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《中国农学通报》2017,(26)
旨在研究酶法辅助技术提取沙苑子三萜的工艺及体外抗氧化活性。在单因素实验的基础上,确定液料比、酶添加量、酶解温度、酶解时间4个因素的Box-benhnken的实验设计,以三萜的提取率为响应值,采用响应面法优化沙苑子三萜的提取工艺,建立并分析各因素与指标值的数学模型;采用自由基清除能力体系评价沙苑子三萜的抗氧化活性。优化分析所得的最佳工艺参数为:液料比为40 mL/g,酶添加量为500μg/mL,酶解温度为40℃,酶解时间为50 min,三萜提取率理论值为8.08%,实际值为7.98%,其RSD为0.12%。沙苑子三萜对DPPH自由基、O_2~-·自由基、羟自由基及Fe~(3+)具有较强的清除作用。因此,该方法高效、简单,可用作沙苑子三萜的提取;沙苑子三萜具有明显的体外抗氧化活性。 相似文献
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旨在研究酶法辅助技术提取沙苑子三萜的工艺及体外抗氧化活性。在单因素实验的基础上,确定液料比、酶添加量、酶解温度、酶解时间4 个因素的Box-benhnken 的实验设计,以三萜的提取率为响应值,采用响应面法优化沙苑子三萜的提取工艺,建立并分析各因素与指标值的数学模型;采用自由基清除能力体系评价沙苑子三萜的抗氧化活性。优化分析所得的最佳工艺参数为:液料比为40 mL/g,酶添加量为500 μg/mL,酶解温度为40℃,酶解时间为50 min,三萜提取率理论值为8.08%,实际值为7.98%,其RSD 为0.12%。沙苑子三萜对DPPH自由基、O2
-·自由基、羟自由基及Fe3+具有较强的清除作用。因此,该方法高效、简单,可用作沙苑子三萜的提取;沙苑子三萜具有明显的体外抗氧化活性。 相似文献
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以越橘干果为原料,采用超声波辅助双酶酶解法提取越橘原花青素,以越橘原花青素得率作为评价指标,研究料液比、纤维素酶与果胶酶质量比、酶解pH、酶解时间和超声时间对越橘原花青素得率的影响。单因素试验和响应面法优化获得越橘原花青素提取条件为:料液比1∶30(g/mL),纤维素酶与果胶酶质量比为1∶1.2,酶解pH 5.0,酶解时间90 min,超声时间50 min,该条件下提取的越橘原花青素得率为9.38%;越橘原花青素具有较强的抗氧化活性,其对羟自由基、1,1-二苯基-2-三硝基苯肼(DPPH)自由基和超氧阴离子自由基的最高清除率分别为97.84%、96.47%和94.47%,半数抑制浓度IC50分别为0.354、0.394、0.387 mg/L,对三者的清除能力均高于抗坏血酸。 相似文献
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紫苏籽壳原花青素纯化及抗氧化性研究 总被引:1,自引:0,他引:1
旨在研究紫苏籽壳原花青素的纯化工艺及其体外抗氧化活性。采用大孔吸附树脂法,通过静态、动态实验,确定最佳纯化参数;采用分光光度法检测原花青素清除DPPH、ABTS自由基的能力,评价其抗氧化活性。结果表明,XDA-8是纯化紫苏籽壳原花青素的最优树脂,吸附率为63.41%,解吸率为78.98%。其最佳工艺为:上样流速4 BV/h、上样浓度4 mg/mL、洗脱剂乙醇体积分数70%、洗脱流速4 BV/h。在此条件下,原花青素纯度由5.25%提高到12.10%。紫苏籽壳原花青素纯化物对DPPH、ABTS自由基的半数抑制浓度IC50分别为2.138、0.3699 μg/mL,清除能力强于Vc。因此,XDA-8树脂纯化法简单、高效,可用于紫苏籽壳原花青素的纯化,且紫苏籽壳原花青素具有较强的体外抗氧化活性。 相似文献
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黑豆种皮富含花青素,为了进一步开发黑豆中花青素资源,采用微波辅助提取法提取黑豆种皮花青素,通过单因素和正交试验优化黑豆种皮花青素提取工艺,并通过测定羟基自由基、DPPH自由基和ABTS自由基清除能力评价不同温度下所提取花青素的抗氧化活性,进一步优化黑豆种皮花青素的提取条件。结果表明,黑豆种皮花青素最佳提取工艺为:乙醇体积分数70%,料液比1∶15(g/mL),微波功率350 W,微波时间30 s,提取时间30 min,提取温度40℃,在此条件下花青素提取量为25.3 mg/g,所获得的花青素对羟基自由基和ABTS自由基具有较强的清除能力。 相似文献
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采用超声联合酶法提取紫花苜蓿总黄酮,利用响应面法对该提取工艺进行优化,并对其提取物进行体外抗氧化活性研究。结果表明,超声联合酶法提取紫花苜蓿总黄酮的最佳工艺为:液料比40:1,超声时间为55min,超声温度为60℃,在此条件下紫花苜蓿总黄酮的提取率达9.928mg/g,与理论值的相对误差为0.40%,相比于其他传统方法,提取量大大提高;此外,紫花苜蓿总黄酮拥有良好的清除DPPH和·OH自由基的能力,其半数清除浓度(IC50)分别为14.31μg/mL及28.23μg/mL。 相似文献
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以菊芋叶为原料,以料液比、乙醇浓度、超声时间、超声功率为考察因素,在单因素试验的基础上,通过响应面设计优化菊芋叶多酚的提取工艺,并探究菊芋叶多酚的体外抗氧化活性.结果表明,菊芋叶多酚的最佳提取条件为:料液比1:20(g/mL),乙醇浓度50%,超声时间50 min,超声波功率500 W,在该条件下多酚得率为31.923 mg/g.抗氧化试验表明:菊芋叶多酚具有明显的抗氧化活性,对DPPH自由基(DPPH·)、羟基自由基(·OH)和超氧阴离子自由基(O2·)有较好的清除能力;与VC的抗氧化活性相比,菊芋叶多酚对O2·的清除作用明显高于VC. 相似文献
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旨在优化‘紫加1号’嫩茎叶花色苷提取工艺,并探讨其体外抗氧化活性。采用溶剂浸提法提取‘紫加1号’嫩茎叶花色苷,通过单因素试验和正交试验,分析浸提时间、浸提温度、料液比、乙醇浓度和提取次数对花色苷提取率的影响,确定提取‘紫加1号’花色苷的最佳工艺。通过水杨酸法、邻苯三酚自氧化法和DPPH法对‘紫加1号’花色苷的体外抗氧化活性进行测定。结果表明,花色苷最佳提取工艺为浸提温度50℃、浸提时间2.5 h、料液比为1:100 g/mL、乙醇浓度为55%、提取2次,此条件下得率为62.34 mg/100g,接近实际值56.23 mg/100g,说明结果准确可靠。同时,‘紫加1号’花色苷对羟基自由基(·OH)、超氧基自由基(O2-·)和1,1-二苯基-2-三硝基苯肼自由基(DPPH)有明显的清除作用,半数抑制浓度(IC50)依次为0.488 mg/mL、0.764 mg/mL和0.032 mg/mL。该法能够有效提取‘紫加1号’嫩茎叶花色苷,且获得的花色苷具有明显的体外抗氧化活性。 相似文献
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以新疆地产赤霞珠葡萄籽为原料,采用响应面法对微波辅助提取葡萄籽原花青素的工艺进行优化,并对其体外抗氧化活性进行评价。结果表明,最优提取工艺条件为:液料比25∶1(mL/g),乙醇浓度60%,微波功率427 W,微波时间3 min,在该条件下葡萄籽原花青素得率为8.66%±0.25%;抗氧化试验结果表明:葡萄籽原花青素具有较强的清除1,1-二苯基-2-三硝基苯肼(DPPH)、羟基及2,2-联氮-双(3-乙基-苯并噻唑-6-磺酸)二铵盐(ABTS)自由基的能力,其在三种体系中的IC50值分别为3.71、4.05和3.78 μg/mL,是一种极具开发潜力的天然抗氧化剂。 相似文献
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Jens Jensen 《Euphytica》1979,28(1):47-56
Summary The high-lysine gene in Risø mutant 1508 conditions an increased lysine content in the endosperm via a changed protein composition, a decreased seed size, and several other characters of the seed. The designation lys3a, lys3b, and lys3c, is proposed for the allelic high-lysine genes in three Risø mutants, nos 1508, 18, and 19. Linkage studies with translocations locate the lys3 locus in the centromere region of chromosome 7. A linkage study involving the loci lys3 and ddt (resistance to DDT) together with the marker loci fs (fragile stem), s (short rachilla hairs), and r (smooth awn) show that the order of the five loci on chromosome 7 from the long to the short chromosome arm is r, s, fs, lys3, ddt. The distance from locus r to locus ddt is about 100 centimorgans. 相似文献
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Biological Activity and Quantification of Suspected Allelochemicals from Alfalfa Plant Parts 总被引:7,自引:0,他引:7
Autotoxicity restricts reseeding of alfalfa (Medicago sativa L.) after alfalfa until autotoxic chemical(s) breaks down or is dispersed into external environments. A series of aqueous extracts from leaves, stems, roots and seeds of alfalfa ‘Vernal’ were bioassayed against alfalfa seedlings of the same cultivar to determine their autotoxicity. The highest inhibition was found in the extracts from the leaves. Extracts at 40 g dry tissue l?1 from alfalfa leaves were 15.4, 17.5 and 28.7 times more toxic to alfalfa root growth than were those from roots, stems and seeds, respectively. A high‐performance liquid chromatography (HPLC) analysis with nine standard compounds showed that the concentrations and compositions of allelopathic compounds depended on the plant parts. In leaf extracts that showed the most inhibitory effect on root growth, the highest amounts of allelochemicals were detected. Among nine phenolic compounds assayed for their phytotoxicity on root growth of alfalfa, coumarin, trans‐cinnamic acid and o‐coumaric acid at 10?3 m were most inhibitory. The type and amount of causative allelochemicals found in alfalfa plant parts were highly correlated with the results of the bioassay, indicating that the autotoxic effects of alfalfa plant parts significantly differed. 相似文献
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Hongyan WEI Jian ZHOU Jinguang LU Jingzheng SONG Qiongxi YU Zhihong JIANG 《Medicinal Plant》2019,(6):27-29
[Objectives]This study aimed to establish a QAMS(quantitative analysis of multi-components by single-marker)method for simultaneous determination of four phenol... 相似文献
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C. J. Spurr D. A. Fulton P. H. Brown R. J. Clark 《Journal of Agronomy and Crop Science》2002,188(4):275-280
Development of onion (Allium cepa L., cv. ‘Early Cream Gold’) seed under cool climate conditions in Tasmania, Australia occurred over a longer duration than previously reported, but similar patterns of change in yield components were recorded. In contrast to previous studies, umbel moisture content declined from 85 to 67 % over 57 days while seed moisture content decreased from 85 to 31 %. Seed yield continued to increase over the duration of crop development, with increasing seed weight compensating for seed loss resulting from capsule dehiscence in the later stages of maturation. Germination percentage was high and did not vary significantly from 53 to 77 days after full bloom (DAF), but mean germination time declined and uniformity of germination increased significantly over the same time period. The percentage abnormal seedlings declined with later harvest date, resulting in highest seed quality at 77 DAF. The results of this study suggest that the decision to harvest cool climate onion seed crops before capsule dehiscence will result in a loss of potential seed yield and quality. 相似文献
15.
Chunli TANG Fengxian ZHAO Hongxia CHEN Jiabao MA Jiangcun WEI Meiyan QIU Zhen XIE 《Medicinal Plant》2019,(6):60-65
[Objectives]To optimize the water extraction process of Chinese Herbal Compound Man Gan Ning and establish a method for its extraction and content determination... 相似文献
16.
D. A. Bond G. J. Jellis G. G. Rowland J. Le Guen L. D. Robertson S. A. Khalil L. Li-Juan 《Euphytica》1993,73(1-2):151-166
Progress is being made, mainly by ICARDA but also elsewhere, in breeding for resistance to Botrytis, AScochyta, Uromyces, and Orobanche; and some lines have resistance to more than one pathogen. The strategy is to extend multiple resistance but also to seek new and durable forms of resistance. Internationally coordinated programs are needed to maintain the momentum of this work.Tolerance of abiotic stresses leads to types suited to dry or cold environments rather than broad adaptability, but in this cross-pollinated species, the more hybrid vigor expressed by a cultivar, the more it is likely to tolerate various stresses. 相似文献
17.
Summary Apple and pear pollen was irradiated with doses of 0, 50, 100, 250 and 500 krad (gamma rays) and stored at 4°C and 0–10% r.h. From the in-vitro germination percentages an average LD 50 dose of about 220 krad was estimated. For both irradiated and untreated pollen a close and corresponding lineair relationship existed between germination percentage and pollen tube growth.Irradiated pollen was much more sensitive to dry storage conditions than untreated pollen, resulting in less germination and more bursting. Apparently, irradiation caused the pollen cell membrane to lose its flexibility faster than normal. Rehydration of dry-stored, irradiated pollen in water-saturated air restored germination percentages up to their initial levels. The importance of this procedure in germination trials is stressed. 相似文献
18.
[Objectives] To determine the optimum extraction technology for total phenols of leaves in Acanthopanax giraldii Harms.[Methods]The single factor test and ortho... 相似文献
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E. Keep 《Euphytica》1986,35(3):843-855
Summary Cytoplasmic male sterility (cms) is described in the F1 hybrids Ribes × carrierei (R. glutinosum albidum × R. nigrum) and R. sanguineum × R. nigrum. In backcrosses to R. nigrum, progenies with R. glutinosum cytoplasm were either all male sterile, or segregated for full male fertility (F) and complete (S) and partial (I) male sterility. Ratios of F:I+S suggested that two linked genes controlled cms, F plants being dominant for one (Rf
1) and recessive for the other (Rf
2).Segregation for cms in relation to three linded genes, Ce (resistance to the gall mite, Cecidophyopsis ribes), Sph
3(resistance to American gooseberry mildew, Sphaerotheca mors-uvae) and Lf
1(one of two dominant additive genes controlling early season leafing out) indicated that Rf
1and Rf
2were in this linkage group. The gene order and approximate crossover values appeared to be: % MathType!MTEF!2!1!+-% feaafiart1ev1aaatCvAUfeBSjuyZL2yd9gzLbvyNv2CaerbuLwBLn% hiov2DGi1BTfMBaeXafv3ySLgzGmvETj2BSbqef0uAJj3BZ9Mz0bYu% H52CGmvzYLMzaerbd9wDYLwzYbItLDharqqr1ngBPrgifHhDYfgasa% acOqpw0xe9v8qqaqFD0xXdHaVhbbf9v8qqaqFr0xc9pk0xbba9q8Wq% Ffea0-yr0RYxir-Jbba9q8aq0-yq-He9q8qqQ8frFve9Fve9Ff0dme% aabaqaciGacaGaamqadaabaeaafaaakeaacaWGdbGaamyzamaamaaa% baGaaiiiaiaacccacaGGWaGaaiOlaiaacgdacaGG0aGaaiiiaiaacc% caaaGaaiiiaiaacccacaGGGaGaamOuaiaadAgaliaaigdakmaamaaa% baGaaiiiaiaacccacaGGGaGaaiiiaiaaccdacaGGUaGaaiOmaiaacs% dacaGGGaGaaiiiaiaacccacaGGGaGaaiiiaaaacaWGsbGaamOzaSGa% aGOmaOWaaWaaaeaacaGGGaGaaiiiaiaacccacaGGGaGaaiiiaiaacc% cacaGGGaGaaiiiaiaacccaaaGaamitaiaadAgaliaaigdakmaamaaa% baGaaiiiaiaacccacaGGGaGaaiiiaiaacccacaGGGaGaaiiiaiaacc% cacaGGGaGaaiiiaiaacccacaGGGaaaaiaadofacaWGWbGaamiAaSGa% aG4maaaa!6E4D!\[Ce\underline { 0.14 } Rf1\underline { 0.24 } Rf2\underline { } Lf1\underline { } Sph3\]. Crossover values of 0.36 for Ce-Lf
1, and 0.15 for Lf
1-Sph
3were estimated from the relative mean differences in season of leafing out between seedlings dominant and recessive for Ce and Sph
3.It is suggested that competitive disadvantage of lf
1-carrying gametes and/or zygotes at low temperatures may be implicated in the almost invariable deficit of plants dominant for the closely linked mildew resistance allele Sph
3. Poor performance of lf
1- (and possibly lf
2-) carrying gametes and young zygotes during periods of low temperature at flowering might also account for the liability of some late season cultivars and selections to premature fruit drop (running off). 相似文献
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Parasitic angiosperms cause great losses in many important crops under different climatic conditions and soil types. The most widespread and important parasitic angiosperms belong to the genera Orobanche, Striga, and Cuscuta. The most important economical hosts belong to the Poaceae, Asteraceae, Solanaceae, Cucurbitaceae, and Fabaceae. Although some resistant cultivars have been identified in several crops, great gaps exist in our knowledge of the parasites and the genetic basis of the resistance, as well as the availability of in vitro screening techniques. Screening techniques are based on reactions of the host root or foliage. In vitro or greenhouse screening methods based on the reaction of root and/or foliar tissues are usually superior to field screenings and can be used with many species. To utilize them in plant breeding, it is necessary to demonstrate a strong correlation between in vitro and field data. The correlation should be calculated for every environment in which selection is practiced. Using biochemical analysis as a screening technique has had limited success. The reason seems to be the complex host-parasite interactions which lead to germination, rhizotropism, infection, and growth of the parasite. Germination results from chemicals produced by the host. Resistance is only available in a small group of crops. Resistance has been found in cultivated, primitive and wild forms, depending on the specific host-parasite system. An additional problem is the existence of pathotypes in the parasites. Inheritance of host resistance is usually polygenic and its transfer is slow and tedious. Molecular techniques have yet to be used to locate resistance to parasitic angiosperms. While intensifying the search for genes that control resistance to specific parasitic angiosperms, the best strategy to screen for resistance is to improve the already existing in vitro or greenhouse screening techniques. 相似文献