- 更多网络例句与淀粉合成作用相关的网络例句 [注:此内容来源于网络,仅供参考]
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But the relationship of amylose and amylopectin contents to SSS and GBSS activities was different according to filling stages.
籽粒SSS和GBSS对淀粉合成的调节作用具有明显的时期特异性,SSS主要在籽粒灌浆前期起作用,而GBSS主要在籽粒灌浆后期发挥作用。
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These results suggested that many organella could all develop into amyloplast, variation of amyloplast envelope resulted in amylopast proliferation, RER played an important role in synthesis and deposition of protein, ER showed many functions during endosperm development, intercellular space and plasmalemma invagination played an important role in transportation of nutrients, degeneration of starchy endosperm nucleus was a special PCD, Ca〓 and phosphatases played an important role during endosperm development.
上述结果表明:多种细胞器可以趋同发育成淀粉质体,淀粉质体增殖来源于其被膜的活动,粗面内质网在蛋白质的合成与积累中具有重要作用,内质网在胚乳发育中具有多种功能,胞间隙和质膜内陷在营养物质的运输中具有重要作用,淀粉胚乳细胞核的衰退是一种特殊形式的编程性死亡,Ca〓和磷酸水解酶在胚乳发育中起重要作用。
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The results suggested that protein content was increased under 6-BA treatments, but single grain weight and starch content were decreased after anthesis.
上述结果表明6-BA处理促进了籽粒蛋白质的合成,但降低了籽粒质量和淀粉的合成,旗叶处理较穗处理作用大。
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This paper has studied the physiological and biochemical changes during the period of forming strong buds of tree peony, and expect to provide academic basis for extending its view value and economic benefit . The main results are as the following:1 Under the field condition, Characteristics of photosynthesis of tree peony are very regular. From before blooming to the prophase of abducting buds that after blooming ,that is April,May and June,the net photosynthetic rate of tree peony is higher than the other period .It indicates that this period is very important for accumulating photosynthetic products of tree peony . So, if we want to get quality flower of tree peony ,it is very important to strengthen the management of tree peony cultivation and to ensure provide the fertilizer and water.2 From the middle ten days of June, with the time elapsing and with the environment conditions worsening, the characteristics of photosynthesis of tree peony decline deeply. But it is different among different tree peony breeds. For example , cv. Wu Long Peng Sheng can also has higher net photosynthetic rate, it indicates that cv. Wu Long Peng Sheng is super than the other two tree peony breeds when adapting the environment conditions and cv. Wu Long Peng Sheng has wide prospect to extend .3 The main factors of effecting the characteristics of photosynthesis are stomatal factor and non-stomatal factor ,that is the ability of photosynthesis of leaf cells. Under the environment of high light intensity in midsummer, if overshadow tree peony properly, then it can slow the declining of chlorophyll content, and increase the net photosynthetic rate and benefit for the accumulating of photosynthetic products.4 The content of soluble sugar in the root of tree peony is the highest among different organs during the period of forming strong buds . According to analyse ,we believe that the soluble sugar will compose starch then, and provide the solid base of material for the growth and development next year. It provide us strong academic basis of adopting the method of cultivating root and protecting root under thefield environment conditions .In other words ,it will help to increase the health level of the whole plant of tree peony and will be beneficial to forming quality tree peony flower if we strengthen the management of root. 5 To tree peony, the endogenesis hormone is important for its growth and development .In the prophase ,that is about the blooming of tree peony and the mid-summer ,IAA and ZR contents are higher and GA content is lower and its changes are very little, and the content of ABA is decreasing . This indicates that IAA and ZR act the important promote function for growth and development of tree peony in this period, and the function of GA is not important. Bur in the period of anniversary senescence of tree peony , the content of IAA and ZR begin to decrease ,while the ABA content has a certain rebound .T
本研究对几个牡丹品种壮芽形成过程中的某些生理生化变化做了研究,以期了解牡丹生长发育过程中生理生化的变化规律,探讨大田栽培条件下提高牡丹花质量的栽培措施和管理技术,为提高牡丹的观赏价值和经济效益提供理论依据,结果如下:1 大田栽培条件下,牡丹光合特性在生长发育过程中表现出极强的规律性,牡丹各品种的光合速率从牡丹开花前,到牡丹花谢后的花芽诱导期前期(6月10日之前),也就是在4、5、6月份,各牡丹品种的净光合速率相对与其他时间都维持在比较高的水平,这说明,在这段时间,是牡丹光合产物积累的重要时期,因此,要保证得到高质量的牡丹花,在这段时间加强对牡丹的栽培管理,保证这个时期的肥水供应十分重要。2 从6月中旬后,随时间的推移,环境条件的恶化,牡丹的光合性能剧烈下降,但是不同牡丹品种间仍有差异,比如,乌龙捧盛仍可维持较高的光合水平,这说明了乌龙捧盛这个牡丹品种对于环境的适应性较之其他牡丹品种高,有着广泛的推广前景。3 影响牡丹光合性能的主要因子是气孔因素和非气孔因素即叶肉细胞的光合能力,在盛夏高温高光强的环境条件下,对牡丹进行适当遮荫,能缓解牡丹叶绿素水平的下降,适当提高Pn,有利于光合产物的积累。4 可溶性糖在牡丹各品种的壮芽形成过程中,根中可溶性糖的含量在牡丹各部位中始终维持最高水平,分析认为这些可溶性糖在根系中进一步合成淀粉等储藏性物质,为来年牡丹的生长提供雄厚的物质基础,这为我们在大田栽培条件下对牡丹采取养根护根的栽培措施提供了有力的理论依据,即在大田栽培条件下,加强对牡丹根系的管理,有助于提高牡丹整株的健壮程度,有益于形成高质量的牡丹花。5内源激素对牡丹的生长发育调节作用是十分明显的,在前期,即开花前后和盛夏,IAA和ZR含量维持在比较高的水平,GA含量低且变化不明显,ABA含量逐渐降低,说明了IAA和ZR对牡丹在这段时间内的生长发育起到重要的促进作用,GA的作用不是很明显,ABA可能在高温高光强下有明显的升高,也说明了ABA的确有一些促进作用,但是到了牡丹周年衰老期,IAA和ZR的含量开始下降,ABA含量却有了一定程度的反弹,说明了IAA和ZR的作用开始降低,ABA起到了促进衰老的作用
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Acetic acid, glucose and starch (ratio=3:1) as well as starch and peptone (ratio=3:1) were used as main sunbstrates for the calcium-containing wastewaters, which represented the wastewaters containing acidified, unacidified and unliquefied organic compounds, respectively.
本研究分别采用以乙酸、葡萄糖+淀粉(质量比3∶1)、淀粉+蛋白胨(质量比3∶1)为底物的含钙合成废水,分别代表已经酸化的有机废水、易酸化的有机废水和难酸化的有机废水,通过在UASB反应器中的运行,研究了厌氧生物过程对高钙废水去除作用、去除机理以及重要的影响因素。
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The mechanism in which trehalose is produced from dextrin or starch hydrolyzate by endocellular enzymes of bacterium D-97 can be elucidated by high performance liquid chromatography with differential refraction detection basically, including the effect of the different carbon sources on the endocellular trehalose-producing enzymes in bacterium D-97 and the possibility or ability of the endocellular enzymes to produce trehalose using maltooligosaccharides of different chain lengths.
通过高效液相色谱/示差折光检测系统分析可获得细菌D-97利用糊精或淀粉水解物合成海藻糖的基本生物学信息,包括微生物培养碳源对细菌D-97胞内海藻糖合成酶系的影响以及该酶系利用不同种类或不同分子链长度的麦芽寡糖合成海藻糖的能力及作用过程。
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A new type of dimorphic denature starch cationic starch with lauril glucoside was synthesized by reaction of cationic starch with lauryl alcohol at the presence of emulsifier and catalyst.
在乳化剂和催化剂作用下,以阳离子淀粉和月桂醇为主要原料,合成了一种新型高取代度的双变性淀粉——阳离子淀粉月桂基糖苷。
- 更多网络解释与淀粉合成作用相关的网络解释 [注:此内容来源于网络,仅供参考]
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amyloplast:淀粉体
白色体不含色素,呈无色颗粒状.普遍存在于植物体各部分的储藏细胞中,起着淀粉和 脂肪合成中心的作用.当白色体特化成淀粉储藏体时,便称为淀粉体(amyloplast),当它 形成脂肪时,则称为造油体(elaioplast).
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amylum grain:淀粉粒子
amylosynthesis | 淀粉合成作用 | amylum grain | 淀粉粒子 | amylum star | 淀粉星状晶
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zein:玉米朊
研究课题涉及面很广,如:丁二烯合成的催化作用;豆类产品如淀粉、油、玉米朊(zein)的利用;溪流废物处理技术的改进;结构玻璃;煤和焦炭产品;合成润滑油,棉纤维的性能;石油产品;有机硅树脂;工业保健".
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amylin:淀粉素
新近资料表明,β细胞除分泌胰岛素外,还合成一种叫淀粉素(amylin)的多肽,它具有抑制胰岛素分泌和拮抗胰岛素作用的生物活性,与糖尿病的发生有一定关系.
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amylosynthesis:淀粉合成作用
"直链淀粉","amylose" | "淀粉合成(作用)","amylosynthesis" | "淀粉","amylum"
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amylum grain:淀粉粒子
amylosynthesis || 淀粉合成作用 | amylum grain || 淀粉粒子 | amylum star || 淀粉星状晶