Sugar beet leaves are the major crop waste from sugar beet production, while the unused leaves contain a high number of sugars and polysaccharides. The effects of different enzyme products (cellulase, Cellic CTec2;xyl...Sugar beet leaves are the major crop waste from sugar beet production, while the unused leaves contain a high number of sugars and polysaccharides. The effects of different enzyme products (cellulase, Cellic CTec2;xylanase, Cellic HTec2;and pectinase, Pectinex Ultra SPL) were determined during high-solids enzymatic hydrolysis of sugar beet leaves at 10% total solids (TS) content. Response surface methodology was used to study the effects of enzyme loadings during the hydrolysis of sugar beet leaves for producing fermentable sugars. It was found that both cellulases and pectinases are important enzymes for the hydrolysis of sugar beet leaves. Enzyme loading and reaction time were important factors. Based on the amount of sugars released, a maximum sugar conversion of 82% was achieved after 72 h of hydrolysis using 30 filter paper unit (FPU) g-1 glucan for cellulase and 150 polygalacturonase unit (PGU) g-1 polygalacturonic acid for pectinase, or 37 FPU g-1 glucan for cellulase and 100 PGU g-1 polygalacturonic acid for pectinase. The corresponding sugar yield and sugar concentration were 0.35 g·g-1 TS, and 35 g·l-1, respectively. Sugar conversion ranged from 59% - 70%, 68% - 80%, and 74% - 82% after 24 h, 48 h, and 72 h of hydrolysis depending on the design conditions.展开更多
[Objective] This study aimed to investigate the hypoglycemic effect of Forsythia suspensa leaves in diabetic mice. [Method] The model of hyperglycemia mice were obtained by injecting streptozotocin intraperitoneally t...[Objective] This study aimed to investigate the hypoglycemic effect of Forsythia suspensa leaves in diabetic mice. [Method] The model of hyperglycemia mice were obtained by injecting streptozotocin intraperitoneally to study the effect of F. suspensa leaves on lowering blood sugar of hyperglycemia mice and normal ani- mals. [Result] F. suspensa leaves could antagonize the streptozotocin-reducing mice hyperglycemia and significantly reduce the fasting blood glucose level of diabetic mice. [Coaclusion] F. suspensa leaves exhibits a good therapeutic effect on diabetic mice and has a good development prospect.展开更多
Objective:Aim of present study is to scientifically,verify the antidiabetic activity/potency of Vernonia amygdalina in human diabetes.Methods:A search was made at Nnewi,South - East Nigeria for known diabetes who use ...Objective:Aim of present study is to scientifically,verify the antidiabetic activity/potency of Vernonia amygdalina in human diabetes.Methods:A search was made at Nnewi,South - East Nigeria for known diabetes who use Vernonia amygdalina either as their sole or supplementary antidiabetic.A total of ten volunteers comprising, eight females and two males were recruited.They were all of age range of 36-50 and average weight of 78 kg and suffering from non - insulin form of diabetes.The purpose of the study was explained to them and their consent obtained.They were asked not to take any other antidiabetic outside Vernonia amygdalina throughout the four weeks study period.There was however,no form of restrictions to their choice of diet or life style. They were requested to abstain from any drugs a week prior to commencement of study.Their prescriber’s dosage range was followed and minimum daily dose of 210 mL(approximately 220 mg of dry extract) was administered in Week-1,followed by daily dose of 420 mL(440 mg) in Week-2.In Week-3 they received 630 mL (660 mg) daily dose and in Week-4,they received daily dose of 840 mL(880 mg).Their fasting blood sugar were estimated pre-crude drug administration and on weekly basis for the four week study period.Their weekly weights were measured to check for possible weight gain or loss.Results were subjected to statistical analysis and Students T-Test was used to calculate P-value.P-value≤0.05 were considered significant.Results:It was observed that all the volunteers in the study group were taking Vernonia amygdalina only as supplementary. Two volunteers dropped out of the study at the end of Week-3 leaving us with 8 in Week-4.There was no significant bodyweight change within the four week study.The starting mean fasting blood sugar which was 133.3 mg/dL(7.41 mmol/L) rose to 136.6 mg/dL(7.59 mmol/L) in Week-1,to 149.5 mg/dL(8.31 mmol/L) in Week-2 and to 166.5 mg/dL(9.30 mmol/L) in Week-3.Week-4 had us left with 8 volunteers with a mean of 190.6 mg/dL(10.59 mmol/L).There was significant differences in increase in sugar levels between the pre-crade extract administration and treatment period with Vernonia amygdalina(P≤0.05 for Week-1,Ps?0.02 for Week-2,P^0.01 for Week-3 and PssO.001 for Week-4).Conclusion:Claims of antidiabetic efficacy of Vernonia amygdalina in human diabetes are scientifically non verifiable based on our work hence these claims are false.We also feel bold to state that we could not demonstrate any antidiabetic activity of Vernonia amygdalina in human subjects.We recommend that NAFDAC and all relevant agencies must sit up and control all forms advertorial on Medicinal plants until such are well studied and proven.展开更多
There was an outpouring of grief across China on October 30 when fans of legendary wuxia (master of martial arts) novelist Jin Yong heard of his passing at age 94.
Nongken 58s is a type of photoperiod sensitivegenie male sterile rice which gives rice to malesterility when illuminated time is longer than13.75 h/d.The photoperiod sensitive stagesare from the differentiation of pri...Nongken 58s is a type of photoperiod sensitivegenie male sterile rice which gives rice to malesterility when illuminated time is longer than13.75 h/d.The photoperiod sensitive stagesare from the differentiation of primary branchprimordum(Ⅱ)in young ears to fullness ofcontents of the pollen(Ⅶ).The changes ofactivity and isoenzymes in cation peroxidase atph0toperiod sensitive stages and the relation-ship between this enzyme and feritility of rice展开更多
Effect of chlorimuron-ethyl on biochemical mechanism in tolerant sugar beet was investigated to provide basic data on using the tolerant genotype properly. Tolerant sugar beet was used to analyze its biochemical mecha...Effect of chlorimuron-ethyl on biochemical mechanism in tolerant sugar beet was investigated to provide basic data on using the tolerant genotype properly. Tolerant sugar beet was used to analyze its biochemical mechanism under chlorimuron- ethyl stress with frame culture in field and water culture. Glutathione S-transferase (GST) activity of leaves in tolerant sugar beet was remarkably increased as chlorimuron-ethyl was preemergence applicated at 0.5 and 1.5 g a.i. hw1, at the same time glutathione (GSH) content increased 50.0-490.1 p.g g-~. GST activity of sensitive sugar beet decreased 122.6 U mg-~ min-1 compared with tolerant sugar beet and GSH content only increased to 7.4 p.g g-~ at chlorimuron-ethyl 0.5 g a.i. ha-~ in sensitive sugar beet. The higher GST activity and GSH content conjugated chlorimuron-ethyl absorbed in tolerant sugar beet and made it lost activity. Acetolactate synthases (ALS) activity of the tolerant sugar beet increased to 62.5 and 70.6%, respectively in seedling and leaf growth period, at the same time ALS activity of the sensitive variety was decreased to 36.8 and 64.8%, respectively. The rapidly increased GST activity, GSH content, and ALS, the target enzyme activity were the important pathways for enduring chlorimuron-ethyl in tolerant sugar beet.展开更多
cDNA libraries were constructed from the leaves of a rice (Oryza sativa L.) salt tolerancevariety Tesan抋i 2 growing in solutions with 150 mmol/L NaCl for 3 h or without salt stress. Three salt-responsive cDNA clones,...cDNA libraries were constructed from the leaves of a rice (Oryza sativa L.) salt tolerancevariety Tesan抋i 2 growing in solutions with 150 mmol/L NaCl for 3 h or without salt stress. Three salt-responsive cDNA clones, Ts1, Ts2 and Ts3 were isolated by differential screening. Northern blottinganalysis showed that the transcription levels of Ts1 and Ts2 increased within 3 h salt stress and kept onincreasing within 24 h, while the transcription level of Ts3 reached its peak within 3 h. Sequence analysisindicated that there were no homologies between the three cDNA clones and any known gene. The threecDNA clones were mapped using a doubled haploid (DH) population derived from an indica variety ZYQ8,which was a salt tolerance parent of Tesan抋i 2, with a japonica variety JX17. Ts1, Ts2 and Ts3 werelocated on chromosomes 1, 3 and 7, respectively. It was noted that Ts1, Ts2, and Ts3 were in or near theregions of major or minor salt tolerance quantitative trait loci (QTLs), which were mapped in the same DHpopulation in a parallel study.展开更多
文摘Sugar beet leaves are the major crop waste from sugar beet production, while the unused leaves contain a high number of sugars and polysaccharides. The effects of different enzyme products (cellulase, Cellic CTec2;xylanase, Cellic HTec2;and pectinase, Pectinex Ultra SPL) were determined during high-solids enzymatic hydrolysis of sugar beet leaves at 10% total solids (TS) content. Response surface methodology was used to study the effects of enzyme loadings during the hydrolysis of sugar beet leaves for producing fermentable sugars. It was found that both cellulases and pectinases are important enzymes for the hydrolysis of sugar beet leaves. Enzyme loading and reaction time were important factors. Based on the amount of sugars released, a maximum sugar conversion of 82% was achieved after 72 h of hydrolysis using 30 filter paper unit (FPU) g-1 glucan for cellulase and 150 polygalacturonase unit (PGU) g-1 polygalacturonic acid for pectinase, or 37 FPU g-1 glucan for cellulase and 100 PGU g-1 polygalacturonic acid for pectinase. The corresponding sugar yield and sugar concentration were 0.35 g·g-1 TS, and 35 g·l-1, respectively. Sugar conversion ranged from 59% - 70%, 68% - 80%, and 74% - 82% after 24 h, 48 h, and 72 h of hydrolysis depending on the design conditions.
基金Supported by the National Natural Science Foundation of China (20175012)~~
文摘[Objective] This study aimed to investigate the hypoglycemic effect of Forsythia suspensa leaves in diabetic mice. [Method] The model of hyperglycemia mice were obtained by injecting streptozotocin intraperitoneally to study the effect of F. suspensa leaves on lowering blood sugar of hyperglycemia mice and normal ani- mals. [Result] F. suspensa leaves could antagonize the streptozotocin-reducing mice hyperglycemia and significantly reduce the fasting blood glucose level of diabetic mice. [Coaclusion] F. suspensa leaves exhibits a good therapeutic effect on diabetic mice and has a good development prospect.
文摘Objective:Aim of present study is to scientifically,verify the antidiabetic activity/potency of Vernonia amygdalina in human diabetes.Methods:A search was made at Nnewi,South - East Nigeria for known diabetes who use Vernonia amygdalina either as their sole or supplementary antidiabetic.A total of ten volunteers comprising, eight females and two males were recruited.They were all of age range of 36-50 and average weight of 78 kg and suffering from non - insulin form of diabetes.The purpose of the study was explained to them and their consent obtained.They were asked not to take any other antidiabetic outside Vernonia amygdalina throughout the four weeks study period.There was however,no form of restrictions to their choice of diet or life style. They were requested to abstain from any drugs a week prior to commencement of study.Their prescriber’s dosage range was followed and minimum daily dose of 210 mL(approximately 220 mg of dry extract) was administered in Week-1,followed by daily dose of 420 mL(440 mg) in Week-2.In Week-3 they received 630 mL (660 mg) daily dose and in Week-4,they received daily dose of 840 mL(880 mg).Their fasting blood sugar were estimated pre-crude drug administration and on weekly basis for the four week study period.Their weekly weights were measured to check for possible weight gain or loss.Results were subjected to statistical analysis and Students T-Test was used to calculate P-value.P-value≤0.05 were considered significant.Results:It was observed that all the volunteers in the study group were taking Vernonia amygdalina only as supplementary. Two volunteers dropped out of the study at the end of Week-3 leaving us with 8 in Week-4.There was no significant bodyweight change within the four week study.The starting mean fasting blood sugar which was 133.3 mg/dL(7.41 mmol/L) rose to 136.6 mg/dL(7.59 mmol/L) in Week-1,to 149.5 mg/dL(8.31 mmol/L) in Week-2 and to 166.5 mg/dL(9.30 mmol/L) in Week-3.Week-4 had us left with 8 volunteers with a mean of 190.6 mg/dL(10.59 mmol/L).There was significant differences in increase in sugar levels between the pre-crade extract administration and treatment period with Vernonia amygdalina(P≤0.05 for Week-1,Ps?0.02 for Week-2,P^0.01 for Week-3 and PssO.001 for Week-4).Conclusion:Claims of antidiabetic efficacy of Vernonia amygdalina in human diabetes are scientifically non verifiable based on our work hence these claims are false.We also feel bold to state that we could not demonstrate any antidiabetic activity of Vernonia amygdalina in human subjects.We recommend that NAFDAC and all relevant agencies must sit up and control all forms advertorial on Medicinal plants until such are well studied and proven.
文摘There was an outpouring of grief across China on October 30 when fans of legendary wuxia (master of martial arts) novelist Jin Yong heard of his passing at age 94.
文摘Nongken 58s is a type of photoperiod sensitivegenie male sterile rice which gives rice to malesterility when illuminated time is longer than13.75 h/d.The photoperiod sensitive stagesare from the differentiation of primary branchprimordum(Ⅱ)in young ears to fullness ofcontents of the pollen(Ⅶ).The changes ofactivity and isoenzymes in cation peroxidase atph0toperiod sensitive stages and the relation-ship between this enzyme and feritility of rice
基金funded by the Deaprtment of Education of Heilongjiang Province (11511039),China
文摘Effect of chlorimuron-ethyl on biochemical mechanism in tolerant sugar beet was investigated to provide basic data on using the tolerant genotype properly. Tolerant sugar beet was used to analyze its biochemical mechanism under chlorimuron- ethyl stress with frame culture in field and water culture. Glutathione S-transferase (GST) activity of leaves in tolerant sugar beet was remarkably increased as chlorimuron-ethyl was preemergence applicated at 0.5 and 1.5 g a.i. hw1, at the same time glutathione (GSH) content increased 50.0-490.1 p.g g-~. GST activity of sensitive sugar beet decreased 122.6 U mg-~ min-1 compared with tolerant sugar beet and GSH content only increased to 7.4 p.g g-~ at chlorimuron-ethyl 0.5 g a.i. ha-~ in sensitive sugar beet. The higher GST activity and GSH content conjugated chlorimuron-ethyl absorbed in tolerant sugar beet and made it lost activity. Acetolactate synthases (ALS) activity of the tolerant sugar beet increased to 62.5 and 70.6%, respectively in seedling and leaf growth period, at the same time ALS activity of the sensitive variety was decreased to 36.8 and 64.8%, respectively. The rapidly increased GST activity, GSH content, and ALS, the target enzyme activity were the important pathways for enduring chlorimuron-ethyl in tolerant sugar beet.
文摘cDNA libraries were constructed from the leaves of a rice (Oryza sativa L.) salt tolerancevariety Tesan抋i 2 growing in solutions with 150 mmol/L NaCl for 3 h or without salt stress. Three salt-responsive cDNA clones, Ts1, Ts2 and Ts3 were isolated by differential screening. Northern blottinganalysis showed that the transcription levels of Ts1 and Ts2 increased within 3 h salt stress and kept onincreasing within 24 h, while the transcription level of Ts3 reached its peak within 3 h. Sequence analysisindicated that there were no homologies between the three cDNA clones and any known gene. The threecDNA clones were mapped using a doubled haploid (DH) population derived from an indica variety ZYQ8,which was a salt tolerance parent of Tesan抋i 2, with a japonica variety JX17. Ts1, Ts2 and Ts3 werelocated on chromosomes 1, 3 and 7, respectively. It was noted that Ts1, Ts2, and Ts3 were in or near theregions of major or minor salt tolerance quantitative trait loci (QTLs), which were mapped in the same DHpopulation in a parallel study.
