蒸煮条件及回生处理对方便米饭消化特性的影响

考察蒸煮方式及回生处理对方便米饭体外消化率的影响。实验利用不同蒸煮条件及回生时间处理低直链淀粉含量和高直链淀粉含量的不同品种大米,制备得到具有不同性质的方便米饭,并研究了方便米饭快消化淀粉(RDS)、慢消化淀粉(SDS)和抗性淀粉(RS)的含量差异及其体外消化率。结果表明,相对于电饭锅蒸煮,采用常规方式蒸煮,即控制米水比为1∶1,86℃蒸煮28 min制备的方便米饭RDS含量得到极大的降低,SDS含量明显的升高(P0.05)。回生处理可以显著的降低方便米饭RDS含量。与此同时,实验发现低直链淀粉含量品种的米饭含有较低的RDS含量、较高的SDS和RS含量,高直链淀粉含量品种的米饭则含有较低的SDS和较高的RS含量。通过控制蒸煮和回生条件,可以得到淀粉消化率低的方便米饭,对肥胖及高血糖人群健康有积极作用。     

食品制造方法对膳食淀粉消化性能的影响(Ⅱ)——热加工

研究了3种不同的加热方式(煮沸、加压蒸煮、微波加热)对不同植物来源膳食淀粉消化性能的影响。结果表明:相比普通煮沸处理,加压蒸煮与微波加热对淀粉的消化性能影响较显著。加压蒸煮与微波加热使淀粉颗粒中直链淀粉浸析出来,淀粉糊化度增加,淀粉营养片断慢消化淀粉(SDS)与抗性淀粉(RS)大部分转化成易消化淀粉(RDS),消化指数指数达到80%左右,可降解淀粉营养片断与直链淀粉含量成负相关,与糊化度成正相关。不同热加工方法会影响淀粉中营养片断的比例。     

不同品种籼米直链淀粉含量对米线加工特性和品质的影响

为了研究籼米中直链淀粉对米线加工特性和品质的影响,以直链淀粉含量介于10.26%~24.91%的籼米品种为研究对象,对其加工成米线的理化指标、蒸煮品质、晶体结构、质构特性、消化特性以及感官评价进行测定分析。结果表明:随着直链淀粉含量升高,籼米的结晶度逐渐降低;籼米中To、Tp、Tc、ΔH等热力学特性均呈现升高趋势;米线成品蒸煮品质中复水时间升高,蒸煮损失率、断条率降低;米线的咀嚼性和硬度明显升高,米线制作过程中导致籼米淀粉结晶度的增加。当籼米直链淀粉含量为22.52%时,米线感官评价最佳,达到75.9分。体外消化实验结果表明,煮熟的米线最终水解率最高,籼米的最终水解率最低;并且直链淀粉含量与体外消化率呈显著负相关(P<0.05)。选用直链淀粉含量在22.52%左右的籼米加工的米线具有较好的加工品质和较低的消化特性,此研究为具有低消化特性且品质高的米线研制提供了一定的理论依据。     

山西谷子全粉淀粉指标间相关性及消化特性研究

本文主要研究了77个山西谷子全粉样品中淀粉组分的相关性以及淀粉消化特性。分别测定了谷子金粉中淀粉、直链淀粉和抗性淀粉(RS)含量。制备谷子淀粉并分析了淀粉中快速消化淀粉(RDS)、慢速消化淀粉(SDS)、RS的含量以及淀粉消化指数(SDI)和持续消化淀粉(LS)。结果表明:各品种间RS含量差异性较大;全谷物以及制备得到的淀粉所测定的备指标间相关性较强。其中。谷子中RS与直链淀粉相关性最强(r=0.885),对谷子中RS聚类分析后发现。RS与直链淀粉近似呈线性相关(r=0.954)。对谷子淀粉体外消化研究表明:黄谷(2010)等品种中SDS舍量较高,晋谷21号(2010)等品种中RS含量较高,而陇谷10号(2012)等品种中LS含量相对较高,这些品种适用于糖尿病等人群食用或有助于开发相关降糖产品。     

抗性淀粉理化特性研究

采用激光粒度分析仪、光学显微镜、快速黏度分析仪、差示扫描量热分析仪、紫外-可见分光光度计和傅立叶红外光谱仪对三型抗性淀粉(RS3)和二型抗性淀粉(RS2)的理化特性进行了分析.粒度和糊化实验表明:两种抗性淀粉的颗粒大小和形貌有很大差异;在100 ℃以下皆不糊化,能够耐受大多数食品加工处理过程.紫外一可见光谱和红外光谱分析显示:抗性淀粉是由直链淀粉和支链淀粉组成的混合物,RS3的直链淀粉含量大于RS2,属于物理改性淀粉.     

不同品种小米粉体外消化性的测定与分析

用α–淀粉酶和淀粉糖化酶酶解消化小米粉样品,采用3,5–二硝基水杨酸比色法(DNS)测定水解过程中产生的葡萄糖,对不同品种小米粉的体外消化特性进行比较,分析淀粉水解速率,快消化淀粉(RDS)、慢消化淀粉(SDS)和抗性淀粉(RS)含量,以及RDS、SDS、RS含量与直链淀粉含量的相关性。试验结果表明:复1、济12、市售的直链淀粉含量分别为1.96%、30.58%、35.58%;快消化淀粉(RDS)含量分别为87.18%、83.41%、80.73%;慢消化淀粉(SDS)含量分别为4.128 9%、8.72%、12.97%;抗性淀粉(RS)含量分别为8.69%、7.87%、6.31%。     

糜子直链淀粉、蛋白质含量对其外观品质及食味品质的影响

以4个直链淀粉、蛋白质含量存在显著差异的糜子品种为实验材料,研究直链淀粉、蛋白质含量对糜子外观及食味品质的影响。结果表明：与低直链淀粉品种比较,高直链淀粉糜子品种,全粉糊化黏度、糊化时间、糊化温度较高,糜子饭吸水率、体积膨胀率、硬度较高,而糊化热焓值较低;蛋白质含量较高的糜子品种,全粉呈现低糊化黏度,糜子饭呈现低吸水率、体积膨胀率,高硬度。直链淀粉、蛋白质含量较高的糜子品种,蒸煮性差、能耗高、蒸煮时间长。因此,在糜子品质育种中,适当降低直链淀粉和蛋白质含量可以改善糜子的适口性。     

原花青素抑制玉米淀粉回生作用的研究

目的研究原花青素(OPCs)对高直链玉米淀粉、普通玉米淀粉和高支链玉米淀粉回生的影响。方法采用差示扫描量热仪(DSC)、傅立叶红外光谱仪(FTIR)、核磁共振光谱仪(NMR)测定与分析原花青素与淀粉间的相互作用;同时测定原花青素对淀粉体外消化性的影响。结果结果表明,随着OPCs含量的增加,高直链玉米淀粉回生程度降低;当OPCs添加量为5%时,原花青素对普通玉米淀粉和高支链玉米淀粉回生抑制效果较好。高直链玉米淀粉中慢消化淀粉(SDS)含量随OPCs增加而增加,普通淀粉中SDS含量在添加5%OPCs时较高,而高支链玉米淀粉的快消化淀粉(RDS)含量在5%时较高;NMR结果表明OPCs分子与直链和支链淀粉之间均存在分子间相互作用。结论添加5%原花青素对三种玉米淀粉回生抑制效果较好;原花青素对直链和支链淀粉的结合方式和结合能力不同。     

直链淀粉、蛋白质及脂类对大米粉热特性的影响

利用差示扫描量热仪(DSC)分别对籼米、粳米、泰国香米及糯米米粉热特性作了研究。实验结果表明:直链淀粉、蛋白质及脂类对米粉糊化熔点、峰值、糊化终点温度及糊化焓变有重要影响。直链淀粉显著影响大米米粉的糊化熔点、峰值和终点温度,高直链淀粉含量的大米米粉的糊化熔点、峰值和终点温度均高于中、低及糯米米粉;高直链淀粉含量的大米蒸煮性差、能耗高、蒸煮时间长,中、低直链淀粉含量的大米蒸煮性好、能耗少、蒸煮时间短。米粉中的蛋白质可能起到升高米粉糊化熔点、峰值及终点温度的作用;大米蛋白质含量越高,大米蒸煮性越差、能耗越高、蒸煮时间越长。米粉中的脂类对米粉热特性的影响较复杂,脂类可能起到降低糊化熔点糊化焓变的效果;大米中脂类含量越高,大米蒸煮性好、能耗少、蒸煮时间短。     

湿热处理对马铃薯淀粉-大豆肽复合物的理化和消化特性的影响

研究湿热处理(HMT)的水分条件对马铃薯淀粉与大豆肽复合物(PS-SPT)的理化和消化性质的影响。采用扫描电子显微镜和偏光显微镜研究复合物的形貌特征;利用差示扫描量热仪测定复合物的热力学特性;采用布拉班德粘度仪测定复合物的黏度特性;采用Englyst体外消化法测定复合物的体外消化性。结果表明:HMT后淀粉-大豆肽复合物偏光十字减弱,团聚现象增加。淀粉-大豆肽复合物糊化温度(To、Tp和Tc)显著升高,焓变(ΔH)显著降低,且To、Tp和Tc随HMT水分含量的增加呈逐渐升高的趋势。与物理混合样品相比,HMT后淀粉-大豆肽复合物的起糊温度升高,膨胀度、峰值黏度、热糊黏度和冷糊黏度均出现大幅下降。随着HMT水分含量的增加,淀粉的膨胀度和峰值黏度逐步降低。蒸煮后的体外消化性表明,HMT使马铃薯淀粉-大豆肽复合物的快消化淀粉含量(RDS)降低,而抗性淀粉(RS)含量升高。35%的HMT水分条件下,马铃薯淀粉-大豆肽复合物中RDS含量最低(81.53%±1.22%),RS含量最高(11.76%±0.62%)。这说明湿热处理显著改变了马铃薯淀粉-大豆肽复合物的理化和消化特性。HMT过程中直链/支链淀粉发生重组,大豆肽的物理包埋作用,以及马铃薯淀粉带负电荷基团与大豆肽侧链基团之间的相互作用均会降低淀粉的消化性。本研究为优化含慢消化淀粉和抗性淀粉的新型低GI食品的加工方法,提供理论参考。     

Effect of storage on resistant starch and amylose content of cereal–pulse based ready-to-eat commercial products

A wide range of ready-to-eat (RTE) foods, with varied shelf life are commercially available to meet the increasing demand for convenience foods, both by the Armed Forces and the public at large. The study evaluated the effect of storage on the resistant starch (RS) and amylose content of selected ready-to-eat (RTE) cereal–pulse based processed foods viz., pongal, khara bhath, dal fry, bisibele bhath, rajmah and kesari bhath, developed by Defence Food Research Laboratory, Mysore. RS was quantified directly in the residues obtained after removing digested starch in simulated physiological conditions. Nutrient composition and carbohydrate profile of the foods were also analyzed. The carbohydrate profile indicated low amounts of sugars, except in case of kesari bhath. The total starch content ranged from 14.5 to 24 g% while amylose ranged from 1.2 to 7.2 g%, respectively. The total and resistant starch in the RTE foods varied depending on the ingredients used and type of processing. Foods containing higher amylose content were found to have maximum increases in RS content after storage. Storage at ambient conditions resulted in significant increases (p < 0.05) in RS and TS content of RTE foods. The findings reveal that the RTE foods studied hitherto contained appreciable quantities of RS, which further increased on storage.     

高直链玉米淀粉添加对挤压荞麦面条结构、蒸煮品质及消化特性的影响

制备挤压荞麦面条,研究不同添加量（10%、20%、25%、30%）的高直链玉米淀粉（m/m,基于全粉）对挤压荞麦面条结构、蒸煮品质及消化特性的影响。结果表明,随着高直链玉米淀粉添加量的增加,挤压面条直径减小,糊化度降低。X射线衍射结果表明添加高直链玉米淀粉后,面条除了V型结晶峰外还存在未完全糊化的直链淀粉的典型B型峰。热力学性质结果也表明直链淀粉发生部分糊化。添加高直链玉米淀粉后,面条色泽变浅变亮,最佳蒸煮时间缩短,蒸煮损失率由9.90%增加到12.43%。当高直链玉米淀粉添加量为25%时,面条开始出现断条。面条硬度由2 105.709 g显著增加至3 680.401 g,弹性由0.961降低至0.866。扫描电镜结果表明,随着高直链玉米淀粉添加量的增加,致密的面条结构逐渐出现裂纹,且面条截面有较多未完全糊化的淀粉颗粒。淀粉体外消化实验表明,随着高直链玉米淀粉添加量的增加,淀粉水解率逐渐下降,预计血糖指数减小,抗性淀粉含量增加。当高直链玉米淀粉添加量为30%时,挤压荞麦面条的预计血糖指数从74.28降至66.31,抗性淀粉含量从34.43%增加至47.86%。     

Simultaneous estimation of amylose,resistant, and digestible starch in pea flour by visible and near-infrared reflectance spectroscopy

Due to its health benefits, resistant starch (RS) has received increasing attention from the public, and there is a need to develop methods to measure the amylose and RS concentration in pea (Pisum sativum L.) flour. The aim of this study was to develop a visible and near-infrared reflectance (vis–NIR) model for the simultaneous determination of amylose, RS, and digestible starch (DS) in pea flour. A total of 123 dry pea samples consisting of different pea varieties grown in different environments were collected, and ground to flour, and then the vis–NIR spectra were scanned. The amylose, RS, and DS contents of the pea flours were also measured by an enzymatic colorimetric assay. The spectra data were calibrated with the enzymatic colorimetric-assayed values. Results showed that amylose, RS, and DS in the pea flours can be simultaneously estimated using the vis–NIR spectra. Instead of using the full spectrum (300–2300 nm), we found the most efficient wave bands lying in the visible region between 370 and 560 nm and the NIR spectra in the range of 1600–1800 nm. Using the stepwise regression with backward elimination method, the multiple linear regression (MLR) models were developed from the most efficient wavelengths. The MLR models had the determination coefficients R² of 0.95, 0.76, 0.80, and 0.88 for amylose, RS, DS, and total starch, respectively. The correlation coefficients between model estimated and the enzymatic colorimetric assayed values were 0.97, 0.80, 0.85, and 0.93 for amylose, RS, DS, and total starch, respectively.     

FORMATION OF RESISTANT STARCH DURING DEEP-FAT FRYING AND ITS ROLE IN MODIFYING MECHANICAL PROPERTIES OF FRIED PATTIES CONTAINING CORN, RICE, WHEAT, OR POTATO STARCH AND WATER

Resistant starch (RS) was determined in patties (5.1 cm diameter, 1.27 cm high) prepared by mixing starch (corn, rice, wheat, or potato) in distilled water and immersion fried in canola oil (at 170 ± 3C). The RS content (expressed as % of total starch) in corn starch increased from 4.25 to 5.43% (±0.11) in the core region of a patty, whereas in the outer crust region the RS level was constant throughout the frying process. Similar trend was observed in potato, rice, and wheat starch patties. Upon varying the amylose content in the corn starch from 21 to 70%, the initial RS content (prior to frying) increased from 3.47 to 22.74 (±0.11%), following a linear relationship. Maximum force (MF) to puncture the crust of each starch patty was determined for frying duration of 3 to 15 min. Patties exhibiting higher RS content prior to frying, developed crusts with higher MF to puncture the crust, exhibiting a linear relationship between those two variables.     

Preparation and characterisation of octenyl succinate starch as a delivery carrier for bioactive food components

The octenyl succinic anhydride (OSA) modified corn starch (OSAS) was synthesised with different degrees of substitution (DS) and the influences of three factors namely OSA/starch ratio, reaction temperature, and reaction time on the DS of OSAS were studied by response surface methodology (RSM). As a delivery carrier material, the characteristics of OSAS were investigated. The resistant starch (RS) content of OSAS was increased with increasing DS, indicating the improvement of colon-targeting property. The swelling ratio (SR) of the OSAS in simulated gastrointestinal fluids was higher than that of native starch and its hydrophilicity was decreased with increasing DS. For in vitro release study, the percentage of released bioactive components was less than 7% within the first 8 h and close to 100% over a period of 36 h when the DS was 0.60. These results demonstrate that OSAS can be a potential carrier for colon-targeted delivery of bioactive food components.     

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.     

Extrusion processing and characterization of edible starch films with different amylose contents

Various edible starch films were prepared via extrusion, with a particular focus on the effects of the amylose content of starches from the same resource (corn) on film processibility and performances. Four corn starches with different amylose contents (4.3-77.4%) were used as model materials. The effects of various extrusion processing conditions, such as temperature, screw speed, feeding rate, and water content were systematically investigated. It was found that, while a higher amylose content increased the difficulty of extrusion processing, this could be overcome by increasing the processing temperature, moisture content, and equilibration time. On the other hand, mechanical testing, differential scanning calorimetry, dynamic mechanical analysis, and microscopy showed that films based on higher amylose starch had better mechanical and thermal properties. The reasons include not only the easy entanglement of long linear amylose chains, but also the retained granular structure in high-amylose films, which may act as self-reinforcement.     

直链淀粉含量对淀粉-脂肪酸复合物形成及理化特性的影响

本研究以不同直支比的玉米淀粉和硬脂酸为原料制备了三种不同的淀粉-脂质复合物,并采用扫描电镜、X射线衍射、傅里叶红外光谱等分析方法对淀粉-脂质复合物外部形态、晶体结构、抗消化性、缓释性等进行了表征与测定。结果表明:在扫描电镜下观察,与原淀粉相比,复合物的体积增大,同时表面凹凸不平。红外光谱证明淀粉-脂质复合物的形成,同时氢键的增加可能会导致抗性淀粉含量增加。复合物的形成使得晶体构象变为V型结构。普通玉米淀粉（normal）及高直链玉米淀粉（G60）在处理后快消化淀粉（RDS）含量减少,慢消化淀粉（SDS）含量增加,抗性淀粉（RS）含量增加,其中抗性淀粉含量分别达到52.0%和52.4%。硬脂酸在复合物内的释放分为两个阶段呈现先快后慢的趋势,并且直链淀粉含量的增加能够显著提高复合物对于硬脂酸的缓释能力。本文可为进一步提高直链淀粉的应用范围提供参考依据。     

冻融循环处理对玉米淀粉凝胶结构及颗粒理化特性的影响

本文研究了不同次数(0、1、2、3、4、5和6次)的冻融处理对糊化后的普通玉米和糯玉米淀粉凝胶理化性的影响。采用扫描电子显微镜对淀粉凝胶的微观结构进行分析,测定了凝胶化淀粉的碘蓝值、碘结合力、最大吸收波长、透明度、持水性、溶解度与膨胀力、水解特性和体外消化性。普通玉米淀粉凝胶呈孔状结构,糯玉米淀粉凝胶冻融2次后出现层状结构,二者孔径和层距都随冻融次数增加而减小。冻融循环处理对两种凝胶化玉米淀粉的碘蓝值、碘结合力、最大吸收波长和直链淀粉含量均无显著性影响。随冻融次数增加,普通玉米淀粉的透明度、持水性、RDS与SDS含量逐渐减小,而溶解度、膨胀力、水解率和RS含量逐渐升高;而糯玉米淀粉的透明度、持水性、溶解度和膨胀力逐渐减小,RDS、SDS和RS含量及水解率均无显著性变化。     

葡萄籽乙醇提取物对玉米淀粉微观结构及回生性质的影响

为研究葡萄籽乙醇提取物(Ethanol Extract of Grape Seed,EEGS)对玉米淀粉回生性质的影响,采用扫描电镜(SEM)测定其微观结构,红外光谱测定1047/1022的比值,X-射线衍射仪(XRD)测定其结晶结构,差式扫描量热仪(DSC)测定其热力学性质,并综合评价EEGS对玉米淀粉回生的抑制作用,同时测定EEGS对玉米淀粉体外消化性能的影响。结果表明:与对照组相比,EEGS的添加促使玉米淀粉表面微观结构趋于平滑,多孔结构减少。当EEGS的添加量为2.5%时,玉米淀粉的1047/1022的比值、相对结晶度、熔融焓值下降程度最大,玉米淀粉的回生受到明显抑制。此外,随着EEGS的添加量增加,玉米淀粉中RDS含量逐渐下降,而SDS和RS的含量随之增加。EEGS可作为玉米淀粉回生抑制剂、抗性淀粉生产的添加剂的潜在来源,在食品加工中被开发利用。