Coronary atherosclerotic heart disease(CHD)is the main type of cardiovascular disease.The efficacy of Uyghur drug compound Saffron formula in CHD has been clinically proven.However,the underlying mechanism remains unc...Coronary atherosclerotic heart disease(CHD)is the main type of cardiovascular disease.The efficacy of Uyghur drug compound Saffron formula in CHD has been clinically proven.However,the underlying mechanism remains unclear.In this study,researchers investigated the active ingredients and mechanism of action of Crocus sativus and Rosa rugosa in the treatment of CHD by network pharmacology and molecular docking techniques,collected target information with the help of TCMSP,GEO,GeneCards,and other databases,constructed protein-protein interaction(PPI)network diagrams by STRING database,performed GO and KEGG pathway enrichment analysis on common targets,and finally molecularly docked the active ingredients with core targets.C.sativus-R.rugosa have a variety of polyphenol compounds,a total of 12 active ingredients,including quercetin and kaempferol,were screened.The first three targets intersected with the core targets of CHD as AKT1,TNF,and IL-1B.Enrichment results of KEGG pathway showed that C.sativus-R.rugosa against CHD involved atherosclerosis pathways.The molecular docking results showed that quercetin and kaempferol were well bound to the core targets,and it was speculated that these components might be the main active ingredients for the treatment of CHD.The potential mechanism of action of C.sativus-R.rugosa for the treatment of coronary heart disease was initially revealed.展开更多
We described a novel polymer-lipase conjugate for high-efficient esterification of vitamin E using vitamin E and succinic anhydride as the substrates in nonaqueous media.In this work,the monomer,N-isopropylacrylamide(...We described a novel polymer-lipase conjugate for high-efficient esterification of vitamin E using vitamin E and succinic anhydride as the substrates in nonaqueous media.In this work,the monomer,N-isopropylacrylamide(NIPAM),was grafted onto Candida rugosa lipase(CRL)to synthesize poly(NIPAM)(pNIPAM)-CRL conjugate by atom transfer radical polymerization via the initiator coupled on the surface of CRL.The result showed that the catalytic efficiencies of pNIPAM-CRL conjugates(19.5-30.3 L·s^(-1)·mmol^(-1))were at least 7 times higher than that of free CRL(2.36 L·s^(-1)·mmol^(-1))in DMSO.It was attributed to a significant increase in Kcat of the conjugates in nonaqueous media.The synthesis catalyzed by pNIPAM-CRL co njugates was influenced by the length and density of the grafted polymer,water content,solvent polarity and molar ratio of the substrates.In the optimal synthesis,the reaction time was shortened at least 7 times,and yields of vitamin E succinate by pNIPAM-g-CRL and free CRL were obtained to be 75.4%and 6.6%at 55℃after the reaction for 1.5 h.The result argued that conjugation with pNIPAM induced conformational change of the lid on CRL based on hydrophobic interaction,thus providing a higher possibility of catalysis-favorable conformation on CRL in nonaqueous media.Moreover,pNIPAM conjugation improved the thermal stability of CRL greatly,and the stability improved further with an increase of chain length of pNIPAM.At the optimal reaction conditions(55℃and 1.5 h),pNIPAM-g-CRL also exhibited good reusability in the enzymatic synthesis of vitamin E succinate and kept~70%of its catalytic activity after ten consecutive cycles.The research demonstrated that pNIPAM-g-CRL was a more competitive biocatalyst in the enzymatic synthesis of vitamin E succinate and exhibited good application potential under harsh industrial conditions.展开更多
We studied some factors affecting the lipase production from candida rugosa, they mainly included medium compositions and culture condition.The result showed that the optimal medium compositions for lipase production ...We studied some factors affecting the lipase production from candida rugosa, they mainly included medium compositions and culture condition.The result showed that the optimal medium compositions for lipase production are 0.1% glucose 4.0% olive oil (carbon source),0.3% NH 4NO 3(nitrogen source),1.2%K 2HPO 4 and 0.4%MgSO 4·7H 2O.And the optimal culture condition is initial pH6.5,temperature 30℃,agitation 180r/min and time 60h. As a result, and the lipase activity could reach 19.5u/mL.Meanwhile we found that the surfactant could be helpful to the lipase production, and the optimal surfactant concentration was 0.03% GPE.The lipase activity was improved by more than 170% after we optimized the medium compositions and culture condition.While in a 5L fermentator, the lipase activity of fermentation broth could reach 33.5u/mL within 48 hours.展开更多
Different concentrations of jasmonic acid(JA)and benzothiadiazole(BTH) were sprayed on 2-year-old Rosa rugosa‘Plena’ seedlings. The induced resistance of JA and BTH to Sphaerotheca pannosa(Wallr.) and the changes of...Different concentrations of jasmonic acid(JA)and benzothiadiazole(BTH) were sprayed on 2-year-old Rosa rugosa‘Plena’ seedlings. The induced resistance of JA and BTH to Sphaerotheca pannosa(Wallr.) and the changes of their related physiological indices were investigated. Results showed that JA and BTH treatments had inhibitory impacts on S. pannosa infection. The optimal concentration of JA and BTH was 0.5 mmol/L for the disease-resistance induction of the leaves, its inductive effect was up to 66.36% for BTH and 54.49% for JA. Our results confirmed that exogenous JA and BTH significantly improved R. rugose ‘Plena’ resistance to S. pannosa. When treated with JA and BTH, activities of the three defense enzymes(POD, PPO, and PAL) increased significantly.Contents of total phenolics, flavonoids, and lignin also increased significantly. It is inferred from these results that exogenous JA and BTH could improve the resistance of R.rugose ‘Plena’ to S. pannosa through enhancing activities of the defensive enzymes and accumulation of secondary metabolites in the leaves.展开更多
The stability of Candida rugosa lipase coated with glutamic acid didodecyl ester ribitol amide was investigated taking esterification of lauryl alcohol and lauric acid in isooctane as a model reaction.At 30℃,the half...The stability of Candida rugosa lipase coated with glutamic acid didodecyl ester ribitol amide was investigated taking esterification of lauryl alcohol and lauric acid in isooctane as a model reaction.At 30℃,the half-life of the activity of the coated lipase was ca 10h,the enzyme activity became less changed after 12h and the residual activity was 39% of the initial value ,The coated lipase obeyed a first-order deactivation model with a deactivation energy of 29.9 J.mol^-1.展开更多
To study the effect of jasmonates(JAs)on the resistance of economic forest plants to insects,R osa rugosa‘Plena'leaves were treated with 1 mmol/L jasmonic acid(JA),methyl jasmonate(MeJA)and Z-jasmone,then the con...To study the effect of jasmonates(JAs)on the resistance of economic forest plants to insects,R osa rugosa‘Plena'leaves were treated with 1 mmol/L jasmonic acid(JA),methyl jasmonate(MeJA)and Z-jasmone,then the content of tannin and total phenol in leaves and the feeding area of Monolepta hieroglyphica adults on leaves were measured.Changes in the activities of detoxification enzymes in adult M.hieroglyphica that had fed on leaves treated with JAs were also studied.Tannin and total phenol levels in leaves increased significantly after treatment with JAs,and tannin level was 1.36–1.55-fold higher than in the control after treatment with 1 mmol/L MeJA.The total content of phenol in leaves treated with 1.0 mmol/L Z-jasmone increased by 1.33–2.20-fold compared with those of the control.The activities of detoxification enzymes in adults were inhibited to differing degrees:activity of alkaline phosphatase(AKP)first increased,then decreased;the activities of acid phosphatase(ACP),glutathione S-transferases(GSTs)and carboxylesterase(CarE)following treatment with 1 mmol/L MeJA were significantly reduced and were 22%–31%,11%–26%,and 11%–31%lower than those of the control,respectively.Moreover,the feeding area of adult M.hieroglyphica on the leaves treated with JAs was significantly reduced(P<0.05).The feeding area of economic forest R.rugosa‘Plena'leaves treated with 1 mmol/L MeJA decreased by 17%–43%compared with that of the control.Moreover,the decrease in the adult M.hieroglyphica feeding area was highly positively correlated with the content of tannin and positively correlated with the contents of total phenol of economic forest R.rugosa‘Plena'leaves.The reduced feeding area of adult M.hieroglyphica was highly negatively correlated with the activities of AKP and ACP and negatively correlated with those of the GSTs.In conclusion,the use of 1 mmol/L MeJA can noticeably decrease the deleterious effects of adult M.hieroglyphica.展开更多
At present, the research about flower color of Rosa rugosa is a very inno-vative and practical study. Glycosylation modification fulfills an important role in increasing the stability and solubility of anthocyanin in ...At present, the research about flower color of Rosa rugosa is a very inno-vative and practical study. Glycosylation modification fulfills an important role in increasing the stability and solubility of anthocyanin in plants. In this study, based on the transcriptional database of R. rugosa, a gene with full length cDNA of 1422bp, encoding 473 amino acids, designated as RrGT2, were isolated from flowers of R. rugosa ‘Zizhi’ and then functionally characterized. According to online software prediction, the molecular formula of the protein encoded by the RrGT2 gene is C2334H3628N602O711S18, the relative molecular mass is 52,075.17 Da, and the theoretical isoelectric point is pI = 4.76. The result of the RrGT2 protein 3D model construction showed that it had the highest homology with the UDP-glycosyltransferase 74F2 protein model in the database (39.53%). Sequence alignments with the NCBI database showed that the RrGT2 protein is a member of the GTB superfamily. Homology analysis revealed that the coding regions of RrGT2 was highly specific among different species, but still had typical conserved amino acid residues called PSPG that are crucial for RrGT2 enzyme activity. RrGT2 transcripts were detected in five flowering stages and seven tissues of R. rugosa ‘Zizhi’, R. rugosa ‘Fenzizhi’ and R. rugosa ‘Baizizhi’, and their expression patterns corresponded with the accumulation of antho-cyanins. Therefore, we speculated that glycosylation of RrGT2 plays a crucial role in anthocyanin biosynthesis in R. rugosa.展开更多
The species and contents of anthocyanins in plant petals can make plants appear pink, red, violet and blue, etc., and play a major role in the coloration of plants. In this study, the species and contents of anthocyan...The species and contents of anthocyanins in plant petals can make plants appear pink, red, violet and blue, etc., and play a major role in the coloration of plants. In this study, the species and contents of anthocyanins in the petals of three R. rugosa hybrid cultivars, R. rugosa “Zizhi”, R. rugosa “Fenzizhi” and R. rugosa “Baizizhi”, were analyzed, and the direct cause of the differences in flower color of three R. rugosa hybrid cultivars was inferred. This paper provides a reference for the coloration mechanism and flower color breeding of R. rugosa. The specific methods are as follows: the petals of five flowering stages of three R. rugosa hybrid cultivars were used as materials, and the types and contents of anthocyanins contained in them were qualitatively and quantitatively analyzed by high performance liquid chromatography (HPLC). The same six kinds of anthocyanins were identified in R. rugosa “Zizhi” and R. rugosa “Fenzizhi”, mainly based on the diglycoside of paeoniflorin and cyanidin. The relative contents of the two anthocyanins were higher at budding stage and initial opening stage. In the different flowering stages of R. rugosa “Zizhi”, the content of Pn3G5G was up to 4280.84 ± 20.82 μg·g-1, and the content of Cy3G5G was up to 789.41 ± 1.21 μg·g-1. In R. rugosa “Fenzizhi”, the highest content of Pn3G5G reached 1293.50 ± 17.64 μg·g-1, and the content of Cy3G5G was up to 358.86 ± 3.94 μg·g-1. It could be speculated that the difference in the contents of Pn3G5G and Cy3G5G was the main reason for the difference in coloration between the petals of R. rugosa “Zizhi” and R. rugosa “Fenzizhi”. A total of five species of anthocyanins were identified in R. rugosa “Baizizhi” and their contents were relatively low. Compared with R. rugosa “Zizhi” and R. rugosa “Fenzizhi”, the presence of Cy3G was not detected. Therefore, we speculated that the two reasons above might be responsible for the visual white flowers of R. rugosa “Baizizhi”.展开更多
R2R3-MYB transcription factor plays an important role in plant anthocyanin synthesis. Based on the transcriptional database of Rosa rugosa, one MYB transcription factor related to floral color, RrMYB6, was cloned. By ...R2R3-MYB transcription factor plays an important role in plant anthocyanin synthesis. Based on the transcriptional database of Rosa rugosa, one MYB transcription factor related to floral color, RrMYB6, was cloned. By using bioinformatics analysis method, cloning MYB gene and analyzing its function in anthocyanin biosynthesis regulation, we hope to lay a solid foundation for new color variety breeding of R. rugosa. Using the R. rugosa “Zi zhi” as the material, we obtained the total length of cDNA of RrMYB6 by RT-PCR and RACE. By analyzing its bioinformatics, we found that the formula of the protein was C1491H2368N452O470S17, molecular weight was 34690.97 Da, the theoretical pI was 8.74. In addition, it belonged to unstable protein with an unstable index at 50.59, and it was also a hydrophilic protein with the total average hydrophobic index at -0.847. In the secondary structure of RrMYB6 protein, the Alpha helix accounted for 32.35%, random coil was 47.39%, extended strand was 11.11%, and beta turn was 9.15%. The sequence analysis showed that RrMYB6 had a typical R2R3-MYB domain and bHLH binding domain, and it also had an N1, C1, C2 inhibitory motif, belonging to the Sg4 subfamily MYB protein. What’s more, evolutionary analysis indicated that the RrMYB6 protein was closely related with the MYB protein in Rosacea family, while it was far from those in other families. The expression analysis showed that RrMYB6 protein decreased with the color of petals deeping, and its expression was the lowest in the petals while the highest in stamens. According to the above results, it was speculated that RrMYB6 was involved in regulating the anthocyanin synthesis of R. rugosa, which belonged to negative regulatory mechanism.展开更多
In order to reveal which role the callose played in R. rugosa pollination incompatibility, the full-length cDNA sequence of β-1,3-glucanase gene was cloned for the first time from the stylus of Rosa rugosa “Tanghong...In order to reveal which role the callose played in R. rugosa pollination incompatibility, the full-length cDNA sequence of β-1,3-glucanase gene was cloned for the first time from the stylus of Rosa rugosa “Tanghong” with RT-PCR and RACE methods and named as RrGlu. The full-length cDNA is 1380 bp with an open reading frame of 1041 bp, encoding 346 amino acids. The derived protein has a molecular weight of 37.85 kD, a calculated pI of 9.12, a pfam00332 conserved domain at position 36 - 345, and belongs to glycosyl hydrolase family 17. The derived protein is a hydrophilic protein secreted into the vacuole. There is a signal peptide cleavage site at position 34 - 35, a transmembrane domain at position 13 - 32, six Ser phosphorylation sites, three Thr phosphorylation sites, three Tyr phosphorylation sites, one N-glycosylation site, and five O-glycosylation sites. There are 31.50% α-helixes, 30.92% random coil, 25.14% extended peptide chain, and 12.43% β-corner structure. This protein and the Glu protein from eight other species, including Prunus persica, share a sequence homology of greater than 72%;all of the proteins contain a pfam00332 conserved domain and a β-1,3-glucanase active center sequence (LIVM)-X-(LIVMFYW)3-(STAG)-E-(ST)-G-W-P-(ST)-X-G. Furthermore, their phylogenetic relationships are consistent with their traditional classifications. These results were meaningful to reveal the molecular mechanism of R. rugosa pollination incompatibility and improve the theory and techniques of breeding ornamental R. rugosa.展开更多
Rosa rugosa is an important garden ornamental plant which belongs to the genus Rosa of the family Rosaceae. The current wild and cultivated R. rugosa are mostly purple, pink, a small amount of white, but lack of yello...Rosa rugosa is an important garden ornamental plant which belongs to the genus Rosa of the family Rosaceae. The current wild and cultivated R. rugosa are mostly purple, pink, a small amount of white, but lack of yellow, orange and so on. Flavonoids 3’-hydroxylase belongs to CYP75B subfamily of cytochrome P450, and is an essential enzyme in anthocyanins synthesis. In this experiment, RrF3’H gene was cloned from the petal of Rosa rugosa ‘Hunchun’ using RT-PCR, and bioinformatics analysis was performed. The RrF3’H gene’s full length of opening reading frame was 1687 bp, encoding 510 amino acids. The formulas of proteins encoded by RrF3’H were C2666H4149N699O734S24. The derived protein had a molecular weight of 58,506.95 Da. The aliphatic index was 90.94. It belongs to unstable hydrophilic protein. The protein consists of 46.76% α-helix, 31.04% random coil, 7.66% β-corner and 14.54% extended strand. The protein contains 21 Ser phosphorylation sites, 12 Thr phosphorylation sites, and 2 Tyr phosphorylation sites. The protein contained two O-glycosylation sites, located at positions 98 and 263 of the amino acid sequence respectively. The protein has a signal peptide site and a transmembrane structure. In addition, by comparing the expression levels of RrF3’H, we found RrF3’H was positively correlated with the depth of flower color.展开更多
The TTG1 transcription factor plays an important role in the formation of plant trichomes. Based on the R. rugosa transcriptome data, this study cloned a R. rugosa TTG1 gene, named RrTTG1, and carried out bioinformati...The TTG1 transcription factor plays an important role in the formation of plant trichomes. Based on the R. rugosa transcriptome data, this study cloned a R. rugosa TTG1 gene, named RrTTG1, and carried out bioinformatics analysis and fluorescence quantitative analysis to explore the relationship between TTG1 gene and R. rugosa trichomes formation, in order to lay a good foundation to cultivate a thornless plant in the family Rosaceae. In this experiment, six hybrid cultivars of R. rugosa “Zizhi”, R. rugosa “Xizi”, R. rugosa “Tang fen”, R. rugosa “Hun chun”, R. rugosa “Zi long wo chi” and R. rugosa “Tian e huang” were used as experimental materials, and the cDNA full length of this gene was obtained by RT-PCR and RACE, and the full length of the cDNA was 1348 bp. After bioinformatics analysis, it is predicted that its molecular formula is C1723H2661N465O529S12, the molecular weight is 38.71 KB, and the isoelectric point is 5.00. Its instability index is 54.30, which belongs to unstable protein;and its hydrophilic amino acid distribution is relatively uniform, and the amount is larger than hydrophobic amino acid, which belongs to hydrophilic protein. Phylogenetic tree was constructed for the TTG1 gene. Evolutionary analysis indicated that RrTTG1 is closely related to the TTG1 protein of Rosaceae family, and has a close relationship with other families. The expression analysis showed that the expression of RrTTG1 protein was negatively correlated with the trichome content of R. rugosa stems and leaves. The expression levels of the three spiny varieties of R. rugosa “Hun chun”, R. rugosa “Xizi” and R. rugosa “Zi long wo chi” were lower, and the expressions of the three less thorn varieties of R. rugosa “Zizhi”, R. rugosa “Tian e huang” and R. rugosa “Tang fen” were higher. According to the above results, it was speculated that RrTTG1 is involved in the synthesis of R. rugosa trichomes and belongs to the negative regulation mechanism.展开更多
Based on the transcriptome of Rosa rugosa, one anthocyanin-promoting R2R3-MYB gene, RrMYB10.1 (Accession Nos:MH717244), was cloned from the petals of Rosa rugosa ‘Zizhi’. Sequence analysis results showed that RrMYB1...Based on the transcriptome of Rosa rugosa, one anthocyanin-promoting R2R3-MYB gene, RrMYB10.1 (Accession Nos:MH717244), was cloned from the petals of Rosa rugosa ‘Zizhi’. Sequence analysis results showed that RrMYB10.1 had a full length opening reading frame of 747bp, encoding 249 amino acids. Sequence analysis revealed that RrMYB10.1 contained the conserved R2R3-MYB domain, two atypical anthocyanin-promoting motifs and a conserved amino acid signature for the interaction with bHLH protein. The results of phylogenic tree revealed that RrMYB10.1 showed high homology with other anthocyanin-promoting proteins in Rosacea, and sharing the highest identity (98.39%) with RhMYB10. RT-PCR results showed that RrMYB10.1 was mainly expressed in petals among various tissues and expressed significantly higher in petals in bud stage than in opening period. To sum up, these results showed that RrMYN10.1 may play a key role in regulating anthocyanin concentration, thus providing a certain foundation on regulating flower color formation in Rosa rugosa.展开更多
基金supported by Young and Middle Aged Teachers’Career Development Support Project of Shenyang Pharmaceutical University(ZQN2019005).
文摘Coronary atherosclerotic heart disease(CHD)is the main type of cardiovascular disease.The efficacy of Uyghur drug compound Saffron formula in CHD has been clinically proven.However,the underlying mechanism remains unclear.In this study,researchers investigated the active ingredients and mechanism of action of Crocus sativus and Rosa rugosa in the treatment of CHD by network pharmacology and molecular docking techniques,collected target information with the help of TCMSP,GEO,GeneCards,and other databases,constructed protein-protein interaction(PPI)network diagrams by STRING database,performed GO and KEGG pathway enrichment analysis on common targets,and finally molecularly docked the active ingredients with core targets.C.sativus-R.rugosa have a variety of polyphenol compounds,a total of 12 active ingredients,including quercetin and kaempferol,were screened.The first three targets intersected with the core targets of CHD as AKT1,TNF,and IL-1B.Enrichment results of KEGG pathway showed that C.sativus-R.rugosa against CHD involved atherosclerosis pathways.The molecular docking results showed that quercetin and kaempferol were well bound to the core targets,and it was speculated that these components might be the main active ingredients for the treatment of CHD.The potential mechanism of action of C.sativus-R.rugosa for the treatment of coronary heart disease was initially revealed.
基金financially supported by the National Key Research and Development Program of China (2021YFC2102801)National Natural Science Foundation of China (21878221)+1 种基金the Foundation for Innovative Research Groups of the National Natural Science Foundation of China (21621004)the Haihe Laboratory of Sustainable Chemical Transformations for financial support.
文摘We described a novel polymer-lipase conjugate for high-efficient esterification of vitamin E using vitamin E and succinic anhydride as the substrates in nonaqueous media.In this work,the monomer,N-isopropylacrylamide(NIPAM),was grafted onto Candida rugosa lipase(CRL)to synthesize poly(NIPAM)(pNIPAM)-CRL conjugate by atom transfer radical polymerization via the initiator coupled on the surface of CRL.The result showed that the catalytic efficiencies of pNIPAM-CRL conjugates(19.5-30.3 L·s^(-1)·mmol^(-1))were at least 7 times higher than that of free CRL(2.36 L·s^(-1)·mmol^(-1))in DMSO.It was attributed to a significant increase in Kcat of the conjugates in nonaqueous media.The synthesis catalyzed by pNIPAM-CRL co njugates was influenced by the length and density of the grafted polymer,water content,solvent polarity and molar ratio of the substrates.In the optimal synthesis,the reaction time was shortened at least 7 times,and yields of vitamin E succinate by pNIPAM-g-CRL and free CRL were obtained to be 75.4%and 6.6%at 55℃after the reaction for 1.5 h.The result argued that conjugation with pNIPAM induced conformational change of the lid on CRL based on hydrophobic interaction,thus providing a higher possibility of catalysis-favorable conformation on CRL in nonaqueous media.Moreover,pNIPAM conjugation improved the thermal stability of CRL greatly,and the stability improved further with an increase of chain length of pNIPAM.At the optimal reaction conditions(55℃and 1.5 h),pNIPAM-g-CRL also exhibited good reusability in the enzymatic synthesis of vitamin E succinate and kept~70%of its catalytic activity after ten consecutive cycles.The research demonstrated that pNIPAM-g-CRL was a more competitive biocatalyst in the enzymatic synthesis of vitamin E succinate and exhibited good application potential under harsh industrial conditions.
文摘We studied some factors affecting the lipase production from candida rugosa, they mainly included medium compositions and culture condition.The result showed that the optimal medium compositions for lipase production are 0.1% glucose 4.0% olive oil (carbon source),0.3% NH 4NO 3(nitrogen source),1.2%K 2HPO 4 and 0.4%MgSO 4·7H 2O.And the optimal culture condition is initial pH6.5,temperature 30℃,agitation 180r/min and time 60h. As a result, and the lipase activity could reach 19.5u/mL.Meanwhile we found that the surfactant could be helpful to the lipase production, and the optimal surfactant concentration was 0.03% GPE.The lipase activity was improved by more than 170% after we optimized the medium compositions and culture condition.While in a 5L fermentator, the lipase activity of fermentation broth could reach 33.5u/mL within 48 hours.
基金supported by the Science Foundation of Heilongjiang Province of China(No.QC2014C012)the Fundamental Research Funds for the Central Universities(NO.2572016CA11)
文摘Different concentrations of jasmonic acid(JA)and benzothiadiazole(BTH) were sprayed on 2-year-old Rosa rugosa‘Plena’ seedlings. The induced resistance of JA and BTH to Sphaerotheca pannosa(Wallr.) and the changes of their related physiological indices were investigated. Results showed that JA and BTH treatments had inhibitory impacts on S. pannosa infection. The optimal concentration of JA and BTH was 0.5 mmol/L for the disease-resistance induction of the leaves, its inductive effect was up to 66.36% for BTH and 54.49% for JA. Our results confirmed that exogenous JA and BTH significantly improved R. rugose ‘Plena’ resistance to S. pannosa. When treated with JA and BTH, activities of the three defense enzymes(POD, PPO, and PAL) increased significantly.Contents of total phenolics, flavonoids, and lignin also increased significantly. It is inferred from these results that exogenous JA and BTH could improve the resistance of R.rugose ‘Plena’ to S. pannosa through enhancing activities of the defensive enzymes and accumulation of secondary metabolites in the leaves.
基金Supported by the National Natural Science Foundation of China(No.29876031)
文摘The stability of Candida rugosa lipase coated with glutamic acid didodecyl ester ribitol amide was investigated taking esterification of lauryl alcohol and lauric acid in isooctane as a model reaction.At 30℃,the half-life of the activity of the coated lipase was ca 10h,the enzyme activity became less changed after 12h and the residual activity was 39% of the initial value ,The coated lipase obeyed a first-order deactivation model with a deactivation energy of 29.9 J.mol^-1.
基金financially by the National Natural Science Foundation of China(No.31800546)the National Key R&D Program of China(No.2018YFC1200400)the Fundamental Research Funds for the Central Universities(No.2572016CA11)。
文摘To study the effect of jasmonates(JAs)on the resistance of economic forest plants to insects,R osa rugosa‘Plena'leaves were treated with 1 mmol/L jasmonic acid(JA),methyl jasmonate(MeJA)and Z-jasmone,then the content of tannin and total phenol in leaves and the feeding area of Monolepta hieroglyphica adults on leaves were measured.Changes in the activities of detoxification enzymes in adult M.hieroglyphica that had fed on leaves treated with JAs were also studied.Tannin and total phenol levels in leaves increased significantly after treatment with JAs,and tannin level was 1.36–1.55-fold higher than in the control after treatment with 1 mmol/L MeJA.The total content of phenol in leaves treated with 1.0 mmol/L Z-jasmone increased by 1.33–2.20-fold compared with those of the control.The activities of detoxification enzymes in adults were inhibited to differing degrees:activity of alkaline phosphatase(AKP)first increased,then decreased;the activities of acid phosphatase(ACP),glutathione S-transferases(GSTs)and carboxylesterase(CarE)following treatment with 1 mmol/L MeJA were significantly reduced and were 22%–31%,11%–26%,and 11%–31%lower than those of the control,respectively.Moreover,the feeding area of adult M.hieroglyphica on the leaves treated with JAs was significantly reduced(P<0.05).The feeding area of economic forest R.rugosa‘Plena'leaves treated with 1 mmol/L MeJA decreased by 17%–43%compared with that of the control.Moreover,the decrease in the adult M.hieroglyphica feeding area was highly positively correlated with the content of tannin and positively correlated with the contents of total phenol of economic forest R.rugosa‘Plena'leaves.The reduced feeding area of adult M.hieroglyphica was highly negatively correlated with the activities of AKP and ACP and negatively correlated with those of the GSTs.In conclusion,the use of 1 mmol/L MeJA can noticeably decrease the deleterious effects of adult M.hieroglyphica.
文摘At present, the research about flower color of Rosa rugosa is a very inno-vative and practical study. Glycosylation modification fulfills an important role in increasing the stability and solubility of anthocyanin in plants. In this study, based on the transcriptional database of R. rugosa, a gene with full length cDNA of 1422bp, encoding 473 amino acids, designated as RrGT2, were isolated from flowers of R. rugosa ‘Zizhi’ and then functionally characterized. According to online software prediction, the molecular formula of the protein encoded by the RrGT2 gene is C2334H3628N602O711S18, the relative molecular mass is 52,075.17 Da, and the theoretical isoelectric point is pI = 4.76. The result of the RrGT2 protein 3D model construction showed that it had the highest homology with the UDP-glycosyltransferase 74F2 protein model in the database (39.53%). Sequence alignments with the NCBI database showed that the RrGT2 protein is a member of the GTB superfamily. Homology analysis revealed that the coding regions of RrGT2 was highly specific among different species, but still had typical conserved amino acid residues called PSPG that are crucial for RrGT2 enzyme activity. RrGT2 transcripts were detected in five flowering stages and seven tissues of R. rugosa ‘Zizhi’, R. rugosa ‘Fenzizhi’ and R. rugosa ‘Baizizhi’, and their expression patterns corresponded with the accumulation of antho-cyanins. Therefore, we speculated that glycosylation of RrGT2 plays a crucial role in anthocyanin biosynthesis in R. rugosa.
文摘The species and contents of anthocyanins in plant petals can make plants appear pink, red, violet and blue, etc., and play a major role in the coloration of plants. In this study, the species and contents of anthocyanins in the petals of three R. rugosa hybrid cultivars, R. rugosa “Zizhi”, R. rugosa “Fenzizhi” and R. rugosa “Baizizhi”, were analyzed, and the direct cause of the differences in flower color of three R. rugosa hybrid cultivars was inferred. This paper provides a reference for the coloration mechanism and flower color breeding of R. rugosa. The specific methods are as follows: the petals of five flowering stages of three R. rugosa hybrid cultivars were used as materials, and the types and contents of anthocyanins contained in them were qualitatively and quantitatively analyzed by high performance liquid chromatography (HPLC). The same six kinds of anthocyanins were identified in R. rugosa “Zizhi” and R. rugosa “Fenzizhi”, mainly based on the diglycoside of paeoniflorin and cyanidin. The relative contents of the two anthocyanins were higher at budding stage and initial opening stage. In the different flowering stages of R. rugosa “Zizhi”, the content of Pn3G5G was up to 4280.84 ± 20.82 μg·g-1, and the content of Cy3G5G was up to 789.41 ± 1.21 μg·g-1. In R. rugosa “Fenzizhi”, the highest content of Pn3G5G reached 1293.50 ± 17.64 μg·g-1, and the content of Cy3G5G was up to 358.86 ± 3.94 μg·g-1. It could be speculated that the difference in the contents of Pn3G5G and Cy3G5G was the main reason for the difference in coloration between the petals of R. rugosa “Zizhi” and R. rugosa “Fenzizhi”. A total of five species of anthocyanins were identified in R. rugosa “Baizizhi” and their contents were relatively low. Compared with R. rugosa “Zizhi” and R. rugosa “Fenzizhi”, the presence of Cy3G was not detected. Therefore, we speculated that the two reasons above might be responsible for the visual white flowers of R. rugosa “Baizizhi”.
文摘R2R3-MYB transcription factor plays an important role in plant anthocyanin synthesis. Based on the transcriptional database of Rosa rugosa, one MYB transcription factor related to floral color, RrMYB6, was cloned. By using bioinformatics analysis method, cloning MYB gene and analyzing its function in anthocyanin biosynthesis regulation, we hope to lay a solid foundation for new color variety breeding of R. rugosa. Using the R. rugosa “Zi zhi” as the material, we obtained the total length of cDNA of RrMYB6 by RT-PCR and RACE. By analyzing its bioinformatics, we found that the formula of the protein was C1491H2368N452O470S17, molecular weight was 34690.97 Da, the theoretical pI was 8.74. In addition, it belonged to unstable protein with an unstable index at 50.59, and it was also a hydrophilic protein with the total average hydrophobic index at -0.847. In the secondary structure of RrMYB6 protein, the Alpha helix accounted for 32.35%, random coil was 47.39%, extended strand was 11.11%, and beta turn was 9.15%. The sequence analysis showed that RrMYB6 had a typical R2R3-MYB domain and bHLH binding domain, and it also had an N1, C1, C2 inhibitory motif, belonging to the Sg4 subfamily MYB protein. What’s more, evolutionary analysis indicated that the RrMYB6 protein was closely related with the MYB protein in Rosacea family, while it was far from those in other families. The expression analysis showed that RrMYB6 protein decreased with the color of petals deeping, and its expression was the lowest in the petals while the highest in stamens. According to the above results, it was speculated that RrMYB6 was involved in regulating the anthocyanin synthesis of R. rugosa, which belonged to negative regulatory mechanism.
文摘In order to reveal which role the callose played in R. rugosa pollination incompatibility, the full-length cDNA sequence of β-1,3-glucanase gene was cloned for the first time from the stylus of Rosa rugosa “Tanghong” with RT-PCR and RACE methods and named as RrGlu. The full-length cDNA is 1380 bp with an open reading frame of 1041 bp, encoding 346 amino acids. The derived protein has a molecular weight of 37.85 kD, a calculated pI of 9.12, a pfam00332 conserved domain at position 36 - 345, and belongs to glycosyl hydrolase family 17. The derived protein is a hydrophilic protein secreted into the vacuole. There is a signal peptide cleavage site at position 34 - 35, a transmembrane domain at position 13 - 32, six Ser phosphorylation sites, three Thr phosphorylation sites, three Tyr phosphorylation sites, one N-glycosylation site, and five O-glycosylation sites. There are 31.50% α-helixes, 30.92% random coil, 25.14% extended peptide chain, and 12.43% β-corner structure. This protein and the Glu protein from eight other species, including Prunus persica, share a sequence homology of greater than 72%;all of the proteins contain a pfam00332 conserved domain and a β-1,3-glucanase active center sequence (LIVM)-X-(LIVMFYW)3-(STAG)-E-(ST)-G-W-P-(ST)-X-G. Furthermore, their phylogenetic relationships are consistent with their traditional classifications. These results were meaningful to reveal the molecular mechanism of R. rugosa pollination incompatibility and improve the theory and techniques of breeding ornamental R. rugosa.
文摘Rosa rugosa is an important garden ornamental plant which belongs to the genus Rosa of the family Rosaceae. The current wild and cultivated R. rugosa are mostly purple, pink, a small amount of white, but lack of yellow, orange and so on. Flavonoids 3’-hydroxylase belongs to CYP75B subfamily of cytochrome P450, and is an essential enzyme in anthocyanins synthesis. In this experiment, RrF3’H gene was cloned from the petal of Rosa rugosa ‘Hunchun’ using RT-PCR, and bioinformatics analysis was performed. The RrF3’H gene’s full length of opening reading frame was 1687 bp, encoding 510 amino acids. The formulas of proteins encoded by RrF3’H were C2666H4149N699O734S24. The derived protein had a molecular weight of 58,506.95 Da. The aliphatic index was 90.94. It belongs to unstable hydrophilic protein. The protein consists of 46.76% α-helix, 31.04% random coil, 7.66% β-corner and 14.54% extended strand. The protein contains 21 Ser phosphorylation sites, 12 Thr phosphorylation sites, and 2 Tyr phosphorylation sites. The protein contained two O-glycosylation sites, located at positions 98 and 263 of the amino acid sequence respectively. The protein has a signal peptide site and a transmembrane structure. In addition, by comparing the expression levels of RrF3’H, we found RrF3’H was positively correlated with the depth of flower color.
文摘The TTG1 transcription factor plays an important role in the formation of plant trichomes. Based on the R. rugosa transcriptome data, this study cloned a R. rugosa TTG1 gene, named RrTTG1, and carried out bioinformatics analysis and fluorescence quantitative analysis to explore the relationship between TTG1 gene and R. rugosa trichomes formation, in order to lay a good foundation to cultivate a thornless plant in the family Rosaceae. In this experiment, six hybrid cultivars of R. rugosa “Zizhi”, R. rugosa “Xizi”, R. rugosa “Tang fen”, R. rugosa “Hun chun”, R. rugosa “Zi long wo chi” and R. rugosa “Tian e huang” were used as experimental materials, and the cDNA full length of this gene was obtained by RT-PCR and RACE, and the full length of the cDNA was 1348 bp. After bioinformatics analysis, it is predicted that its molecular formula is C1723H2661N465O529S12, the molecular weight is 38.71 KB, and the isoelectric point is 5.00. Its instability index is 54.30, which belongs to unstable protein;and its hydrophilic amino acid distribution is relatively uniform, and the amount is larger than hydrophobic amino acid, which belongs to hydrophilic protein. Phylogenetic tree was constructed for the TTG1 gene. Evolutionary analysis indicated that RrTTG1 is closely related to the TTG1 protein of Rosaceae family, and has a close relationship with other families. The expression analysis showed that the expression of RrTTG1 protein was negatively correlated with the trichome content of R. rugosa stems and leaves. The expression levels of the three spiny varieties of R. rugosa “Hun chun”, R. rugosa “Xizi” and R. rugosa “Zi long wo chi” were lower, and the expressions of the three less thorn varieties of R. rugosa “Zizhi”, R. rugosa “Tian e huang” and R. rugosa “Tang fen” were higher. According to the above results, it was speculated that RrTTG1 is involved in the synthesis of R. rugosa trichomes and belongs to the negative regulation mechanism.
文摘Based on the transcriptome of Rosa rugosa, one anthocyanin-promoting R2R3-MYB gene, RrMYB10.1 (Accession Nos:MH717244), was cloned from the petals of Rosa rugosa ‘Zizhi’. Sequence analysis results showed that RrMYB10.1 had a full length opening reading frame of 747bp, encoding 249 amino acids. Sequence analysis revealed that RrMYB10.1 contained the conserved R2R3-MYB domain, two atypical anthocyanin-promoting motifs and a conserved amino acid signature for the interaction with bHLH protein. The results of phylogenic tree revealed that RrMYB10.1 showed high homology with other anthocyanin-promoting proteins in Rosacea, and sharing the highest identity (98.39%) with RhMYB10. RT-PCR results showed that RrMYB10.1 was mainly expressed in petals among various tissues and expressed significantly higher in petals in bud stage than in opening period. To sum up, these results showed that RrMYN10.1 may play a key role in regulating anthocyanin concentration, thus providing a certain foundation on regulating flower color formation in Rosa rugosa.