不同玉米品种理化特性及淀粉品质的研究

从河北省玉米主栽品种中选取15个玉米品种作为供试材料,对玉米粉的白度、色差、蛋白质含量、脂肪含量、淀粉含量及玉米淀粉透明度、持水率、溶解度与膨胀势、冻融稳定性、凝沉性、糊化特性、凝胶质构以及微观结构进行系统研究。结果表明,不同玉米品种理化性质及淀粉品质间差异显著,并对淀粉品质测定结果进行分析,将所选的15种玉米根据类别分为糯玉米和普通玉米两大类,然后对普通玉米品种进行聚类分析,在平方Euclidean距离为10处,可将14种普通玉米根据淀粉性质分为3类,因此可根据不同加工目的选择不同类型的玉米品种。     

脚板薯淀粉理化特性研究

采用碱法工艺提取脚板薯淀粉,并对其组成、透明度、冻融稳定性、凝沉性、持水性、溶解度、膨胀度、糊化和黏度特性等理化性质进行了分析。结果表明:脚板薯直链淀粉含量为27.05%,淀粉透明度、凝沉性、持水力、热稳定性较好,但冻融稳定性差,不易糊化,脚板薯淀粉的溶解力和膨润力随着温度的升高而增大,与水之间的相互作用较强。     

籽粒苋籽实中淀粉的理化性质

方法：以玉米、木薯和红薯淀粉为对照,研究实验室提取的籽粒苋K112籽实淀粉的溶解度和膨胀度、透明度、沉降曲线、冻融稳定性、老化值、淀粉糊凝胶特性和黏度。结果表明：籽粒苋籽实中淀粉含量为62.49%,其中直链淀粉含量为6.12%;其淀粉的溶解度、透明度、沉降速率低于其他3种淀粉,但膨胀度最高;冻融稳定性较差,淀粉凝胶的硬度一般,黏度较低。     

青香蕉抗性淀粉提取工艺优化及物理特性研究

试验以巴西种青香蕉为试材,在果浆酶、Amylase酶、p H、温度和时间等五个因素作用下,分别提取青香蕉中抗性淀粉,以单因素试验为基础,通过对酶解条件进行优化,从而得到纯度较高的青香蕉抗性淀粉,并对得到的抗性淀粉的透明度、溶解度、持水性及冻融稳定性等物理特性进行研究。结果表明,五个因素对RS纯度的影响大小依次是Amylase酶p H温度果浆酶时间,最佳的酶解工艺参数为:果浆酶用量0.15%,Amylase酶用量0.15%,作用p H 5,作用温度40℃,酶解时间1 h。由此得到的抗性淀粉纯度最高,为96.1%,通过对抗性淀粉透明度、溶解度、持水性及冻融稳定性等物理特性的研究表明,青香蕉抗性淀粉透明度、持水性较好,溶解度低,反复冻融的次数越多,糊化的冻融稳定性越高。     

小米淀粉与玉米淀粉糊性质比较研究

对小米淀粉和玉米淀粉糊性质进行较详细比较研究,包括透明度、冻融稳定性、凝沉性、膨胀力、酸解、酶解,和介质对糊粘度性质影响。结果表明,小米淀粉与玉米淀粉相比,糊的凝胶稳定性好、持水力强、膨胀力高、糊化温度高、热焓变值大、但透明度较差、冻融稳定性不佳、热稳定性差;且氯化钠及糖溶液对小米淀粉糊粘度性质影响较大。     

发芽处理对鹰嘴豆淀粉结构和理化性质的影响

以鹰嘴豆为原料,进行发芽处理,采用碱法提取淀粉,研究不同发芽时间对鹰嘴豆淀粉结构和理化特性的影响。结果表明,发芽的鹰嘴豆淀粉颗粒表面出现裂纹与孔隙,而淀粉的结晶型以及官能团未发生改变。随着发芽时间增加,鹰嘴豆淀粉的直链淀粉含量、碘蓝值和透明度先增后减,膨胀度、析水率先降后升。不同发芽时间淀粉均在24 h内快速凝沉后趋于稳定。发芽处理提高了淀粉的溶解度、持水性、持油性和酶水解率,酸水解率在水解第9天前均大于未发芽淀粉。研究表明,发芽处理能有效改善鹰嘴豆淀粉的结构和理化性质,对开发鹰嘴豆淀粉食品具有促进作用。     

压热法结合反复冻融制备小麦抗性淀粉及其理化性质研究

以小麦淀粉为原料,利用压热法制备抗性淀粉,再经过反复冻融,以期提高产品的抗性淀粉含量。对产品的颗粒形貌、碘吸收曲线、持水力、膨胀度、溶解度等理化性质进行了测定。结果表明,反复冻融次数为6次时得到的小麦抗性淀粉含量最高,为18.31%,经过反复冻融处理的小麦抗性淀粉,颗粒呈不规则形,且在碘吸收曲线中稍微偏向直链淀粉吸收峰,表明其可能含有较多的直链淀粉。与小麦原淀粉相比,经反复冻融处理的小麦抗性淀粉的持水力与膨胀度显著增加,而溶解度显著降低。     

芡实淀粉理化性质的研究

淀粉是芡实中含量最高的组分,其结构和性质对芡实的加工和应用至关重要。研究了芡实淀粉的表面结构,冻融稳定性,溶解度,膨胀度,透明度,直链淀粉和支链淀粉的含量,以及淀粉糊特征曲线等理化性质并与马铃薯和玉米淀粉进行比较。结果表明,与马铃薯和玉米淀粉相比,芡实淀粉的溶解度,膨胀度,透明度以及峰值粘度的值较低,糊化温度的值和直链淀粉的含量较高,冻融稳定性与玉米淀粉相近。     

板栗淀粉糊的特性研究

通过对板栗粉中占主要成分的淀粉的研究,为后期板栗粉冲剂开发提供试验理论依据,探讨了板栗淀粉糊的溶解度和膨润力、透明度、凝沉性、冻融稳定性以及凝胶强度等性质,并与小麦淀粉、玉米淀粉进行了比较。研究结果表明,从85℃开始,板粟淀粉的溶解度和膨润力都有很明显的上升;板栗淀粉的透明度低于小麦淀粉和玉米淀粉相似;凝沉现象随时间的增加比较明显;板栗淀粉的冻融稳定性和凝胶强度性质较其他两种淀粉出色。     

香蕉成熟度对抗性淀粉理化性能的影响

本文提取了大蕉和皇帝蕉两个品种的5个成熟度抗性淀粉,考察了香蕉成熟度对抗性淀粉持水性、溶解度、膨胀度、碘吸收曲线、黏度特性等理化指标的影响。结果表明:大蕉和皇帝蕉成熟度越高,抗性淀粉持水性呈现先增加后下降的趋势,温度升高时差异显著,皇帝蕉抗性淀粉的持水性优于大蕉抗性淀粉;大蕉和皇帝蕉的溶解度随着成熟度的增加而增加,膨胀度无显著变化;随成熟度的增加,大蕉和皇帝蕉抗性淀粉碘吸收曲线峰面积减小,前三级成熟度抗性淀粉峰值黏度和最终黏度随成熟度增加而降低,且大蕉抗性淀粉较皇帝蕉抗性淀粉不易老化。因此,香蕉抗性淀粉的溶解度、膨胀度较低,持水性和抗老化性均较好,作为一种新型淀粉资源,具有广阔的开发和应用前景。     

Effect of repeated freezing-thawing on structural,physicochemical and digestible properties of normal and waxy starch gels

The normal and waxy corn starch gels were subjected to repeated freeze–thaw treatment at 0, 1, 2, 3, 4,5 and 6 cycles with an interval of 24 h, and the effects on structural, physicochemical and digestible properties were investigated. The normal starch gels formed a honeycomb structure while waxy starch gels exhibited a lamellar structure, and the number of holes and lamellas increased with increasing cycles. The X-ray analysis showed that the A-type pattern of starches was converted into the B-type after treatment, and their relative crystallinity increased with the number of increased freeze–thaw cycles. The hardness increased in both normal and waxy starch. The solubility and pasting breakdown viscosity decreased in normal starch while they increased in waxy starch. The pasting peak time, peak viscosity, and setback viscosity increased in normal starch but decreased in waxy starch. The rapidly digested starch (RDS) and slowly digested starch (SDS) content in normal starch increased and non-digestible starch (RS) content decreased whereas the RDS, SDS and RS content in waxy starch was almost unchanged as the freeze–thaw cycles increased. In the meantime, the molecular weight of both normal and waxy starch decreased with freeze–thaw treatment. Therefore, the repeated freeze–thaw treatment can change the physicochemical and digestible properties which could be a basis for starch-based food processing.     

Digestibility of common native starches with reference to starch granule size,shape and surface features towards guidelines for starch-containing food products

Influence of diverse botanical sources (wheat, maize, waxy maize, cassava, potato, rice or waxy rice) on in vitro native starch digestibility has been investigated. Physicochemical properties (chemical composition, particles size and shape, surface features) of starch granules were determined with a view to explaining digestibility differences between samples. Rapidly digestible starch (RDS), slowly digestible starch (SDS) and resistant starch (RS) contents were measured according to Englyst method. Potato starch was shown to be composed of large rounded granules having smooth surfaces, which explains its slow enzymatic breakdown. Potato starch displayed the highest RS (86%) content and the lowest RDS content (9.9%). Since RS positively influences health and SDS may result in cell, tissue and/or organ damages, potato starch is an ideal starch nutrient. Conversely, waxy rice starch was rich in amylopectin and displayed small diameters and angular shapes, which are both known to facilitate enzymatic starch hydrolysis. It exhibited a near-zero RS content (0.9%) and a high RDS fraction (60%). According to this study, potato starch exhibited the best nutrient profile, followed up in this order by cassava, waxy maize, wheat, maize and waxy rice starches.     

超声波处理对马铃薯全粉理化性质和消化特性的影响

以马铃薯全粉为原料,研究超声处理对马铃薯全粉理化性质和消化特性的影响。结果表明:超声处理使得马铃薯全粉的结晶度增大,晶体结构明显改变,溶解度、膨胀度、吸油性、崩解值、糊化温度和消化特性显著降低。随着超声波处理时间的延长,马铃薯全粉的结晶度、峰值黏度、谷值黏度和最终黏度先升高后降低。随着超声波处理时间的延长,快消化淀粉(RDS)含量降低,慢消化淀粉(SDS)和抗性淀粉(RS)含量升高。研究表明,超声处理显著影响马铃薯全粉的理化性质和消化特性(P0.05)。     

Effect of Extrusion on Physicochemical Properties,Digestibility, and Phenolic Profiles of Grit Fractions Obtained from Dry Milling of Normal and Waxy Corn

Extrusion behavior of grits obtained from 3 successive reductions of dry milling of 2 normal corn types and 1 waxy corn was studied at different extrusion temperatures (ET). The grit from each reduction stage (RS) showed the presence of base‐hydrolyzed bound protocatechuic acid, p‐coumaric acid, sinapic acid, ferulic acid, and quercetin, and the concentrations of these decreased after acid hydrolysis and that of gallic acid increased. African tall grit from all RSs showed the highest average specific mechanical energy (SME) and torque, while waxy corn grit had the lowest. Corn extrudates showed an increase in water solubility index (WSI) and a decrease in water absorption index (WAI), as well as in expansion ratio (ER) with an increase in ET. Extrudates from each corn type showed an increase in rapidly digestible starch (RDS) and a decrease in slowly digestible starch (SDS) and resistant starch with an increase in ET. Most of the phenolics were present in bound form in extrudates, and quercetin, and catechin observed in grit were not present in extrudates. Frying of extrudates showed lower L^* and higher a^* and b^* when compared to color parameters of raw extrudates. Lower expansion of fried extrudates from waxy corn than those from other corn types may be related to its higher protein and fat contents and to lower amylose content.     

淀粉凝胶储藏过程中消化特性和质构特性的变化

采用酶解法和全质构分析分别测定了红薯、绿豆和马铃薯淀粉凝胶在储藏过程中的消化特性和质构特性,并对消化特性与质构特性指标之间进行简单相关和逐步回归分析。结果表明:在25℃储藏10 d内,绿豆淀粉凝胶的老化性能强于红薯淀粉和马铃薯淀粉。淀粉凝胶的消化率降低,慢消化淀粉和抗性淀粉含量增加,快消化淀粉含量降低;淀粉凝胶的硬度随储藏时间的延长逐渐增加,回复值则逐渐减小。快消化淀粉含量、硬度和回复值可作为淀粉凝胶类食品的老化评价指标。     

湿热处理蜡质玉米淀粉消化性研究

主要研究湿热处理对蜡质玉米淀粉消化性影响,通过测定不同处理条件下快消化淀粉,慢消化淀粉和抗性淀粉含量以评价其消化性。研究结果表明,随水分含量、处理温度升高和处理时间延长,蜡质玉米快消化淀粉含量显著下降,而慢消化淀粉和抗性淀粉含量明显上升。     

茶叶乙醇提取物对蜡质玉米淀粉回生性质的影响

以蜡质玉米淀粉（waxy corn starch,WCS）为原料,研究不同添加量（1.0%、2.5%、5.0%、10.0%）茶叶乙醇提取物（ethanol extract of tea,EET）与WCS共糊化后的相互作用以及对其透光率、老化度、溶解度、膨胀度、凝胶强度、糊化及回生特性、结晶结构、微观结构及体外消化性能的影响。结果表明：EET的添加对WCS的理化性质、回生性质及体外消化性能影响显著。随着EET添加量的增加,WCS的溶解度、膨胀度逐渐增加,而WCS的凝胶强度逐渐下降;与对照组相比,当EET添加量为2.5%时,WCS的老化度、糊化焓值、回生焓值、回生率、1047/1022的比值以及相对结晶度均有所下降,说明WCS的回生受到显著抑制。此外,EET的添加导致WCS的消化性能下降,使WCS中的快消化淀粉含量下降,抗性淀粉的含量增加。因此,在淀粉类食品加工时,可适量加入EET,降低产品的回生程度,提高产品的感官品质并延长产品的保质期。     

Effect of Gamma Irradiation on Molecular Structure and Physicochemical Properties of Corn Starch

ABSTRACT:  Carboxyl content and amylose leaching of gamma-irradiated corn starch increased and swelling factor decreased with increasing radiation dose. The apparent amylose content decreased gradually from 28.7% for native starch to 20.9% for 50 kGy irradiated starch. The proportion of short amylopectin branch chains (DP 6 to 12) increased, while the proportion of longer branch chains (DP ≥ 37) decreased with increasing radiation dose. The relative crystallinity and the degree of granule surface order decreased from 28.5% and 0.631 in native starch to 26.9% and 0.605 in 50 kGy irradiated starch, respectively. Pasting viscosity and gelatinization temperatures decreased with an increase in radiation dose. At a high dose (50 kGy), melting of amylose–lipid complex in DSC thermogram was not observed. The rapidly digestible starch (RDS) content slightly decreased up to 10 kGy but increased at 50 kGy. The resistant starch (RS) content slightly decreased at 2 kGy and then increased up to 50 kGy. The slowly digestible starch (SDS) content showed the opposite trend to RS content. Slower irradiation dose rate reduced carboxyl content, swelling factor, and amylose leaching. The apparent amylose content and amylopectin chain length distribution were not significantly affected by dose rate of gamma irradiation. However, the relative crystallinity and gelatinization enthalpy increased with slower dose rate. Slower dose rate decreased RDS and SDS contents, and increased RS content.     

酸解对不同链/支比含量玉米淀粉特性的影响

以4种不同链/支比含量的玉米淀粉为原料,酸解处理不同时间,以酸解玉米淀粉的形貌特性、冻融稳定性、膨胀度、溶解度、晶体性质为指标衡量不同酸解时间对玉米淀粉结构性质的影响。结果表明:4种玉米淀粉酸水解程度的顺序为:蜡质玉米普通玉米淀粉G50G80。酸解后,同品种的4种玉米淀粉的析水率随着酸解天数的增加而增加;溶解度增加,膨胀度降低。酸解并未改变淀粉的晶型,随着酸解时间的延长,蜡质玉米淀粉和普通玉米的相对结晶度先增大后保持不变,G50和G80的相对结晶度随着酸解时间的增加而增大。表明酸解对低直链淀粉(蜡质玉米淀粉和普通玉米淀粉)的结构、性能影响最大。     

Effect of maize type and extrusion‐cooking conditions on starch digestibility profiles

This study aimed at evaluating the influence of screw speed (250–600 rpm), barrel temperature (100–160 °C) and water content (16.4–22.5%) on rapidly digestible (RDS), slowly digestible (SDS) and resistant (RS) starch levels of waxy, normal and high‐amylose maize starches. In native starches, an increase in amylose content was correlated with lower SDS content. After extrusion, this trend was reversed. Both waxy and normal maize starches became rapidly digested. However, for normal maize starch, some SDS fraction remained. In contrast, the high‐amylose maize starch showed a significant increase in digestibility and an increase in SDS content from 20.4% in the native starch up to 27.5% after extrusion. This high level of SDS may be attributed to the presence of some remaining granular structures and formation of crystalline orders, which have slow digestion properties.