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不同淀粉对带鱼鱼糜凝胶品质的影响 总被引:1,自引:0,他引:1
为确定改善带鱼鱼糜凝胶品质的最佳淀粉种类及其添加量,以凝胶强度、质构分析(TPA)值、白度、持水性和凝胶溶解度为指标,探究5种淀粉(小麦淀粉、马铃薯淀粉、木薯淀粉、交联淀粉和羟丙基淀粉)在不同添加量(0、5%、10%、15%和20%)下对带鱼鱼糜凝胶品质的影响。结果表明,不同种类淀粉以及添加量均对带鱼鱼糜凝胶品质有显著影响。当添加量超过15%后,淀粉的添加对带鱼鱼糜凝胶弹性和持水性影响不显著。5种淀粉中,木薯淀粉对带鱼鱼糜凝胶品质的改善效果最好,在鱼糜中添加15%木薯淀粉时,鱼糜凝胶强度、硬度、粘聚性、弹性、咀嚼性、白度值、失水率和凝胶溶解度分别为886.176 g·cm、4 879.56g、0.67、0.87、2 888.86、60.07、5.84%、49.47%。因此,添加15%的木薯淀粉能有效改善带鱼鱼糜凝胶品质。本试验结果为高品质鱼糜制品生产提供了科学依据。 相似文献
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不同淀粉糊化及凝胶特性与粉条品质的关系 总被引:7,自引:2,他引:5
为了研究粉条加工过程中原料淀粉的糊化及凝胶特性对粉条品质的影响,该文对绿豆、红薯、马铃薯、大米和玉米等5种原料淀粉的糊化凝胶特性及其粉条品质进行了测定,并对淀粉糊化凝胶特性与淀粉粉条品质之间的关系进行探讨。结果表明:5种淀粉原料所制的粉条中,绿豆粉条的品质是较好,其次就是马铃薯粉条和红薯粉条,大米粉条和玉米粉条的品质较差;淀粉的糊化特性与粉条品质之间具有显著相关性,按显著程度的大小(P值大小)依次是:峰值黏度谷值黏度衰减值回生值、最终黏度;淀粉凝胶的硬度、弹性、黏性和咀嚼性对粉条品质的影响较大,按显著程度的大小(P值大小)依次是:硬度黏性咀嚼性弹性。在粉条加工原料选择及粉条品质改善中可以考虑用谷值黏度、回生值以及淀粉凝胶特性特征值回复性、咀嚼性和黏性作为考核衡量指标。研究结果为粉条生产中原料选择及品质改善提供参考依据。 相似文献
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玉米淀粉与黄原胶复配体系流变和凝胶特性分析 总被引:12,自引:3,他引:9
为考察胶体对淀粉流变及凝胶特性的影响,该文以玉米淀粉为原料,加入不同比例黄原胶,研究两者复配后流变及凝胶特性的变化,对其相互作用机理进行了初步探讨。结果表明,玉米淀粉及两者复配体系属于屈服-假塑性流体,随着黄原胶比例的提高,复配体系的稠度系数显著增加,流体指数降低,假塑性增强,但黄原胶比例大于10%时,增加不再显著。动态流变学试验显示,复配体系具有更为优越的黏弹性,黄原胶可与淀粉分子间相互作用形成氢键,使得分子链段间的缠结点增加,同时,可延缓及阻止部分直链淀粉分子间的重新排列,从而抑制淀粉凝胶体系的回生,复配体系形成了质地更为柔软的凝胶。综合考虑,在实际应用中选择玉米淀粉与黄原胶质量比为9.0∶1.0 g/g较为适宜。研究结果可为更好的在食品工业中应用玉米淀粉/黄原胶复配体系及品质控制提供参考。 相似文献
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玉米淀粉与黄原胶复配体系流变和凝胶特性分析 总被引:1,自引:0,他引:1
为考察胶体对淀粉流变及凝胶特性的影响,该文以玉米淀粉为原料,加入不同比例黄原胶,研究两者复配后流变及凝胶特性的变化,对其相互作用机理进行了初步探讨。结果表明,玉米淀粉及两者复配体系属于屈服-假塑性流体,随着黄原胶比例的提高,复配体系的稠度系数显著增加,流体指数降低,假塑性增强,但黄原胶比例大于10%时,增加不再显著。动态流变学试验显示,复配体系具有更为优越的黏弹性,黄原胶可与淀粉分子间相互作用形成氢键,使得分子链段间的缠结点增加,同时,可延缓及阻止部分直链淀粉分子间的重新排列,从而抑制淀粉凝胶体系的回生,复配体系形成了质地更为柔软的凝胶。综合考虑,在实际应用中选择玉米淀粉与黄原胶质量比为9.0∶1.0 (g/g)较为适宜。研究结果可为更好的在食品工业中应用玉米淀粉/黄原胶复配体系及品质控制提供理论依据。 相似文献
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为了探究NaCl和茶多酚(TP)对碱诱导卵白蛋白(OVA)凝胶的作用,本研究以OVA为主要原料,以未添加NaCl和TP组为空白对照(CK),分析单独添加NaCl或TP以及两者组合对碱诱导OVA凝胶理化特性和结构特性的影响。结果表明,与CK相比,NaCl、TP以及两者混合添加组pH值分别降低了1.17%、1.34%和4.02%(P<0.05);Zeta电位绝对值从24.91 mV分别变化至10.81、31.71和32.68 mV;4组样品中TP组凝胶强度最大,NaCl组硬度增加了10.18%(P<0.05),TP组的弹性增加了9.30%;3组凝胶样品的弛豫时间均向短弛豫方向移动;NaCl组和TP组的α-螺旋和β-转角含量下降,β-折叠含量上升;NaCl和TP均能使碱诱导OVA凝胶的结构更加致密;NaCl组的荧光峰强度最大。本研究结果为鸡蛋皮蛋凝胶形成机制研究提供了理论基础,并为拓宽OVA的应用领域提供了重要信息。 相似文献
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栖热菌4-α-糖基转移酶对马铃薯淀粉的改性作用 总被引:2,自引:2,他引:0
该文将栖热菌4-α-糖基转移酶(TSαGT)作用于马铃薯淀粉,分别利用理化分析、质构TPA分析及酶解分析等方法研究该酶对淀粉糊化、凝胶特性和消化性的影响。结果表明,TSαGT可以显著降低马铃薯淀粉中直链淀粉质量分数,使从初始的21%降低至15%,从而使淀粉糊冻融稳定性得以提高、糊透明度得到改善;对酶处理马铃薯淀粉凝胶的研究结果显示,TSαGT对淀粉的改性存在最适作用条件,控制0.024~0.06?U/g的酶用量作用30?min可以明显改善淀粉凝胶质构特性,使凝胶硬度降低,而弹性、咀嚼性、黏结性和胶着性得到不同程度的提高;进一步的消化试验结果表明,使用0.024?U/g以下的酶用量作用30?min,马铃薯淀粉的抗消化性得到提高,继续加大酶量则使抗消化性下降。因此,应用TSαGT对马铃薯淀粉改性处理,控制合适的酶作用程度可以显著提高马铃薯淀粉糊及凝胶的应用特性,同时增加其抗消化性。 相似文献
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为寻找改善普通米淀粉制品的结构及品质的新型食品添加剂,该文以普通米淀粉为原料,采用快速黏度分析仪、扫描电子显微镜、质构分析仪、全自动X射线衍射仪及示差扫描量热仪等手段,研究添加锥栗、马铃薯与绿豆回生抗性淀粉(retrograded resistant starch,RSⅢ)对米淀粉凝胶微观结构及理化性质的影响。结果表明:添加锥栗、马铃薯及绿豆RSⅢ对米淀粉凝胶的结构及性质产生显著影响(P0.01),以锥栗RSⅢ的作用最为突出。添加锥栗、马铃薯与绿豆RSⅢ对米淀粉糊的黏度特性没有影响(P0.05)。未添加RSⅢ的米淀粉凝胶存在很多不规则、深浅不一的大洞,而加入RSⅢ使米淀粉凝胶的网状结构变得更为规整、致密,且其胶着性与黏聚性变化不大(P0.05);添加锥栗、马铃薯与绿豆RSⅢ后能加速米淀粉凝胶的形成,与未添加RSⅢ的米淀粉凝胶比,其硬度分别增加了2.38、1.97和1.25倍(P0.01),黏着性分别增加2.56、1.99和1.32倍(P0.01),弹性增加1.07、0.81和0.53倍(P0.01)。米淀粉以A-型晶体占优,锥栗RSⅢ以V-型晶体占优,马铃薯与绿豆RSⅢ均以B-型晶体占优;不加或加入RSⅢ的米淀粉凝胶粉末都转变为以V-型晶体为主,且总相对结晶度没有改变(P0.05)。加入RSⅢ后的米淀粉糊除有低温吸热峰外还出现高温吸热峰,是否添加RSⅢ对低温吸热峰的温度参数影响不大(P0.05),但吸热焓显著降低(P0.01);而对于高温吸热峰,添加马铃薯与绿豆RSⅢ的各项参数没有差别(P0.05),但比添加锥栗RSⅢ的显著增高(P0.01)。可见添加不同来源的RSⅢ可以有效改善米淀粉凝胶的结构与品质。该研究结果为抗性淀粉用于提高米制品品质与营养功能的研究和生产提供了重要参考。 相似文献
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淀粉对竹荚鱼鱼糜流变性质和凝胶特性的影响 总被引:9,自引:3,他引:6
为探讨改善竹荚鱼鱼糜凝胶品质的最佳淀粉种类和添加量,利用流变仪、质构仪、扫描电镜等方法研究了不同来源的原淀粉及其添加量对竹荚鱼鱼糜流变性质和凝胶特性的影响。动态流变性质的结果表明,在加热过程中,竹荚鱼鱼糜的弹性模量G' 经历了2个阶段的变化,首先在20~57℃时G' 逐渐降低;然后在57~80℃由于凝胶网络的形成,使G' 增加。添加淀粉显著影响竹荚鱼鱼糜的G'。添加淀粉能够提高竹荚鱼鱼糜的凝胶强度。添加木薯淀粉、小麦淀粉对改善竹荚鱼鱼糜凝胶品质的效果最好,其添加量为4%,竹荚鱼鱼糜凝胶的凝胶强度分别提高了158%和155%。添加淀粉能提高竹荚鱼鱼糜凝胶的持水性。在相同的添加量时,木薯淀粉和小麦淀粉对提高竹荚鱼鱼糜凝胶的持水性的效果最好。添加淀粉能显著提高竹荚鱼鱼糜凝胶的白度,但淀粉的种类和添加量对鱼糜凝胶色泽的影响不显著。 相似文献
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本文报告了玉米淀粉凝胶取代琼脂凝胶组培苹果砧木珠美海棠和M26的研究结果,发现玉米淀粉凝胶培养基不但使组培成本降低30%以上,而且能提高两种植物的生根率达34%和生根诱导的同步性,生根培养时间明显缩短。在增殖培养中玉米淀粉凝胶培养基能明显促进M26砧木的芽分化和生长,叶片宽度增加和叶色加深,但株美海棠增殖培养初期芽苗高生长受到抑制,茎粗显著增加,绿色加深。 相似文献
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So‐Yoon Won WonSeok Choi Hyesook S. Lim Ki‐Yul Cho Seung‐Taik Lim 《Cereal Chemistry》2000,77(3):309-314
The mechanical behavior of cowpea starch gels (10%, w/v) at small and large deformations were investigated in comparison with acorn, corn, and potato starches in storage at 4°C for seven days. The rapid viscograms of starch paste (7%, w/v) revealed that cowpea starch had a larger setback (1,135 cP) than other starches (465–830 cP), although peak viscosity (1,723 cP) and pasting temperature (76°C) were between those of corn and potato starches. Texture profile analysis of cowpea starch gel showed exceptionally higher values for hardness, gumminess, chewiness and initial modulus than other starch gels. Cowpea starch gel also exhibited higher G′ and smaller tan δ compared with other starch gels, regardless of the storage time. A creep test revealed that the cowpea starch gel could remain highly resistant to stress, showing the least deformation among the tested starch gels during storage up to seven days. The overall results disclosed that cowpea starch was capable of forming exceptionally strong and elastic gels with good storage stability. 相似文献
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《Cereal Chemistry》2017,94(3):554-559
The physicochemical properties of starches from cultivated Pueraria thomsonii Benth were examined and compared with those of P. lobata (Willd.) Ohwi and other root starches, and the effect of pueraria root starches on the improvement of buckwheat noodle quality was investigated. The total content of isoflavones in P. thomsonii root starches was higher than in P. lobata root starches, and the size and uniformity of those particles displayed a significant difference. The gel stabilities of pueraria root starches were similar and more favorable than those of potato starch and sweet potato starch. For the amylose molecular properties of pueraria root starches, the λmax and blue value index were higher than those of the potato starch and the sweet potato starch, whereas the amylose content and degree of polymerization were much lower in comparison. However, amylopectin branch lengths of pueraria root starches were shorter. Thus, pueraria root starches could improve the quality of buckwheat noodles and enhance their nutritional function. Therefore, pueraria root starches may be regarded as raw materials that influence the quality of buckwheat noodles. 相似文献
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Japonica (Tainung 67 [TNu67]) and waxy (Taichung 70 [TCW70]) rice, normal and waxy corn, and cross-linked waxy rice and corn starches were used in an investigation of the influence of the granular structure on the pasting behavior of starch, using small amplitude oscillatory rheometry. Both normal corn and normal rice (TNu67) starches had the highest storage moduli (G′), followed by their cross-linked versions; native waxy corn and rice starches had the lowest. Native waxy starches showed paste characteristics (G′ < 500 Pa; tan δ > 0.2) at concentrations of up to 35%. However, cross-linked waxy starches exhibited gel behavior at 10% concentration (cross-linked TCW70) or higher (cross-linked waxy corn starch). The degrees of swelling power were in the order: TCW70 > native waxy corn > TNu67 ≅ cross-linked TCW70 ≅ normal corn ≅ cross-linked waxy corn starches. Solubilities were in the order: normal corn > TNu67 > native waxy > cross-linked waxy starches. The addition of 2% purified amylose from indica rice (Kaohsiung Sen 7) did not induce gelation of waxy corn starch. Swelling powers of normal corn, TNu67, and crosslinked waxy starches were similar, but normal corn and TNu67 had much higher G′ value. Such results implied that the formation of gel structure was governed by the rigidity of swollen granules and that the hot-water soluble component could strengthen the elasticity of the starch gel or paste. 相似文献
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Laboratory-isolated buckwheat (Fagopyrum esculentum) starch was compared to commercial corn and wheat starches. Buckwheat starch granules (2.9–9.3 μm) were round and polygonal with some holes and pits on the surface. Buckwheat starch had higher amylose content, waterbinding capacity, and peak viscosity, and it had lower intrinsic viscosity when compared with corn and wheat starches. Buckwheat starch also showed restricted swelling power at 85–95°C and lower solubility in water at 55–95°C and was more susceptible to acid and enzymatic attack. Gelatinization temperatures, determined by differential scanning calorimetry, were 61.1–80.1°C for buckwheat starch compared to 64.7–79.2°C and 57.1–73.5°C for corn and wheat starches, respectively. A second endotherm observed at 84.5°C was an amylose-lipid complex attributed to the internal lipids in buckwheat starch, as evidenced by selective extraction. The retrogradation of buckwheat, corn, and wheat starch gels was examined after storage at 25, 4, and -12°C for 1–15 days. In general, buckwheat starch retrogradation was slower than that of corn and wheat starch, but it increased as storage time increased, as did that of the other starch pastes. When the values of the three storage temperatures were averaged for each storage period analyzed, buckwheat starch gels showed a lower percentage of retrogradation than did corn and wheat starch gels. Buckwheat starch also had a lower percentage of water syneresis when stored at 4°C for 3–10 days and had better stability to syneresis after three freeze-thaw cycles at -12 and 25°C. 相似文献
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为了探究超声处理对糯米和非糯米淀粉颗粒结构和功能特征的影响,改善稻米淀粉的品质,本试验以糯稻(Y26)、非糯稻(Y9)淀粉为材料,对其进行超声处理,分析处理后淀粉的结构热力学性质及消化特性。结果表明,与对照组相比,两种淀粉经超声处理后各性质变化趋势相似,淀粉颗粒表面产生凹陷、直链淀粉含量升高、结晶度下降、傅立叶变换红外光谱(FTIR)的1 047 cm-1/1 022 cm-1比值先增加后降低,弹性模量(G')降低,凝胶强度减弱,糊化终止温度与起始温度之差(Tc-To)减小,快速消化淀粉(RDS)和抗性淀粉(RS)含量增加,但两种淀粉的变化程度有一定差异。本研究初步奠定了生产中根据对淀粉性质的需求来确定合适超声处理条件的理论基础。 相似文献
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Rapid Visco Analyser (RVA) and dynamic rheological measurements were performed on a mixture of decolorized hsian‐tsao leaf gum (dHG) and starch as a function of starch‐to‐gum ratio (S/G 0:6, 1:5, 2:4, 3:3, 4:2, 5:1, and 6:0), starch type (wheat, corn, and tapioca), and total solid content (2, 3, and 4%). Under S/G of 5:1, 4:2 and 3:3, dHG interacted with starch synergistically, which resulted in a marked increase in viscosity during cooling. The storage modulus of the resulting mixed gel was higher than the loss modulus, and both moduli were almost frequency‐independent throughout the frequency range tested, indicating that the composite gels could be classified rheologically as elastic gels. Mixed systems with tapioca starch showed higher pseudo‐gel viscosity in the RVA test, but lower storage modulus in the dynamic test than those with wheat or corn starch. Such results implied that tapioca starch contributed a more viscous property but wheat and corn starch contributed a more elastic property to the mixed systems. 相似文献
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Physicochemical properties of starch of three common (Fagopyrum esculentum) and three tartary (F. tataricum) buckwheat varieties from Shanxi Province, China, were compared. Starch color, especially b*, differed greatly between tartary (7.99–9.57) and common (1.97–2.42) buckwheat, indicating that removal of yellow pigments from tartary buckwheat flour may be problematic during starch isolation. Starch swelling volume in water of reference wheat starch (2.8% solids and 92.5°C) was 20.1 mL; for the three common buckwheat starches it was 27.4–28.0 mL; and for the three tartary buckwheat starches it was 26.5–30.8 mL. Peak gelatinization temperature (Tp) in water was 63.7°C for wheat starch, 66.3–68.8°C for common buckwheat and 68.8–70.8°C for tartary buckwheat. Tp of all samples was similarly delayed (by 4.0–4.8°C) by 1% NaCl. Enthalpy of gelatinization (ΔH) was higher for all six buckwheat starches than it was for wheat starch. However, one common buckwheat sample had significantly lower ΔH than the others. Starch pasting profiles, measured by a Rapid Visco-Analyzer, were characteristic and similar for all six buckwheat starches, and very different from the reference wheat starch. A comparison of pasting characteristics of common and tartary buckwheat starches to wheat starch indicated similar peak viscosity, higher hot paste viscosity, higher cool paste viscosity, smaller effect of NaCl on peak viscosity, and higher resistance to shear thinning. Texture profile analysis of starch gels showed significantly greater hardness for all buckwheat samples when compared to wheat starch. 相似文献
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Starches from potato, corn, sweet potato, and rice were compared with mung bean starch for their suitability for producing kuanfen, Chinese flat starch noodles. Significant differences were found in the chemical composition and swelling power among starches (P < 0.05). Maximum tensile stress and maximum tensile strain was highest for kuanfen made from mung bean starch and sweet potato starch, respectively. Higher work was needed to break kuanfen made from mung bean and sweet potato starches. Kuanfen made from mung bean starch was most favored by panelists, followed by those from sweet potato starch. General acceptability of kuanfen correlated positively and significantly with chewiness, cohesiveness, and elasticity of the noodles. For predicting sensory acceptability of kuanfen using instrumental methods, correlation was performed between sensory variables and tensile parameters. Results showed that work-to-break correlated significantly with chewiness, elasticity, and general acceptability while maximum tensile strain correlated significantly with sensory cohesiveness. Therefore, both of these two tensile parameters could be useful for predicting the textural properties of kuanfen. 相似文献