共查询到20条相似文献,搜索用时 62 毫秒
1.
以2个木薯主栽品种(SC124、SC8)为材料,自盛暑期开始遮荫(植后70 d至植后160 d),对植后160 d木薯块根进行淀粉含量及相关酶活性分析,结合扫描电镜观察遮荫处理与正常光照下木薯块根淀粉结构的变化,探讨弱光对木薯贮藏淀粉含量和品质的影响。结果表明,遮荫处理改变了木薯光合产物在"源"与"库"之间的分配,造成茎叶变长,茎干细弱,块根减重,根冠比显著降低。弱光显著影响淀粉含量及其组成,遮荫处理提高或显著提高了SC124和SC8块根直链淀粉含量,降低了2个品种块根的总淀粉含量和支链淀粉含量,以及支链淀粉与直支链淀粉的比率。遮荫处理后木薯块根AGPase活性均降低;GBSS活性增加(SC8)或无显著变化(SC124);而遮荫处理对SSS和SBE活性影响不一致。扫描电镜观察表明,遮荫处理形成许多直径较小的淀粉粒,影响淀粉充实程度而造成淀粉含量降低。 相似文献
2.
为了解高压诱变小麦突变体籽粒灌浆过程中的淀粉积累特性,以未经高压处理的偃展4110纯系为对照,对经过高压诱变处理(120MPa,8h)获得的偃展4110突变株系高压2、高压3、高压5、高压9和高压11的籽粒形成过程中淀粉含量的动态变化进行了分析。结果表明,突变株系籽粒总淀粉、直链淀粉、支链淀粉含量均呈"S"型曲线变化;总淀粉、直链淀粉、支链淀粉积累速率表现为"抛物线"型曲线变化,花后15~20d为籽粒总淀粉、直链淀粉、支链淀粉含量增加最快的时期;高压2、高压5的总淀粉、直链淀粉、支链淀粉含量高于对照,高压9低于对照;成熟期高压2和高压9的总淀粉含量分别为80.99%和73.05%,与对照(77.38%)差异显著(P0.05),说明高压诱变对淀粉积累有影响。不同样品之间总淀粉、直链淀粉、支链淀粉含量变化速率存在显著差异(P0.05),对照的总淀粉、支链淀粉峰值速率高于其他突变株系;高压2和高压5的直链淀粉峰值速率明显高于对照。 相似文献
3.
小麦直、支链淀粉和总淀粉含量的比色快速测定研究 总被引:11,自引:0,他引:11
为了快速准确地测定小麦直、支链淀粉含量,通过单波长法、双波长法、多波长法对比色法测定小麦直、支链淀粉含量进行了比较,并对影响测定结果的试验条件进行了优化和分析.结果表明,与马铃薯相比,小麦面粉直、支链淀粉-碘复合物吸收曲线存在一定的差异.用单波长法、双波长法、多波长法测定小麦直、支链淀粉含量,均能得到相关性很高的回归方程.双波长和多波长法可以有效地排除其他物质的干扰,测定结果优于单波长法.多波长法测定复杂,结果计算繁琐,因此双波长法更适用于小麦直、支链淀粉含量的同时测定,其测定结果也优于多波长法.在双波长法中,小麦直链淀粉的适宜测定波长为630和486nm,小麦支链淀粉的适宜测定波长为550和743nm.溶液酸碱度pH值3.5左右. 相似文献
4.
青稞籽粒淀粉含量的差异 总被引:4,自引:0,他引:4
为筛选特色淀粉青稞材料,采用双波长法测定和分析了来自西藏、青海、甘肃、四川、国外的栽培青稞以及野生裸大麦共469个青稞材料的直链和支链淀粉含量。结果表明,这些青稞材料的直链淀粉含量平均为24.65%,变异范围为4.09%(昆仑8号)~39.72%(长芒红四棱),其中西藏材料最高(26.87%),甘肃材料最低(21.23%);支链淀粉含量平均为31.76%,变异范围为15.24%(康青1号)~60.09%(喜玛拉雅2号),其中野生裸大麦最高(35.51%),西藏材料最低(30.17%);总淀粉含量平均为56.00%,变异范围为31.28%(阿青5号)~74.41%(阿里当地青稞),以野生裸大麦最高(58.11%),青海材料最低(54.19%)。根据淀粉含量分布特征将不同来源青稞材料间直、支链及总淀粉含量都分成4个级别,这些青稞材料的直链淀粉含量主要分布在第3级,支链和总淀粉含量主要分布在第2级。从中筛选出18份具有特殊淀粉含量的青稞材料,可用于专用青稞的培育。 相似文献
5.
木薯分支酶活性测定及同工酶电泳技术应用初探 总被引:1,自引:0,他引:1
淀粉分支酶(Starch branching enzyme,SBE)是唯一引入α-1,6糖苷键分支点,催化支链淀粉形成的酶,影响淀粉分支程度及淀粉粒的精细结构。本文以3个亲缘关系较远的高产木薯品种(SC124、SC8、Arg7)为材料,利用SBE同工酶电泳及酶活性检测观察木薯块根支链淀粉增长较快时期SBE活性变化动态,结合支链淀粉含量检测分析木薯淀粉同工酶表达特点与支链淀粉积累的关系。结果表明:种植后140d至180d为木薯单株支链淀粉含量快速增加时期;SC124和SC8支链淀粉积累量早于Arg7达到高峰;Arg7各个时期的支链淀粉含量及SBE活性均表现最高。同工酶分析表明,木薯分支酶有SBE-I和SBE-II两个基因位点:SBE-Ι至少有3个等位基因位点(SBE-Ιa、SBE-Ιb、SBE-Ιc),品种间具有多态性;SBE-II为单一条带,但活性大小在品种间和发育不同阶段有差异。初步判定等位基因位点SBE-Ιc和SBE-II可能对SBE酶活性和支链淀粉含量贡献较大。 相似文献
6.
以华南系列的SC205、SC5、SC6、SC8和SC10五个木薯品种为材料,于采收后不同时间分析其块根生理变质程度、干物质含量、淀粉含量、支链淀粉比例和淀粉透明度等指标,探讨木薯生理变质与块根淀粉特性的关系。研究结果表明:采后生理变质对块根淀粉特性有明显影响,所有品种淀粉特性指标在采后均呈下降趋势,其中下降最快的是SC205。对各指标的相关分析表明,支链淀粉分别与淀粉含量和淀粉透明度呈显著正相关和极显著正相关。可见,生理变质可导致淀粉透明度的下降,影响淀粉的商品品质。 相似文献
7.
对木薯品种(系)SC8、南植199、C869、D346和E632在6~11个月生长期的块根淀粉糊化特性进行研究。结果表明,木薯的含粉量随生长期的延长呈先增后减趋势,不同品种的变化拐点各不相同;直链淀粉含量随生长期变化趋势因品种而异,表现出显著的品种效应和生长期差异性;峰值粘度在生长期为8个月后随生长期的延长而增加,其值与鲜薯含粉率、直链淀粉含量呈显著正相关关系;木薯淀粉糊化温度的生长期差异性显著,且变化趋势因品种的差异而略有不同,它与直链淀粉含量呈显著负相关关系。木薯淀粉恩氏粘度与直链淀粉含量呈显著正相关。 相似文献
8.
9.
为探讨灌浆前期高温对六倍体小黑麦籽粒淀粉积累及其相关合成酶活性的影响,以4个春性小黑麦品种(系)为材料,在开花后5~14 d于田间搭建温棚进行高温胁迫,对其籽粒淀粉积累动态、淀粉合成相关酶活性进行了研究。结果表明,开花后5~14 d高温胁迫导致小黑麦千粒重和容重均显著下降,其中,千粒重下降5.95%~20.47%,容重下降3.33%~9.49%;籽粒中的总淀粉、支链淀粉与直链淀粉含量均显著降低,依次下降6.84%~17.97%、7.70%~24.60%及2.27%~7.17%,直/支链淀粉比有所升高,但差异不显著。在高温胁迫期间,小黑麦籽粒中与淀粉合成相关的腺苷二磷酸葡萄糖焦磷酸化酶(AGPP)、可溶性淀粉合成酶(SSS)、淀粉分支酶(SBE)及淀粉去分支酶(DBE)活性均较对照有所上升,高温胁迫结束后,AGPP、SSS、DBE的活性均较对照有所下降。推测灌浆前期高温胁迫导致灌浆中后期小黑麦籽粒中淀粉合成相关酶活性的下降是籽粒中淀粉含量降低以及千粒重、容重下降的主要原因。 相似文献
10.
为了调控木薯块根淀粉含量与组成,以甘薯块根特异表达Sporamin A启动子驱动构建了腺苷二磷酸葡萄糖焦磷酸化酶AGPase小亚基(ADP-glucose pyrophosphorylase small subunit 1,AGPase SU1)、可溶性淀粉合成酶(soluble starch synthase 1,SSS1)、颗粒性淀粉合成酶(granule-bound starch synthase 1,GBSS1)的干涉载体,通过农杆菌介导法转化木薯SC205的胚性愈伤,获得了转化再生株系。酶切鉴定及测序表明,构建的上述3个调控木薯块根淀粉合成的干涉载体构建正确,对获得的转化再生株系用潮霉素筛选及潮霉素抗性基因HPT的引物进行扩增,部分株系有阳性扩增条带,初步说明本研究获得了以调控木薯块根淀粉含量与组成的转基因木薯SC205株系。 相似文献
11.
12.
《Journal of Crop Improvement》2013,27(2):81-114
Summary The efficiency of N fertilizers is usually poor; often less than 50% of the applied N is taken up by the crop. This review focuses on various N fertilizers with respect to the significance of different N loss pathways, namely (i) ammonia volatilization, (ii) dinitrogen and nitrogen oxide emissions, and (iii) nitrate leaching. Further, the significance of biological N immobilization, ammonium fixation and, finally, the impact of nitrate vs. ammonium uptake on crop yield are also discussed. The reviewed literature shows that N fertilizers may differ markedly in their susceptibility to losses. There is, however, considerable scope to improve N efficiency of each N source by proper N management practices. 相似文献
13.
Novel food and non-food uses for sorghum and millets 总被引:4,自引:3,他引:4
Sorghum and millets have considerable potential in foods and beverages. As they are gluten-free they are suitable for coeliacs. Sorghum is also a potentially important source of nutraceuticals such antioxidant phenolics and cholesterol-lowering waxes. Cakes, cookies, pasta, a parboiled rice-like product and snack foods have been successfully produced from sorghum and, in some cases, millets. Wheat-free sorghum or millet bread remains the main challenge. Additives such as native and pre-gelatinised starches, hydrocolloids, fat, egg and rye pentosans improve bread quality. However, specific volumes are lower than those for wheat bread or gluten-free breads based on pure starches, and in many cases, breads tend to stale faster. Lager and stout beers with sorghum are brewed commercially. Sorghum's high-starch gelatinisation temperature and low beta-amylase activity remain problems with regard to complete substitution of barley malt with sorghum malt . The role of the sorghum endosperm matrix protein and cell wall components in limiting extract is a research focus. Brewing with millets is still at an experimental stage. Sorghum could be important for bioethanol and other bio-industrial products. Bioethanol research has focused on improving the economics of the process through cultivar selection, method development for low-quality grain and pre-processing to recover valuable by-products. Potential by-products such as the kafirin prolamin proteins and the pericarp wax have potential as bioplastic films and coatings for foods, primarily due to their hydrophobicity. 相似文献
14.
Whereas the concept that availability of resources drives seed production is sound in principle, it is incomplete as there are many solutions to the allocation of resources that derive from the trade-off between number and size. This paper examines evolutionary aspects of this trade-off in annual grain crops. The analysis is centred on the working hypotheses that, for a given species and environment, allocation of resources to reproduction involves (H1) high plasticity in seed number, which allows for variable resource availability, and (H2) a relatively narrow range of seed size that results from evolutionary and agronomic selection. Comparisons between crops and fish are used to highlight common evolutionary elements in taxa where parents provide little or no care to their offspring, with the consequence that both number and early survival of offspring, hence fitness of parents, are partially related to embryo size and reserves.
The plasticity of seed number in relation to availability of resources is analysed against the established relationship between offspring number and parent growth rate during critical stages. The notion that seed size is under stabilising selection is analysed against three conditions: (1) mean seed size is conservative for a given species and environment, (2) seed size affects fitness, and (3) seed size is heritable. Databases from published papers were compiled to analyse the relative variability of seed size and number, and the heritability of seed size. Evidence for and against the link between seed size and parental fitness is revised using the Smith–Fretwell model as framework (Am. Nat., 108, 499–506).
The proposal of high plasticity of seed number and narrow variability of seed size resulting from stabilising natural selection is generally consistent with evolutionary and genetic considerations. Agronomic selection may have reinforced natural selection leading to relatively narrow seed size in species such as wheat and soybean, where cultivated types retained high plasticity for seed number. In contrast, selection for one or few inflorescences in crops like sunflower and maize may have morphologically reduced seed number plasticity and increased variability of seed size and its responsiveness to resource availability in relation to their wild ancestors. 相似文献
15.
Yanhua Lu Chongwei Zhang Peter Bucheli Dongzhi Wei 《Plant foods for human nutrition (Dordrecht, Netherlands)》2006,61(2):55-63
Flavonoids-enriched tissues of citrus such as peel, immature fruit and flower are consumed as culinary seasonings, tea ingredients in China for centuries. This HPLC quantitative study on the five citrus flavonoids, naringin, hesperidin, neohesperidin, sinensetin and nobiletin on a wide range of Chinese citrus fruits and several Traditional Chinese Medicinal food ingredients in East China, revealed a great diversity in flavonoid composition. Huyou peel (C. paradisi cv. Changshanhuyou) was found to be the best naringin (3.25%) and neohesperidin (2.76%) source; C. aurantium, a major ingredient of several citrus-related TCM, is also a suitable source of naringin and neohesperidin, and a good juice source for flavanone glycosides; the peel of Wenzhoumiju (C. unshiu) is one of the richest local species in hesperidin (up to 6.25%); Zaoju (C. subcompressa) has the highest content of nobiletin (0.59%), a polymethoxylated flavone. LC-ES-MS analysis of Zanthoxylum genus for flavonoids revealed for the first time the presence of significant amounts (0.74%) of hesperidin in the root of Liangmianzhen (Z. nitidum (Roxb.) DC), a relative of Sichuan pepper, which is a spice widely used in China. 相似文献
16.
Summary The viability of five pathogens was decreased by treatment with hot water when tested in vitro.Polyscytalum pustulans was most sensitive andRhizoctonia solani least sensitive.
Potato tubers were exposed to 55°C for 5 min in a commercial continuous hot water treatment plant using naturally contaminated
seed tubers and tubers which had been inoculated by dipping in comminuted cultures. The frequency of eyes colonised byP. pustulans, Helminthosporium solani, andR. solani was reduced to virtually zero and the effect persisted on tubers subsequently stored at 4°C and at 15°C for up to 16 wk.
Results withColletotrichum coccodes were inconclusive. Treatment suppressedPenicillium spp. which, however, rapidly recolonised the eyes during storage, leading to higher contamination levels in the treated than
in the untreated tubers. With tubers inoculated withPhoma foveata, good control was achieved when the incubation period before treatment was 10 d but not when the period was 42 d. 相似文献
17.
《Journal of Crop Improvement》2013,27(2):379-400
Summary Heterocyclic 1,4-benzoxazin-3-ones and related benzox-azolinones are important natural products of the cereal crops maize, wheat and rye. Much research has focused on the role of these compounds as defensive agents against plant diseases and pests. Studies of a wide variety of biological effects on herbivores and nematodes, plant pathogenic fungi and bacteria are reviewed in this article. Phytotoxic activity of the compounds is also considered with respect to allelopathic interaction with higher plants. Recent investigations of molecular aspects of interactions of cyclic hydroxamic acids and related benzoxazo-linones with acceptor organisms have demonstrated different effective detoxification strategies and tolerance mechanisms. This research has greatly advanced our knowledge about the multiple roles that these allelochemicals play in ecological systems. 相似文献
18.
Potential of dry fractionation of wheat bran for the development of food ingredients,part I: Influence of ultra-fine grinding 总被引:1,自引:0,他引:1
Youna Hemery Marc Chaurand Ulla Holopainen Anna-Maija Lampi Pekka Lehtinen Vieno Piironen Abdelkrim Sadoudi Xavier Rouau 《Journal of Cereal Science》2011
Wheat bran is an undervalued by-product of white flour and has great nutritional potential due to its high content in fibres and bioactive compounds. Micronized bran could be used as a food ingredient to improve the nutritional potential of cereal products, or be used as a starting material for other processes (bioactive compound extraction or bran fractionation). The aim of this work was to find a way to efficiently decrease the particle size of bran. The influence of the grinding temperature (ambient or cryogenic grinding) on the granulometric distribution of particles, their composition, and their microstructure was studied, at lab-scale and pilot-scale. It showed that the intrinsic characteristics of bran (glass transition within intermediate layers at −46 °C) had more influence on its grinding behaviour than the type of grinding device used: the particles size distributions obtained after grinding at lab-scale and pilot-scale were very similar. At both scales, the granulometric curves were narrow for cryogenic grinding, while for ambient grinding they were spread over the whole particle size range. Ultrafine particles were obtained in both ambient and cryogenic conditions. Negative temperatures, by increasing the material’s brittleness, favoured a fast fragmentation of bran: one step of cryogenic grinding allowed a median particle size of nearly 50 μm to be reached, whereas three successive steps of ambient grinding were needed for the same result. On the other hand, ambient temperature favoured the dissociation of the different constituent layers of wheat bran, and produced less composite particles than cryogenic grinding. 相似文献
19.
Multiple use of plants: Studies on selenium incorporation in some agricultural species for the production of organic selenium compounds 总被引:3,自引:0,他引:3
The technique of spraying plants with inorganic forms of selenium can be employed for phytochemical production of organic selenium compounds. Fractionation of the plant material makes it possible to produce a highly concentrated and well defined selenium supplement with potential use in animal and human nutrition. The fractionation also gives opportunities to combine production of organic selenium compounds with other products, for example plant fibres. Multiple use of plants can contribute to a more efficient utilization of land area (in comparison to monocultures solely adapted to food production). It also gives the opportunity to develop systems suitable for long term fixation of carbon, as long as the plant material is not reoxidised to carbon dioxide. Plant fibres could provide raw material for the production of paper or building materials in combination with the production of organic selenium compounds preferentially accumulated in another fraction of the processed plant. 相似文献
20.
Summary
Macrosiphum euphorbiae, collected in the field from potato plants infected with potato leafroll virus (PLRV), transmitted the virus to fewer potato
plants in a field trial than did laboratory-rearedMyzus persicae. In the laboratory,M. persicae was the only efficient vector of PLRV fromPhysalis floridana seedlings, potato sprouts or excised leaves toP. floridana. Two clones ofM. euphorbiae and one clone ofAulacorthum solani transmitted PLRV from infected potato plants toNicotiana clevelandii as effeciently asM. persicae but a clone ofAphis gossypii was an inefficient PLRV vector. An isolate of PLRV, whichM. persicae transmitted inefficiently from potato toN. clevelandii, was also transmitted inefficiently byM. euphorbiae andA. solani. 相似文献