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1.
早籼稻垩白形成中胚乳淀粉粒发育的电镜观察   总被引:20,自引:4,他引:16  
沈波 《中国水稻科学》2000,14(4):225-228
对不同垩白度早籼品种中优早3号(少垩白)和泸红早1号(多垩白)的不同温度处理下的胚乳淀粉粒进行了扫描电镜观察,结果显示胚乳腹部淀粉粒形成的发育过程明显受温度条件的影响。在灌浆初始,高温促使淀粉粒发育进程提前,淀粉粒形状呈圆球形,边缘光滑,从而造成成熟时淀粉粒间的空隙明显,结构疏松,垩白率高。这在少垩白品种中优早3号中表现得尤为显著。  相似文献   

2.
人工控温条件下稻米垩白形成变化及胚乳扫描结构观察   总被引:48,自引:5,他引:43  
 利用人工气候箱设高温(33℃)和适温(23℃)2个不同的温度处理,对2个不同垩白类型品种西农8116和广二矮104抽穗后稻米垩白的变化动态进行了研究,并通过对不同温度下稻米胚乳内部淀粉体形态、大小、发育程度、排列结构的扫描电镜观察,分析了稻米垩白形成变化与胚乳内部淀粉体结构特征的关系,结果表明,水稻灌浆结实期稻米垩白形成的变化过程主要是在抽穗5 d到15~20 d的这一时期,其余时段垩白度的变化幅度不大;高温(33℃)与适温(23℃)处理相比,以抽穗后10~20 d间的变化差别最为明显;胚乳淀粉体表现为“裸露型”还是“非裸露型”,主要与胚乳细胞内部淀粉粒发育程度有关,而与品种本身的垩白类型特征无必然联系  相似文献   

3.
 选用蒸煮食味品质不同的3个粳稻品种,利用温室高温和自然常温,研究了灌浆成熟期温度对水稻籽粒淀粉合成关键酶活性及蒸煮食味品质的影响。结果表明,灌浆成熟期高温条件下,水稻籽粒蛋白质含量提高,直链淀粉含量和味度值降低,劣质品种提高或降低的程度大于优质品种;RVA谱特性对灌浆成熟期温度的反应因品种和特性而异;灌浆过程中,籽粒ADPG焦磷酸化酶、可溶性淀粉合成酶和淀粉分支酶活性随灌浆进程,酶活性逐渐增加,达到峰值以后,酶活性又逐渐下降,呈单峰曲线,但不同品种酶活性达到峰值的时间和同一时期的酶活性大小有差异;ADPG焦磷酸化酶和可溶性淀粉合成酶的活性表现对温度的影响反应较为迟钝,而淀粉分支酶活性表现对温度变化的反应较为敏感,温度过高过低都降低该酶活性。  相似文献   

4.
温度对早籼稻米垩白发生与胚乳物质形成的影响   总被引:44,自引:8,他引:44  
沈波  陈能 《中国水稻科学》1997,11(3):183-186
 以早籼品种中优早3号(少垩白)和泸红早1号(多垩白)为材料进行盆钵土培试验。在人工气候箱的设置两种温度处理(高温:昼/夜,33℃/29℃;适温:昼/夜,26℃/22℃)。结果表明温度对稻米垩白形成的显著影响,而且不同垩白的水稻品种在高温、适温条件下胚乳物质及酶类活性等的表现差异。少垩白的中优早3号通过高温和适温的同期比较处理,可以明显看到胚乳内部物质、相关酶活性及垩白度变化的温度处理效应,表明外部的高温条件影响了胚乳内部的生理生化状态及垩白的形成过程;而多垩白的泸红早1号的高温、适温处理差异相对较小。由此说明,少垩白的的品种更易受高温影响。  相似文献   

5.
【目的】研究灌浆期不同时段高温对稻米淀粉组成、结构和理化特性的影响,揭示高温对稻米淀粉理化特性影响的时段效应,阐明高温、结构和功能之间的关系。【方法】以耐热水稻品种黄华占和热敏感的9311近等位基因系为实验材料,利用人工气候箱设置高温[38℃(昼)/30℃(夜)]和对照[28℃(昼)/22℃(夜)],研究灌浆前期(齐穗期后1-15 d)和后期(齐穗期后16 d至成熟)高温对稻米的加工品质、外观品质、淀粉组成、支链淀粉链长分布、粒度分布、胶稠度、黏度特性、糊化特性、结晶特性和颗粒形态的影响。【结果】灌浆期高温使糙米率、精米率、整精米率显著下降,使垩白粒率和垩白度显著升高,导致加工品质和外观品质变差。灌浆期高温使总淀粉含量、直链淀粉含量、短支链淀粉含量、大淀粉粒占比、直/支链淀粉比显著下降,而中等支链淀粉含量、小中淀粉粒占比、糊化温度和糊化焓显著上升,黏度特性显著改变,结晶类型不变但结晶度显著改变,淀粉颗粒表面出现小孔,表面变得凹凸不平,导致淀粉颗粒更加碎片化和蒸煮食味品质变劣。灌浆期不同时段高温对稻米品质的影响不同,灌浆前期高温对稻米淀粉的影响大于灌浆后期,耐热品种受影响小于热敏感品种。灌浆前期高温处理下供试材料具有较高的消减值和较低的崩解值,黏度特性变差;灌浆后期高温处理下供试材料具有较低的消减值和较高的崩解值,黏度特性变好。【结论】灌浆前期高温对淀粉理化特性的影响最大,进而导致稻米的加工品质、外观品质和蒸煮食味品质变劣,灌浆后期高温提升了黏度特性。  相似文献   

6.
Three japonica rice varieties with different cooking and eating quality were grown at high temperature in the greenhouse and natural field. Effects of temperature at the grain filling stage on these varieties were investigated in terms of the activities of key enzymes related to starch synthesis and cooking and eating quality of rice grain. The high temperature at the grain filling stage increased protein content, and decreased amylose content and taste meter value of rice; inferior grain quality varieties showed a greater magnitude of the increase or decrease than the superior ones. Reaction of rapid visco analyser profiles to the temperature varied with rice varieties. The activities of adenosine diphosphoglucose pyrophosphoryiase (AGPP), soluble starch synthase (SSS) and starch branching enzyme (SBE) gradually increased to a peak value, and thereafter declined as grain filling progressed. Enzyme activities in different varieties differed in a same filling stage, and also in the time when the enzyme activity reached a maximum. AGPP and SSS were insensitive to the environmental temperature, but SBE was comparatively sensitive to the temperature, and its activity declined when temperature was too high or too low.  相似文献   

7.
Endosperm texture is an important factor governing the end-product quality of cereals. The texture of wheat (Triticum aestivum L.) endosperm is controlled by puroindoline a and b genes which are both absent in rice (Oryza sativa L.). It has been reported that the endosperm texture of rice can be modified by puroindoline genes. The mechanism, however, by which puroindolines affect the ultrastructure of rice endosperm cells remains to be investigated. In this study, we observed the ultrastructure of endosperm cells and the morphology of isolated starch granules of the transgenic rice expressing the puroindoline b gene. SEM and TEM observations indicated that compound starch granules were embedded within the matrix material in non-transgenic rice, Nipponbare, whereas they were surrounded by spaces in the transgenic rice. The morphology and size of each starch granule were not different between non-transgenic and the transgenic rice. However, the transgenic rice flour showed smaller particle size, higher starch damage, and lower viscosity during gelatinization than that of non-transgenic rice. These results confirm that puroindoline b reduces the grain hardness in rice. Moreover, the results also suggest that puroindoline b functions at the surface of compound starch granules, and not on polygonal starch granules in rice endosperm.  相似文献   

8.
水稻灌浆过程中籽粒淀粉合成关键酶活性与蒸煮食味品质   总被引:17,自引:5,他引:17  
选用稻米蒸煮食味品质有显著差异的4个粳稻品种,对水稻籽粒灌浆过程中淀粉合成关键酶的活性变化及其与蒸煮食味品质关系进行了研究。 不同品质类型的品种间籽粒直链淀粉和支链淀粉含量在灌浆前、中后期表现出差异,这种差异主要表现在灌浆不同时期淀粉积累速率上。籽粒灌浆过程中,不同品质类型的品种中ADPG焦磷酸化酶和可溶性淀粉合成酶活性出现峰值的时间无差异,但淀粉分支酶活性出现峰值的时间,劣质品种明显早于优质品种,而且优质品种灌浆中、后期仍然保持较高水平的酶活性。ADPG焦磷酸化酶、可溶性淀粉合成酶、淀粉分支酶的活性与直链淀粉含量、支链淀粉含量、味度值、RVA谱特性间的相关性和程度因灌浆时期不同而发生变化。在整个灌浆过程中,可溶性淀粉合成酶活性与味度值间的相关均不显著,但灌浆前期和中、后期的ADPG焦磷酸化酶和淀粉分支酶的活性与味度值间呈显著或极显著相关。选择灌浆前期酶活性低或灌浆后期酶活性高的材料,将有利于提高稻米蒸煮食味品质。  相似文献   

9.
[目的]研究水稻产量对不同时期不同类型高温的响应差异,为耐热水稻品种的筛选与培育提供依据.[方法]在桶栽条件下,于人工气候室内,以耐热水稻品种Nagina 22、汕优63和热敏感品种两优培九为材料,设置三个处理时期,即穗分化期、开花期和灌浆期;四种处理温度,即白天高温、夜间高温、全天高温和适宜温度,研究水稻产量和产量构...  相似文献   

10.
Mapping QTL for Heat-Tolerance at Grain Filling Stage in Rice   总被引:7,自引:1,他引:6  
A mapping population of 98 lines (backcross inbred lines, BILs) derived from a backcross of Nipponbare/Kasalath// Nipponbare was planted at two experimental sites, Nanjing and Nanchang, and treated with high and optimal temperature during grain filling, respectively. The grain weight heat susceptibility index [GWHSI= (grain weight at optimum temperature-grain weight at high temperature) / grain weight at optimum temperature ×100] was employed to evaluate the tolerance of rice to heat stress. A genetic linkage map with 245 RFLP markers and a mixed linear-model approach was used to detect quantitative trait loci (QTLs) and their main effects, epistatic interactions and QTL×environment interactions (Q×E). The threshold of LOD score=2.0 was used to detect the significance of association between marker and trait. A total of 3 QTLs controlling heat tolerance during grain filling were detected, on chromosomes 1, 4 and 7, with LOD scores of 8.16, 11.08 and 12.86, respectively, and they explained the phenotypic variance of 8.94, 17.25 and 13.50 %, correspondingly. The QTL located in the C1100-R1783 region of chromosome 4 showed no QTL×environment interaction and epistatic effect, suggesting that it could be stably expressed in different environments and genetic backgrounds, and thus it would be valuable in rice breeding for heat tolerance improvement. This QTL allele, derived from Kasalath reduced 3.31% of the grain weight loss under heat stress. One located between R1613-C970 on chromosome 1 and the other between C1226-R1440 on chromosome 7, with additive effect 2.38 and 2.92%, respectively. The tolerance alleles of both these QTLs were derived from Nipponbare. Both of these QTLs had significant QTL×environment interactions, and the latter was involved in epistatic interaction also. Eight pairs of epistatic effect QTLs were detected, one pair each on chromosomes 1,2,3, 5, 7, 8, 10 and 12. The results could be useful for elucidating the genetic mechanism of heat-tolerance and the development of new rice varieties with heat tolerance during grain filling phase.  相似文献   

11.
The removal of phosphorus (P) from fields in the harvested seeds of staple crops is a major driver of the global P cycle, and consequently, there is interest in breeding grain crops with lower seed P concentrations. While it is expected that a reduction in seed total P would result in lower concentrations of the P-rich anti-nutrient phytate, the potential consequences for starch lysophospholipids (LPLs), which affect rice grain quality and health outcomes in humans, are unknown. We examined the accumulation of phytate and starch LPLs in developing indica (cv. IR64) and japonica (cv. Nipponbare) rice grains as well as the stability of starch LPLs and phytate under varying P supply treatments in hydroponics. Source-sink relationships during grain filling (drought and floret abortion) were also investigated in a pot study. Accumulation of phytate and starch LPLs in seeds continued until 18 days after anthesis (DAA) in cv. Nipponbare and 21 DAA in cv. IR64, which mirrored the accumulation of biomass in seeds. In the hydroponic study, permanent withdrawal of P from the nutrient solution at anthesis (until maturity) led to significant reductions in both phytate and starch LPLs with a similar trend observed when P was withdrawn at 8 DAA. In the pot study using soil, alteration of source-sink systems through drought stress during grain filling or floret abortion (manual removal of the top half of each panicle) also led to significant reductions in grain phytate and starch LPLs compared to control plants. These results indicate that in addition to affecting phytate concentrations, reduced P supply to rice plants during grain filling and alteration of source-sink relationships also impacts starch LPL concentrations. Given these complexities, breeding and selection for reduced seed P concentration in rice and other cereals should be undertaken with caution.  相似文献   

12.
综述了稻米食味品质对结实期温度的响应特征及稻米食味品质与直链淀粉、支链淀粉和蛋白质含量的关系,并从籽粒灌浆过程中淀粉与蛋白质合成代谢角度阐明了水稻食味品质对结实期温度响应的生理基础,最后展望了结实期温度胁迫对稻米食味品质影响的研究方向。  相似文献   

13.
Eating or cooking quality is one of the important quality of rice. Amylose content, RVA properties and taste meter value are three important indexes for evaluating cooking and eating quality of rice, which are determined by the chemical and physical com- …  相似文献   

14.
【目的】具有较低直链淀粉含量(5%~12%)的优良食味软米在国内市场上广受消费者欢迎,然而不同软米品种间稻米品质表现差异较大,造成这种差异的原因尚未明确。因此,有必要深入研究不同类型软米理化品质的差异及其成因。【方法】选取了江苏地区具有显著品质差异的4个软米品种、2个糯稻品种和2个常规品种(均为粳稻品种)为对象,对其稻米理化品质和淀粉结构进行了系统的比较分析。【结果】测序结果表明,软米品种南粳5055和南粳9108携带Wxmp等位基因,而软米品种香软玉和武香粳113携带跟2个常规粳稻品种相同的Wxb等位基因。品质分析表明,香软玉和武香粳113稻米较另两个软米品种中的直链淀粉含量更低,籽粒胚乳透明度更差;4个软米类稻米胚乳淀粉粒内部存在明显的孔隙,并且稻米胚乳越不透明,孔隙越明显;较低直链淀粉含量的软米食味表现更佳,这可能与低直链淀粉含量稻米具有更低的冷胶黏度、较大的崩解值和较小的消减值有关。淀粉精细结构测定表明,与常规粳稻米相比,软米的直链淀粉组分占比较低,而支链淀粉短链组分占比较高。【结论】目前江苏地区软米品种间存在显著的遗传和理化品质特性的差异,这为新型软米品种的培育和优异基因的克...  相似文献   

15.
【目的】旨在为阐明灌浆成熟期氮素营养对水稻淀粉品质影响机理以及建立优质高产水稻栽培技术提供理论依据。【方法】选用4个籽粒直链淀粉含量差异显著的粳稻品种,通过盆栽试验研究氮素营养对稻米淀粉组分和蛋白质含量及稻米蛋白质水解对淀粉黏滞特性的影响,并分析氮素营养对灌浆过程中籽粒蔗糖合酶(SuSy)、蔗糖磷酸合酶(SPS)、蔗糖酸性转化酶(AI)活性及OsGBSSⅠOsISAⅠOsSBEⅠOsSBEⅡ基因转录表达量的影响。【结果】结果表明,籽粒支链淀粉含量对氮素营养很敏感,灌浆成熟期氮素营养能改变籽粒淀粉组分含量;施氮条件下,高直链淀粉含量品种蒸煮食味品质下降更加明显,去除稻米蛋白质可明显提高稻米黏滞特性,蛋白质对淀粉黏滞特性的影响很大;增加灌浆成熟期氮素营养能显著或极显著提高籽粒SuSy和AI活性,显著抑制籽粒SPS活性;灌浆成熟期氮素营养能改变灌浆不同时期籽粒OsGBSSⅠOsISAⅠOsSBEⅡ基因转录表达量,以致灌浆过程中这些基因的转录表达量变化动态发生改变,但OsSBEⅠ基因转录表达量不因氮素营养而发生改变;受氮素营养的影响,灌浆起始期籽粒OsGBSSⅠ基因表达量明显上调,而灌浆中后期明显下调;氮素营养明显抑制灌浆成熟期籽粒OsISAⅠ基因和灌浆中后期的OsSBEⅠ基因转录表达,显著提高灌浆前期和中期的籽粒OsSBEⅠ基因转录表达量;氮素营养能抑制灌浆起始期籽粒OsSBEⅡ基因的转录表达,而提高灌浆中后期的基因转录表达。【结论】灌浆成熟期氮素营养除了通过蛋白质含量对淀粉品质产生影响外,还通过调控淀粉合成相关的酶活性和基因表达量等生理环节对淀粉含量和精细结构起作用,最终改变稻米黏滞特性和食味品质。  相似文献   

16.
 对65个不同来源的早籼稻品种进行了灌浆期耐热性的鉴定研究,并比较了耐热性相差很大的品种灌浆期高温胁迫前后的生理反应。结果表明:秕粒率、实粒重、整精米率、垩白度、蛋白质含量的胁迫指数可作为水稻品种灌浆期耐热性田间直接鉴定的 5个指标,可采用隶属函数值法对各品种的耐热性进行综合评价;不同品种的耐热性存在相当大的差异,筛选出了几个耐热性很强的品种;高温胁迫严重影响水稻的光合能力,但耐热性强的品种剑叶的光合速率高温胁迫后下降幅度明显较小,胁迫解除后恢复的程度也更高,叶绿素含量、RuBPc 活性及内源多胺含量的变化趋势与光合速率相一致,是水稻耐高温逼熟的重要生理特征。  相似文献   

17.
对65个不同来源的早籼稻品种进行了灌浆期耐热性的鉴定研究,并比较了耐热性相差很大的品种灌浆期高温胁迫前后的生理反应。结果表明:秕粒率、实粒重、整精米率、垩白度、蛋白质含量的胁迫指数可作为水稻品种灌浆期耐热性田间直接鉴定的 5个指标,可采用隶属函数值法对各品种的耐热性进行综合评价;不同品种的耐热性存在相当大的差异,筛选出了几个耐热性很强的品种;高温胁迫严重影响水稻的光合能力,但耐热性强的品种剑叶的光合速率高温胁迫后下降幅度明显较小,胁迫解除后恢复的程度也更高,叶绿素含量、RuBPc 活性及内源多胺含量的变化趋势与光合速率相一致,是水稻耐高温逼熟的重要生理特征。  相似文献   

18.
水稻灌浆期耐热害的数量性状基因位点分析   总被引:14,自引:1,他引:14  
 利用由98个家系组成的Nipponbare / Kasalath // Nipponbare回交重组自交系群体及其分子连锁图谱,以粒重感热指数\[(适温粒重-高温粒重)/适温粒重×100\]为评价指标,采用混合线性模型的QTL定位方法,对水稻灌浆期耐热性的主效、上位性数量性状基因位点及其与环境的互作进行分析。共检测到3个灌浆期耐热性主效QTL,分别位于第1、4和7染色体上,LOD值为8.16、11.08和12.86,贡献率8.94%、17.25%和13.50%。其中位于第4染色体标记C1100-R1783之间的QTL,没有显著的上位性和环境互作效应,表明在不同环境和遗传背景中的表达较为稳定,在水稻耐热性育种中可能具有较大的利用价值,其耐热性等位基因来自亲本Kasalath,高温热害时可减少粒重损失3.31%。位于第1染色体标记R1613-C970之间的QTL和第7染色体标记C1226-R1440之间的QTL,耐热性等位基因来自亲本Nipponbare,分别可减少粒重损失2.38%和2.92%。这两个QTL均具有与环境的互作效应,其中第7染色体上的QTL还和其他基因位点有互作。检测到8对加性×加性上位性互作QTL,分布于第1、2、3、5、7、8、10和12染色体上。没有检测到上位性QTL与环境的互作效应。  相似文献   

19.
灌浆结实期不同时段温度对水稻结实与稻米品质的影响   总被引:31,自引:4,他引:31  
利用人工气候箱在水稻灌浆结实期不同时段进行温度试验,研究温度对水稻结实与稻米品质的影响。结果表明,灌浆结实期40℃高温处理后籽粒结实率显著降低,粒重下降,外观品质和食味品质变差。不同水稻品种对灌浆结实期温度的响应表现不一致。在试验条件下,华粳1号开花受精的敏感温度为35℃,而特优559开花、灌浆结实的最适温度为30℃,该温度处理结实率、粒重较高,外观品质以及食味品质较优。此外,灌浆结实期不同时段的高温对水稻结实与稻米品质的影响也存在显著差异:结实率对高温最敏感的时期是开花后1~5 d,粒重对高温最敏感的时期是开花后11~20 d;而温度对稻米品质影响最大的时期主要在花后16~20 d,25 d后温度处理影响较小。因此,灌浆前期适宜的温度条件对水稻优质栽培意义重大。  相似文献   

20.
【目的】为了明确灌浆结实前中期不同温度对晚粳稻籽粒灌浆、总淀粉及其组分含量的影响特征及其机理,【方法】以优质食味粳稻南粳9108为材料,利用植物培养箱控温,于水稻灌浆结实期设置高温(HT,日均温度31℃)、中温(MT,日均温度26℃)和低温(LT,日均温度21℃)三个处理,以自然温度为对照(CK),研究灌浆结实前中期持续高低温对晚粳稻籽粒灌浆、内源激素含量、淀粉及其及合成关键酶活性的影响。【结果】随温度上升(21℃~31℃),晚粳稻结实率和千粒重降低;灌浆前中期籽粒总淀粉积累速率加快,但持续时间短,总含量降低,而直链淀粉含量及其所占比例在整个灌浆期均呈降低趋势;灌浆前中期脱落酸(ABA)含量显著增加,赤霉素(GA3)含量降低,玉米素核苷(ZR)含量呈"先增先降"趋势;MT处理有利于提高灌浆结实期籽粒生长素(IAA)含量,HT和LT处理均降低籽粒IAA含量,LT处理下,IAA含量先降后升,而HT处理籽粒IAA含量一直处于较低水平;籽粒可溶性淀粉合成酶(SSS)活性与ZR变化规律相似,也呈"先增先降"趋势,但二者在灌浆结实期并不同步;淀粉分支酶(SBE)活性增加而淀粉脱分支酶(DBE)活性降低。【结论】不同温度显著影响晚粳稻籽粒内源激素含量和淀粉合成关键酶活性的变化,进而影响晚粳稻籽粒灌浆、总淀粉及其组分的积累。  相似文献   

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