水稻心白突变体xb1的淀粉理化特性分析

淀粉是稻米胚乳的主要成分,解析其理化特性对改良水稻品质具有十分重要的意义。为了探究心白稻米淀粉的理化特性,本研究以经EMS诱导粳稻品种辽星1号获得的心白突变体xb1为材料,利用扫描电镜、激光粒度分析仪、RVA快速黏度分析仪、差示扫描量热仪等方法,对形态结构、淀粉颗粒结构和粒径分布、糊化特性及热力学特性等进行了分析。结果表明,与野生型相比,突变体xb1籽粒的粒宽、粒厚和千粒重均显著降低;淀粉结构和淀粉粒粒径分布均发生改变,淀粉粒粒径值大于13左右的淀粉粒数量明显低于野生型;突变体种子中蛋白质含量极显著高于野生型,总淀粉含量极显著低于野生型,而直链淀粉含量没有明显改变;在支链淀粉分支结构上,聚合度(DP)在6~9之间的短链及25~35之间的中长链比例有所增加,而DP值在10~24之间的中短链及36~50之间的长链比例有所减少;突变体xb1淀粉的糊化起始温度(To)、峰值温度(Tp)、终止温度(Tc)和糊化距离(Tr)均未发生明显改变,只有热焓值(△H)极显著提高。同时,突变体xb1的RVA谱特征值中,热浆黏度(HPV)、峰值黏度(PKV)、冷胶黏度(CPV)和消减值(SBV)极显著提高,崩解值(BDV)和回复值(CSV)极显著降低。本研究结果为探索垩白形成的生理机制以及进一步的基因克隆奠定了基础。     

胚乳突变体在水稻淀粉合成调控研究中的作用

淀粉作为稻米最主要的储藏物质,其含量、结构及其特性影响水稻的产量和品质。随着分子生物学的不断发展,通过筛选胚乳突变体,克隆了大量调控水稻淀粉合成相关的基因,使淀粉生物合成的机理也逐渐清晰。本文综述了水稻淀粉结构、淀粉生物合成,以及淀粉突变体,包括糯性、高直链淀粉、垩白、粉质、暗色、糖质、皱缩等突变体的突变基因克隆及功能研究最新进展,以期为进一步阐明水稻淀粉生物合成的途径,以及优质水稻新品种的培育提供参考。     

不同地区再生季稻米蒸煮食味品质及淀粉结构与性能差异研究

为探究再生季稻米蒸煮食味品质在不同生态区的差异,并从淀粉结构与性能角度揭示其差异机理,本试验以杂交稻甬优4149、晶两优1468为供试材料,按再生稻栽培模式分别种植于肇庆、长沙、信阳3个生态区,研究了再生季齐穗后温光条件对稻米蒸煮食味品质、RVA 谱特性及淀粉热性能和晶体结构的影响。结果表明,肇庆试验地区的再生季稻米蒸煮食味品质优于长沙、信阳,其直链淀粉含量适中,胶稠度长,糊化温度较低,总淀粉含量较高。再生季齐穗后温光条件与稻米胶稠度、糊化特性以及淀粉热性能和相对结晶度具有显著相关性。籽粒灌浆初中期的温度和光照对再生季稻米淀粉的糊化性能与热性能影响较大;淀粉的相对结晶度受中后期的日均温度影响最为显著。本研究将有助于绿色农业的可持续发展和优质稻米的生产。     

双胚苗水稻种子的扫描电镜观察

以同源四倍体双胚苗水稻品系(D07-04-01)及其衍生后代(01-04-01,D07-02-01,DP07-04-01)为研究材料,利用扫描电镜技术和X射线衍射技术对稻米的垩白性状、淀粉粒的形态特征和淀粉的晶体特性进行了初步研究。研究结果表明,与其他材料相比,双胚苗二倍体品系D07-02-01的垩白粒率、垩白度和垩白大小均最小,稻米的自然横断面中部无明显辐射状,裂痕少且浅,"粗短形"的不规则多边形胚乳细胞与淀粉粒分布均匀,多面体状淀粉粒呈现典型的晶体结构,数目多且排列致密,球形单粒淀粉粒和块状不规则的复粒淀粉体数目比较少,相对结晶度高,直链淀粉含量低,即外观品质和食味品质均比其他四倍体品系好。     

气流粉碎对玉米淀粉结构及理化性质的影响

为研究气流粉碎对玉米淀粉结构及理化性质的影响,该文以普通玉米淀粉为原料,通过流化床气流粉碎处理,采用扫描电子显微镜、偏光显微镜、粒度分析仪、X-射线衍射仪、红外光谱仪、差示扫描量热仪、快速黏度分析仪等分析手段研究经微细化处理前后玉米淀粉颗粒形貌、晶体结构、热力学特性、糊化特性、溶解度和膨胀度、冻融稳定性、持水能力等结构及性质的变化。结果表明,微细化处理后,淀粉颗粒形变的不规则,粒径明显减小,中位径(D50)由14.37μm减小到5.25μm,偏光十字减少,相对结晶度由33.43%降低至15.46%,淀粉颗粒结晶结构被破坏,由多晶态向无定形态转变,粉碎过程淀粉无新的基团产生;热焓值、糊化温度均降低,热糊稳定性好;溶解度、膨胀度均升高,持水能力增加,冻融稳定性好,产生较好的热糊稳定性和冷糊力学稳定性,该研究为玉米淀粉的深度加工与应用提供了理论依据及技术支撑。     

垄沟集雨覆盖对旱作马铃薯块茎淀粉颗粒形态、颗粒分布及糊化特性的影响

为探讨垄沟集雨覆盖栽培对旱作马铃薯块茎形成过程中淀粉颗粒形态、颗粒分布及糊化特性的影响,以马铃薯栽培品种青薯9号为材料,设置全膜双垄(M2)和地膜垄作(M1)覆盖栽培模式,以露地平播为对照(M0),采用扫描电镜、激光粒度仪、粘度分析仪,测定马铃薯块茎形成过程中淀粉的颗粒形态、分布及糊化特性指标。结果表明,从块茎发育全程来看,全膜双垄覆盖栽培模式下马铃薯块茎淀粉颗粒的平均粒径、峰值粘度、低谷粘度及最终粘度整体较高;地膜垄作覆盖栽培模式下马铃薯块茎淀粉颗粒的离散度、崩解值、回生值整体较高;各栽培模式间马铃薯块茎淀粉颗粒形态、糊化温度无显著差异;马铃薯淀粉颗粒的平均粒径与各阶段粘度呈显著正相关,与糊化温度呈显著负相关,与崩解值、回生值无显著相关性;马铃薯淀粉颗粒的离散度与淀粉的糊化特性各指标均无显著相关性。综上,全膜双垄覆盖栽培模式所产生的淀粉品质较好。     

水稻低淀粉粘滞突变体的理化特性和淀粉结构

以水稻低淀粉粘滞突变体RSV-1及其野生型品种II-32B为材料,研究了低淀粉粘滞突变的理化特性和淀粉结构。结果表明,低淀粉粘滞突变体的最高粘度、热浆粘度和冷胶粘度明显小于野生型,但表观直链淀粉含量、胶稠度、碱消值均大于野生型,达最高粘度时间接近,糊化过程中所需能量较低,糊化过程较长;淀粉晶体表现为C型结构,淀粉颗粒与野生型的正六面体颗粒完全不同,呈大小不等的无规则形,淀粉晶体及颗粒结构的改变可能是导致淀粉粘滞性下降及其他理化指标改变的重要原因。     

振动式超微粉碎处理时间对绿豆淀粉理化性质的影响

为研究振动式超微粉碎处理时间对绿豆淀粉理化性质的影响,提高淀粉类制品中抗性淀粉的含量,该文以绿豆淀粉为研究对象,通过振动式超微粉碎处理,研究了处理时间对样品的粒度分布、结晶度、溶解度、膨润力、凝沉性、老化值及提高抗性淀粉形成等性质的影响。研究结果表明:随着振动式超微粉碎处理时间的延长,绿豆淀粉颗粒的平均粒径、中位径(D50)和粒径分布的离散度增大,比表面积总体呈下降趋势;淀粉晶体的有序化程度降低,无定形化程度逐渐增强;在同一温度下,样品的溶解度大幅增加,同一处理时间的绿豆淀粉其溶解度随着温度的升高不断增加,低温膨润力随处理的时间延长而增加,高温膨润力随处理的时间延长而降低,且随着处理时间的延长,温度对膨润力的影响逐渐减小;绿豆淀粉糊的凝沉程度变高、凝沉速度变快,超微处理20 min可明显提高绿豆淀粉的老化程度,对提高抗性淀粉的形成具有促进作用,该研究为绿豆抗性淀粉的生产、提高绿豆淀粉制品中抗性淀粉含量的工艺改进提供了理论依据及技术支撑。     

红花甜荞籽粒淀粉的理化特性

为明确红花甜荞籽粒淀粉理化特性,选用12个红花甜荞品种为材料,分析了其淀粉颗粒形态、粒度分布特征、直链淀粉含量、溶解度、透明度及糊化特性以及品种间差异。结果表明,红花甜荞淀粉颗粒多为不规则多角形和球形,多角形多且颗粒较大,球形颗粒较少且颗粒小,淀粉粒径范围介于0.38～25.78 μm;品种间淀粉粒径、直链淀粉含量、溶解度、透明度存在显著性差异（P＜0.05）;起始糊化温度在62.80～72.60℃,峰值黏度在126.58～141.00 RU;品种间谷值黏度、最终黏度、破损值、回生值和峰值时间差异显著。定边甜荞谷值黏度大,为118.00 RU;破损值及回生值小,分别为13.00和57.33 RU;达到峰值时间最长,达5.80 min;淀粉糊稳定性好。因此,在进行优质专用品种选育和产品加工时,应根据不同目标选择不同的甜荞品种。     

优质小麦子粒淀粉组成与糊化特性对氮素水平的响应

在大田条件下,选用3个不同类型优质小麦品种: 豫麦47（强筋品种）、山农8355（中筋品种）和豫麦50（弱筋品种）,设置3个氮肥水平: 施N 0、15和30 g/m2,研究了小麦子粒淀粉的粒度分布、直支链淀粉组成、糊化特性及其对氮素水平的响应。结果表明,优质小麦子粒中淀粉粒的粒径分布范围为1～45 μm,其数目分布呈单峰或双峰曲线变化,体积和表面积分布均呈双峰曲线变化,峰谷位于10 μm处; 据此可将淀粉粒分为两种类型: A型大淀粉粒（10～45 μm）和B型小淀粉粒（1～10 μm）。优质小麦子粒淀粉粒组成存在显著的基因型差异。强筋品种豫麦47子粒中B型淀粉粒的比例较高,弱筋品种豫麦50子粒中A型淀粉粒的比例较高,中筋品种山农8355居中。施氮水平对优质小麦子粒中淀粉的粒度分布存在显著影响。在本试验条件下,随氮素水平的提高,强筋品种豫麦47子粒中A型淀粉粒的比例提高,而B型淀粉粒的比例下降; 增施氮肥后弱筋品种豫麦50和中筋品种山农8355子粒中B型淀粉粒的比例增大,而A型淀粉粒的比例降低,且前者变化的幅度较大。适量增施氮肥提高优质小麦子粒中的淀粉含量,氮肥用量进一步增大后,淀粉含量降低; 增施氮肥后优质小麦子粒中直链淀粉含量降低。增施氮肥对优质小麦子粒淀粉的糊化特性存在较大影响,且此影响的趋势因基因型和施氮量而异。其中强筋品种豫麦47表现为低谷粘度、最终粘度、反弹值、糊化温度和峰值时间提高,而高峰粘度和稀懈值降低; 当氮肥用量增大至30 g/m2时,糊化温度和峰值时间降低,而以粘度为单位的参数均提高。弱筋品种豫麦50表现为增施氮肥后,RVA参数呈下降趋势,与之相对应中筋品种山农8355的呈上升趋势。相关性分析表明,B型淀粉粒的数目、体积和表面积比例与高峰粘度和稀懈值存在显著正相关; 与低谷粘度、最终粘度和反弹值存在显著负相关。子粒中直链淀粉含量、支链淀粉含量和总淀粉含量与高峰粘度和稀懈值呈显著负相关,与低谷粘度、最终粘度、反弹值和峰值时间呈一定程度正相关; 直链淀粉相对含量与RVA特征参数之间的相关趋势与子粒中直链淀粉含量的趋势一致,但均未达显著水平。由此可以认为,氮肥通过调控小麦子粒中淀粉的直、支链组成和粒度分布而影响其糊化特性。     

玉米淀粉制备双醛淀粉的试验

双醛淀粉用途广泛，但在国内几乎没有生产和应用。文中对双醛淀粉的制备工艺进行了系统研究，得出了制备双醛淀粉的最佳工艺条件。试验结果表明：在所选参数下，高碘酸钠氧化淀粉时，高碘酸钠应稍过量；NaIO₄/Starch摩尔比=1.1/1；NaIO₄浓度为0.7 M；反应温度35～40℃；反应时间控制在3 h；pH值在1.2～1.5为好；所得产品中淀粉的醛基含量在95%以上。     

Starch Characteristics Influencing Resistant Starch Content of Cooked Buckwheat Groats

Cooked buckwheat groats are suggested to contain a greater amount of resistant starch (RS) than cereal grains. High RS content, in addition to dietary fibers present in groats, contributes to the low‐calorie, high‐fiber food status of buckwheat. Six buckwheat genotypes exhibiting high, medium, and low RS content of cooked groats were selected, and starches were isolated to determine their functional properties to explore the possible cause of high RS content of cooked buckwheat groats. Apparent and actual amylose contents were 27.4 and 31.6–34.5% in high, 27.4–28.6 and 32.5–33.7% in medium, and 21.4–25.6 and 24.5–32.0% in low RS genotypes, respectively. Genotypes of high RS content exhibited greater amylose leaching based on total starch content during cooking than genotypes of low RS content, mainly because of higher amylose content in the former than latter. Genotypes of low RS content exhibited a relatively high content of amylose‐lipid complexes, as determined with a differential scanning calorimeter (DSC). Gelatinization enthalpy and degree of amylopectin retrogradation determined with a DSC were not related to RS content. An evident relationship was observed between RS content of cooked groats and amylose retrogradation determined by gel hardness (r = 0.91, P < 0.05), cohesiveness (r = 0.89, P < 0.05), and syneresis (r = 0.88, P < 0.05). Increases in starch amylose content, amylose leaching capacity, and amylose retrogradation, as well as a decrease in the amount of amylose‐lipid complexes all appear to be related to high RS content of cooked buckwheat groats.     

Exotic Corn Lines with Increased Resistant Starch and Impact on Starch Thermal Characteristics

Ten parent corn lines, including four mutants (dull sugary2, amylose‐extender sugary2, amylose‐extender dull, and an amylose‐extender with introgressed Guatemalen germplasm [GUAT ae]) and six lines with introgressed exotic germplasm backgrounds, were crossed with each other to create 20 progeny crosses to increase resistant starch (RS) as a dietary fiber in corn starch and to provide materials for thermal evaluation. The resistant starch 2 (RS2) values from the 10 parent lines were 18.3–52.2% and the values from the 20 progeny crosses were 16.6–34.0%. The %RS2 of parents was not additive in the offspring but greater RS2 in parents was correlated to greater RS2 in the progeny crosses (r = 0.63). Differential scanning calorimetry (DSC) measured starch thermal characteristics, revealing positive correlations of peak gelatinization temperature and change in enthalpy with %RS2 (r = 0.65 and r = 0.67, P ≤ 0.05); however, % retrogradation (a measure of RS3) and retrogradation parameters did not correlate with %RS2. The %RS2 and onset temperature increased with the addition of the ae gene, likely because RS delays gelatinization.     

玉米淀粉的塑化及其注射成型一次性餐具特性研究

通过玉米淀粉中加入增塑剂，制备热塑性淀粉，并以热塑性淀粉用注射成型法制造一次性生物降解餐具。研究了3种增塑剂的最佳用量，采用红外及X-衍射对淀粉塑化本质进行表征，进一步探讨了以塑化淀粉制造的一次性餐具的物理性能、卫生指标及其生物降解特性。结果表明：三种增塑剂的最佳用量为15%水、5%丙三醇、5%丙二醇；淀粉经塑化后，次价键断裂、晶区被破坏，使淀粉具备热塑性；以该塑化淀粉制造的一次性餐具，其物理性能、卫生指标达到纸餐具、塑料餐具的实际使用性能，淀粉餐具具有快速的生物降解特性。该研究结果为用淀粉制造一次性生物降解餐具、消除“白色污染”，提供了理论依据和实际参考。     

Resistant Starch and Starch Thermal Characteristics in Exotic Corn Lines Grown in Temperate and Tropical Environments

Corn as a food that is heated and cooled to allow starch retrogradation has higher levels of resistant starch (RS). Increasing the amount of RS can make corn an even healthier food and may be accomplished by breeding and selection, especially by using exotic germplasm. Sixty breeding lines of introgressed exotic germplasm backgrounds, selected for high yield, were grown in three tropical and temperate locations and analyzed for starch thermal characteristics and RS levels. Although actual values for all starch characteristics were within normal levels, most characteristics had significant genotypic effects, and all had significant location effects. Thermal properties of retrograded starch were more influenced by the environment than the thermal properties of raw starch, making retrograded starch traits more heritable than raw starch traits. This suggests that a breeding strategy based on retrograded starch traits will have a better chance of success than a breeding strategy based on raw starch traits. A significant genotype effect for RS levels indicates that genotypic selection to raise the level of RS and increase the healthful aspects of corn food should be successful. Significant location effects indicate that breeders using winter nurseries to accelerate their breeding progress need to be careful when making selections using RS data collected on seed grown in the tropics. A small but highly significant correlation between RS and some thermal characteristics, especially percentage of retrogradation, indicates that we may be able to select promising genotypes for RS selection based on our extensive database of thermal characteristics collected on a wide number of diverse corn lines.     

Increasing Slowly Digestible Starch Content of Normal and Waxy Maize Starches and Properties of Starch Products

Changes in the digestibility and the properties of the starch isolated from normal and waxy maize kernels after heat‐moisture treatment (HMT) followed by different temperature cycling (TC) or isothermal holding (IH) conditions were investigated. Moist maize kernels were heated at 80°C for 2 hr. The HMT maize kernels were subjected to various conditions designed to accelerate retrogradation of the starch within endosperm cells. Two methods were used to accelerate crystallization: TC with a low temperature of –24°C for 1 hr and a high temperature of 20, 30, or 50°C for 2, 4, or 24 hr for 1, 2, or 4 cycles, and IH at 4, 20, 30, or 50°C for 24 hr. The starch granules were then isolated from the treated kernels. The starch isolated from HMT normal maize kernels treated by TC using –24°C for 1 hr and 30°C for 2 hr for 2 cycles gave the greatest SDS content (24%) and starch yield (54%). The starch isolated from HMT waxy maize kernels treated by TC using –24°C for 1 hr and 30°C for 24 hr for 1 cycle had an SDS content of 19% and starch yield of 43%. The results suggest that TC after HMT changes the internal structure of maize starch granules in a way that results in the formation of SDS (and RS). They also suggest that thermal treatment of maize kernels is more effective in producing SDS than is the same treatment of isolated starch. All starch samples isolated from treated normal maize kernels exhibited lower peak viscosities, breakdown, and final viscosities and higher pasting temperatures than did the control (untreated normal maize starch). Although peak viscosities and breakdown of the starch isolated from treated waxy maize kernels were similar to those of the control (untreated waxy maize starch), their pasting temperatures were higher. The starch isolated from treated normal and waxy maize kernels with the highest SDS contents (described above) were further examined by DSC, X‐ray diffraction, and polarized light microscopy. Onset and peak temperatures of gelatinization of both samples were higher than those of the controls. Both retained the typical A‐type diffraction pattern of the parent starches. The relative crystallinity of the starch from the treated normal maize kernels was higher than that of the control, while the relative crystallinity of the starch from the treated waxy maize kernels was not significantly different from that of the control. Both treated starches exhibited birefringence, but the granule sizes of both starches, when placed in water, were slightly larger than those of the controls.     

Extrusion and Characterization of Starch Films

Starch plasticized with water, glycerol, and stearic acid was extruded and sheeted into films 0.4–0.6 mm thick. The ingredients were extruded in a conical twin‐screw extruder at a temperature profile of 50–120–120–120°C and a screw speed of 45 rpm. The effects of glycerol, water, and stearic acid on selected physical and functional properties of the films were studied. The tensile strength, tensile strain at break, and Young's modulus were 0.23–2.91 MPa, 45.79–90.83%, and 2.89–37.94 MPa, respectively. Differential scanning calorimetry thermograms exhibited two glass transitions and multiple melting endotherms, including that of amylose‐lipid complexes formed during extrusion. The enthalpy of gelatinization of starch in the extruded films was 0.7–4.1 J/g and was dependent largely on the plasticizer content. Fourier‐transform infrared spectra revealed significant interactions between the starch and plasticizer but the peaks shifted to higher wave numbers with increasing glycerol content. During extrusion in the presence of glycerol, the A‐type crystalline structure of starch was transformed to B‐type. It also was observed that the V_h crystallinity increased with increase in glycerol content due to tight packing of starch chains. The water vapor permeabilities of the starch films were 12.3–19.9 g·mm/hr·m²·kPa.     

陇薯系列高淀粉马铃薯品种的淀粉产量及品质性状综合评价

为了评价高淀粉马铃薯品种的综合品质性状,本研究以甘肃省农业科学院育成的15个马铃薯品种(系)为参试材料,2011-2018年连续8年定点田间试验,测定了块茎产量、营养品质(干物质、淀粉、维生素C、粗蛋白)含量和矿物质元素(钾、钙、铁、锌)含量。结果表明,参试材料的块茎产量和营养品质含量均存在显著的基因型、环境及基因型与环境的互作效应,其中块茎产量、淀粉产量、干物质含量、淀粉含量性状的基因型效应大于环境效应,而营养品质中的维生素C、粗蛋白和还原糖含量的环境效应大于基因型效应。参试材料的块茎产量24 549~50 140 kg·hm^-2,淀粉产量4 271~9 298 kg·hm^-2,干物质含量21.07%~30.18%,淀粉含量14.63%~21.83%,维生素C含量12.20~18.95 mg·100g^-1,粗蛋白含量2.17%~2.71%,还原糖含量0.18%~0.43%,钾含量4 316~5 368 mg·kg^-1,钙含量85.10~138.40 mg·kg^-1,铁含量10.17~24.50 mg·kg^-1,锌含量2.45~3.80 mg·kg^-1。大西洋的衍生品种陇薯8号、陇薯9号、陇薯12号、陇薯14号、L0527-2、L08104-12、LZ111和L1149-2淀粉含量均超过18%,其中,L1149-2总体表现优异,其平均块茎产量50 140 kg·hm^-2、淀粉产量9 298 kg·hm^-2、干物质含量26.75%、淀粉含量19.30%、维生素C含量14.62 mg·100g^-1、粗蛋白含量2.52%、还原糖含量0.28%、钾含量5 297 mg·kg^-1、钙含量138.40 mg·kg^-1、铁含量20.40 mg·kg^-1、锌含量3.20 mg·kg^-1;而陇薯5号淀粉产量及营养品质较差。本研究为合理利用陇薯系列高淀粉马铃薯品种提供了科学依据,对改良高淀粉马铃薯品种产量和品质具有指导意义。