Atlas(TCGA)database,we found that the protein and mRNA levels of KCNN3 were dramatically reduced in STAD,and TCGA database showed that KCNN3 significantly correlated with the prognosis and clinical features of STAD.In addition,we found that high expression of KCNN3 in STAD reduced the IC 50 of several drugs in STAD cells,suggesting that high expression of KCNN3 correlated with the drug sensitivity of STAD.To investigate the underlying biological mechanism,we identified a potential KCNN3 interaction factor,tumor necrosis factor receptor superfamily member 7(CD27/TNFRSF7),which is expressed at low levels in STAD.RT-qPCR and Western blotting confirmed that KCNN3 and CD27 positively correlated with each other at protein and mRNA levels,and co-immunoprecipitation and immunofluorescence experiments confirmed that the two proteins interact and colocalize in the cytoplasm.Moreover,we confirmed the inhibitory effect of KCNN3 on the proliferation,migration and invasion of human STAD cells in vitro and in vivo through subcutaneous tumorigenesis and cellular experiments.Furthermore,GO/KEGG enrichment analysis showed that KCNN3 was enriched in signaling pathways regulating the immune response and calcium or metal ion transport.Lastly,we verified through cell co-culture,RT-qPCR and CCK8 assays that high expression of KCNN3 can promote the increase of T cell activating factor and the killing effect of T cells on STAD cells.Therefore,our results suggest that KCNN3 is a potential inhibitory factor affecting the occurrence and progression of STAD.展开更多
Arabidopsis thaliana ovate family proteins (AtOFPs) is a newly found plant-specific protein family interacting with TALE (3-aa loop extension homeodomain proteins) homeodomain proteins in Arabidopsis. Here, based ...Arabidopsis thaliana ovate family proteins (AtOFPs) is a newly found plant-specific protein family interacting with TALE (3-aa loop extension homeodomain proteins) homeodomain proteins in Arabidopsis. Here, based on bioinformatic analysis, we found that Arabidopsis genome actually encoded 17 OVATE domain-containing proteins. One of them, AtOFP19, has not been previously identified. Based on their amino acid sequence similarity, AtOFPs proteins can be divided into two groups. Most of the AtOFPs were located in nuclear, four of them were presented in chloroplast and the remaining two members appeared in cytoplasmic. A genome- wide microarray based gene expression analysis involving 47 stages of vegetative and reproductive development revealed that AtOFPs have diverse expression pattems. Investigation of proteins interaction showed that nine AtOFPs only interacted with TALE homeodomain proteins, which are fundamental regulators of plant meristem function and leaf development. Our work could provide important leads toward functional genomics studies of ovate family proteins, which may be involved in a previously unrecognized control mechanism in plant development展开更多
The p65 protein is a functional subunit of NF-κB family and exhibits a crucial role in host immune and inflammatory responses,apoptosis and tumor proliferation if improperly-regulated.Given its ubiquitous association...The p65 protein is a functional subunit of NF-κB family and exhibits a crucial role in host immune and inflammatory responses,apoptosis and tumor proliferation if improperly-regulated.Given its ubiquitous association with nearly all the animal cells and its pleotropic functions,the gene encoding NF-κB p65 subunit was cloned and sequenced from porcine kidney(PK-15)cells.The gene was 1662 bp in length,encoded a 553-amino acid protein and contained the prototypical NF-κB functional domains.Real-time quantitative RT-PCR and Western blot were used to characterize the transcription and expression levels of the p65 in different pig tissues.The results indicated that the p65 gene and protein were both broadly expressed in pig tissues,but most highly expressed in the intestine-associated lymph nodes and the lungs.To localize the recombinant protein in intestinal porcine epithelial cells(IPEC-J2),the gene was subcloned into the vector pEGFP(pEGFP-p65).Using fluorescence microscopy,the protein was found confined to the cytoplasm in normal cells;however,during porcine epidemic diarrhea virus(PEDV)infection,mRNA and protein expression were significantly up-regulated and the protein exhibited an overt tendency for nuclear translocalization consistent with a regulatory role in antiviral innate immunity.展开更多
基金Supported by the National Natural Science Foundation of China(32272724)the National Science Foundation of Heilongjiang Province,China(LH2019C033)。
文摘At the early stage,the transcriptome sequencing technique was used to detect the differentially expressed gene CsFK111 between vine cucumber and dwarf cucumber D0462.The gene was cloned,and bioinformatics software tools were used to analyze and predict the gene family and this gene.There were 30 members of the cucumber F-box gene family.The coding region of the cucumber CsFK111 gene was full-length 1314 bp,which encoded 437 amino acids and was predicted to be located in the nucleus.The protein encoded by this gene was a non-transmembrane protein,and the prediction of the secondary structure showed thatβ-lamellar structure and irregular crimp were dominant.A comparison of the phylogenetic tree showed that it was closest to cantaloupe and belonged to the same branch.The results provided a basis for future study on the regulation mechanism of the CsFK111 gene on cucumber dwarfing and also laid a foundation for further study of FBK family proteins.
基金Supported by Doctoral Fund of Ministry of Education of China (200802240008)National 863 Project (2007AA10Z177)
文摘The regulating axillary branch gene was cloned and named as CsCCD7.Using a series bioinformatic computer softwares,database and online programes,CsCCD7 nucleotide sequence and CsCCD7 amino acid sequence were analyzed and CsCCD7 function was predicted.The results showed that CsCCD7 cDNA full length sequence was 2 136 bp,and included a 1 665 bp ORF which encoded a 554 AA protein;there were 32 kinds of cis-acting regulating element in 2 136 bp cDNA sequence;CsCCD7 was an unstable protein(the unstable coefficient:40.77),including many phosphorylation sites related with CsCCD7 function;CsCCD7 had no transmembrane domain,and its subcellular localization was in chloroplast.CsCCD7 secondary structure contained four conformations including α-helix,β-sheet,β-turn and random coil.CsCCD7 protein had no signal peptide,so was non-secretory protein and hydrophilicity protein(grand average of hydropathicity:-0.401).Both CsCCD7 secondary and tertiary structure prediction results showed that it was classified as carotenoid oxygenase family.Phylogenetic tree drew by Geneious showed that CsCCD7 was more closely related to AtCCD7 than any other Arabidopsis CCD protein.
文摘Potassium-calcium activates channel subfamily N member 3(KCNN3/SK3/KCa2.3)is involved in regulating cellular calcium signaling,muscle contraction and neurotransmitter release.Dysregulation of the KCNN3 channel is associated with the development of various tumors.We use bioinformatics analysis to identify whether KCNN3 regulates the occurrence and development of stomach adenocarcinoma(STAD)as a prognostic target.By analyzing the Human Protein Atlas(HPA)database and The Cancer Genome Atlas(TCGA)database,we found that the protein and mRNA levels of KCNN3 were dramatically reduced in STAD,and TCGA database showed that KCNN3 significantly correlated with the prognosis and clinical features of STAD.In addition,we found that high expression of KCNN3 in STAD reduced the IC 50 of several drugs in STAD cells,suggesting that high expression of KCNN3 correlated with the drug sensitivity of STAD.To investigate the underlying biological mechanism,we identified a potential KCNN3 interaction factor,tumor necrosis factor receptor superfamily member 7(CD27/TNFRSF7),which is expressed at low levels in STAD.RT-qPCR and Western blotting confirmed that KCNN3 and CD27 positively correlated with each other at protein and mRNA levels,and co-immunoprecipitation and immunofluorescence experiments confirmed that the two proteins interact and colocalize in the cytoplasm.Moreover,we confirmed the inhibitory effect of KCNN3 on the proliferation,migration and invasion of human STAD cells in vitro and in vivo through subcutaneous tumorigenesis and cellular experiments.Furthermore,GO/KEGG enrichment analysis showed that KCNN3 was enriched in signaling pathways regulating the immune response and calcium or metal ion transport.Lastly,we verified through cell co-culture,RT-qPCR and CCK8 assays that high expression of KCNN3 can promote the increase of T cell activating factor and the killing effect of T cells on STAD cells.Therefore,our results suggest that KCNN3 is a potential inhibitory factor affecting the occurrence and progression of STAD.
基金Supported by the National Natural Science Foundation of China (30870144)
文摘Arabidopsis thaliana ovate family proteins (AtOFPs) is a newly found plant-specific protein family interacting with TALE (3-aa loop extension homeodomain proteins) homeodomain proteins in Arabidopsis. Here, based on bioinformatic analysis, we found that Arabidopsis genome actually encoded 17 OVATE domain-containing proteins. One of them, AtOFP19, has not been previously identified. Based on their amino acid sequence similarity, AtOFPs proteins can be divided into two groups. Most of the AtOFPs were located in nuclear, four of them were presented in chloroplast and the remaining two members appeared in cytoplasmic. A genome- wide microarray based gene expression analysis involving 47 stages of vegetative and reproductive development revealed that AtOFPs have diverse expression pattems. Investigation of proteins interaction showed that nine AtOFPs only interacted with TALE homeodomain proteins, which are fundamental regulators of plant meristem function and leaf development. Our work could provide important leads toward functional genomics studies of ovate family proteins, which may be involved in a previously unrecognized control mechanism in plant development
基金Supported by the National Natural Science Foundation of China(31370140,31372438)。
文摘The p65 protein is a functional subunit of NF-κB family and exhibits a crucial role in host immune and inflammatory responses,apoptosis and tumor proliferation if improperly-regulated.Given its ubiquitous association with nearly all the animal cells and its pleotropic functions,the gene encoding NF-κB p65 subunit was cloned and sequenced from porcine kidney(PK-15)cells.The gene was 1662 bp in length,encoded a 553-amino acid protein and contained the prototypical NF-κB functional domains.Real-time quantitative RT-PCR and Western blot were used to characterize the transcription and expression levels of the p65 in different pig tissues.The results indicated that the p65 gene and protein were both broadly expressed in pig tissues,but most highly expressed in the intestine-associated lymph nodes and the lungs.To localize the recombinant protein in intestinal porcine epithelial cells(IPEC-J2),the gene was subcloned into the vector pEGFP(pEGFP-p65).Using fluorescence microscopy,the protein was found confined to the cytoplasm in normal cells;however,during porcine epidemic diarrhea virus(PEDV)infection,mRNA and protein expression were significantly up-regulated and the protein exhibited an overt tendency for nuclear translocalization consistent with a regulatory role in antiviral innate immunity.
