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Abstract Flatulence and fullness of stomach is one of the most common problem associated with chickpea primary due to presence of some oligosaccharides and phenols. In this investigation Desi and Kabuli varieties were compared for these oligosaccharides and phenolic compounds. Furthermore, the effect of different processing and cooking methods such as soaking, cooking and germination in the reduction of these antiphysiological factors were are also studies. Maximum tannic acid (0.90 ± 0.20%) was observed in Parbat and C-44 while minimum (0.60 ± 0.04%) in Karak-2. Stachyose contents ranged between 1.10 ± 0.05 (Karak-3) to 1.42 ± 0.02% (Parbat) while raffinose was 0.63 ± 0.05(Karak-3) to 0.81 ± 0.02% (Dasht). The highest tannic acid content was reduced up to 50% in C-44 by cooking of 72 hours germinated seeds. Stachyose and raffinose contents were completely removed after 72 hours germination. Present studies revealed that cooking after germination is the most effective method to reduce the anti-nutritional factors of chickpea. Individually, soaking and cooking also contributed to the loss of the same factors but to a lesser extent.
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Raffinose series oligosaccharides are the transport and storage sugars of many plants, Rehmannia glutinosa is one of the commonly used Chinese herbal medicines, medicinal parts ist he roots. Root and tuber of R. glutinosa contains stachyose, raffinose and other oligosaccharides, but the study about the process of growth and development of other organs in the non-structural changes in sugar content is rare.In this study, leaves, stems and roots of R. glutinosa were used as materials to analyze the diurnal variation and the changes of sugar content of sucrose, raffinose and stachyose in different organs of R. glutinosa. The results showed that the content of sucrose in R. glutinosa leaves gradually increased from seedling stage.However, the content of stachyose did not change much at the early stage of growth, and the stachyose rapidly increased at the later stage of growth. The raffinose content gradually decreased throughout the growing season, young leaves of R. glutinosa have higher ability to sucrose synthesis than mature leaves, while mature leaf has higher raffinose and stachyose synthesis ability than young leaves. Sucrose and stachyose content in stem gradually increased, while there was little change in raffinose content. The content of raffinose and stachyose in root increased rapidly from the beginning of fast growing period, while the content of sucrose did not change much. The content of sucrose in leaves of R. glutinosa did not change much at day and night, while the daily changes of raffinose and stachyose contents were very obvious. The contents of raffinose and stachyose in daytime were higher than those at night. The content of raffinose in root and stem was not changed much, but the change of stachyose in root, stem and leaf was very obvious, especially in stem and leaf. In summary, the leaf is the main synthetic organ of raffinose, leaves, stems and roots are stachyose synthesis organ. Sucrose, raffinose and stachyose are the major transport forms of carbohydrates in R. glutinosa.
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Objective To investigate the potential of a novel preservation solution,raffinose-low potassium dextran lung preservation solution with blood (BR-LPDS) in the preservation of the isolated lungs in rats,when compared to low-potassium dextran solution (LPDS).Methods Fifty donor lungs of Sprague-Dawley rats were randomly flushed with either R-LPDS (R-LPDS group,n =25) or RLPDS modified by the addition of blood (BR-LPDS group,n =25).After reperfusion,the double lungs were kept half inflate and then the pulmonary artery and bronchus were clamped.Then the grafts were flushed with and submerged in cold preservation solution at 4 C for 24 h.And they were excised for measurement of wet-to-dry ratio,as well as histologic examination to evaluate pulmonary edema,inflammation and cleaved caspase-3 expression at 0,2,4,5,6,8,10,12,14,16,24 h.Results As compared with the R-LPDS group,the mean wet-to-dry ratio of lungs in the BR-LPDS group was significantly reduced from 4 to 10 h after reperfusion.Upon histologic examination,less inflammatory cell aggregates and lower caspase-3 activity were seen in the lungs of the BR-LPDS group from 10 to 12 h and 10 to 14 h after reperfusion,respectively.Conclusion The addition of blood to the R-LPDS solution was shown to be more effective in reducing swelling,inflammation and caspase-3 expression of donor lungs than the R-LPDS solution.Further investigation is needed to evaluate lung preservation in BR-LPD solution as a viable option for transplant.
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Objective To investigate the potential of a novel preservation solution,raffinose-low potassium dextran lung preservation solution with blood (BR-LPDS) in the preservation of the isolated lungs in rats,when compared to low-potassium dextran solution (LPDS).Methods Fifty donor lungs of Sprague-Dawley rats were randomly flushed with either R-LPDS (R-LPDS group,n =25) or RLPDS modified by the addition of blood (BR-LPDS group,n =25).After reperfusion,the double lungs were kept half inflate and then the pulmonary artery and bronchus were clamped.Then the grafts were flushed with and submerged in cold preservation solution at 4 C for 24 h.And they were excised for measurement of wet-to-dry ratio,as well as histologic examination to evaluate pulmonary edema,inflammation and cleaved caspase-3 expression at 0,2,4,5,6,8,10,12,14,16,24 h.Results As compared with the R-LPDS group,the mean wet-to-dry ratio of lungs in the BR-LPDS group was significantly reduced from 4 to 10 h after reperfusion.Upon histologic examination,less inflammatory cell aggregates and lower caspase-3 activity were seen in the lungs of the BR-LPDS group from 10 to 12 h and 10 to 14 h after reperfusion,respectively.Conclusion The addition of blood to the R-LPDS solution was shown to be more effective in reducing swelling,inflammation and caspase-3 expression of donor lungs than the R-LPDS solution.Further investigation is needed to evaluate lung preservation in BR-LPD solution as a viable option for transplant.
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Abstract Drought stress is the main limiting factor of soybean yield. Currently, genetic engineering has been one important tool in the development of drought-tolerant cultivars. A widely used strategy is the fusion of genes that confer tolerance under the control of the CaMV35S constitutive promoter; however, stress-responsive promoters would constitute the best alternative to the generation of drought-tolerant crops. We characterized the promoter of α-galactosidase soybean (GlymaGAL) gene that was previously identified as highly up-regulated by drought stress. The β-glucuronidase (GUS) activity of Arabidopsis transgenic plants bearing 1000- and 2000-bp fragments of the GlymaGAL promoter fused to the uidA gene was evaluated under air-dried, polyethylene glycol (PEG) and salt stress treatments. After 24 h of air-dried and PEG treatments, the pGAL-2kb led to an increase in GUS expression in leaf and root samples when compared to the control samples. These results were corroborated by qPCR expression analysis of the uidA gene. The pGAL-1kb showed no difference in GUS activity between control and treated samples. The pGAL-2kb promoter was evaluated in transgenic soybean roots, leading to an increase in EGFP expression under air-dried treatment. Our data indicates that pGAL-2kb could be a useful tool in developing drought-tolerant cultivars by driving gene expression.
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ObjectiveTo evaluate the security and effectiveness of raffinose-low potassium dextran solution (RLPDs) for donor lung preservation.MethodsFrom Sep.2002 to Dec.2011,131patients underwent lung transplantation in our institution,including 81cases of single lung transplantation and 50 cases of bilateral lung transplantation.There were 95 males and 36 females.A total of 129 donors were used for organ harvest.Two donors denoted their lungs to four patients receiving single lung transplantation. All the donors were flushed, perfused antegradely and retrogradely,and preserved with hypothermal RLPDs.The repeated reperfusion was necessary when the cold ischemic time was fairly long and the function of donor was poor.During operation,the blood gas analysis,mean pulmonary artery pressure (mPAP) and breathing mechanics were monitored.Postoperatively,all the recipients received re-examination of cardiac ultrasonography,pulmonary function,blood gas analysis and chest imaging.ResultsAll lung transplantations were performed successfully,with a mean cold ischemic time of (193±21) min (range,65-630 min).There was a significant relationship between postoperative pneumonedema and donor lung cold ischernic time (P<0.05),which was also observed between postoperative pneumonedema and primary graft dysfunction (P<0.01). The blood gas analysis and oxygenation index were significantly improved postoperatively,with the mPAP and parameters of breathing mechanics being descended to a normal level.There were 24 early deaths in the first month post-transplant,with a mortality of 18.3% (24/131),including 11cases of sepsis,7 cases of primary graft dysfunction,3 cases of heart failure,1case of bronchial stomal leak,1case of acute rejection,and 1case of pulmonary infarction.The pulmonary function was improved significantly 3 months postoperatively.Conclusion RLPDs is efficient in the preservation of donor lung,with the ability to alleviate ischemic reperfusion injury and improve pulmonary function.
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The objective of this study was to evaluate the fermentative characteristics of lactic acid bacteria isolated from local fermented foods and consume raffinose and stachyose during fermentation soymilk. Lactobacillus plantarum pentosus SMN, 01, Lactobacillus casei subsp rhamnosus FNCC, 098, Lactobacillus casei subsp rhamnosus FNCC, 099, Streptococcus thermofilus, 001, Lactobacillus delbrueckii subsp. bulgaricus FNCC, 0045, Lactobacillus plantarum SMN, 25, and Lactobacillus plantarum pentosus FNCC, 235 exhibited variable -galactosidase activity with Lactobacillus plantarum SMN, 25, showing the highest activity in MRS supplemented media. However, all organisms reached the desired therapeutic level (108 cfu/mL) likely due to their ability to metabolize oligosaccharides during fermentation in soymilk at 41 °C. The oligosaccharide metabolism depended on -galactosidase activity. Lactobacillus plantarum SMN, 25, L. plantarum pentosus SMN, 01 and Lactobacillus plantarum pentosus FNCC, 235 reduced raffinose and stachyose by 81.5, 73.0, 67.0 %, and 78.0, 72.5, 66.0 % respectively in soymilk.
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Objective: Soy products may cause excessive intestinal gas because of soybean oligosaccharides . The effect of recombinant ?-galactosidase on eliminating mouse flatus was observed. Methods:The mouse model of flatulence was set up by ig raffinose and stachyose and the flatulence was investigated by measuring intestinal flatulent volume. Oligosaccharides were examined by TLC test and soybean protein was examined by SDS-PAGE. Results: Raffinose and stachyose can result in mouse flatus and recombinant ?-galactosidase can eliminate it without any effect on soybean protein. Conclusion: Recombinant ?-galactosidase can eliminate flatus, and be used as food additive.