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我国葡萄属野生种形态学特性的研究 总被引:1,自引:3,他引:1
本文对我国22个野生葡萄种或变种,90多个株系的颜色、绒毛、叶及果实等形态学特性进行了观察研究。结果表明,中国野生葡萄植物形态丰富多样,并建议对目前有关葡萄描述记载标准作进一步修订和完善,以适应我国野生葡萄资源研究利用工作的开展。 相似文献
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酿造酱油离不开试管菌种以及三角瓶菌种培养,种好、曲好、酱油好,出率也高。已是每个酿造职工都知的道理。多年来我曾对米曲霉的三角瓶菌种培养作了探索,特别对水份与三角瓶菌种生长之间的因果关系,经过不断试验研究,提高了三角瓶菌种的质量。 以往在酿造厂,三角瓶菌种的一般做法是:面粉20克与麸皮80克同时搅拌均匀后润水,然后装瓶灭菌,培养72小时。笔者认为,麸皮比面粉易于吸水而且面粉容易结 相似文献
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将2株米曲霉扩大培养后用于生产试验,并将其发酵酱油的性能进行对比。结果表明,米曲霉1号酱油的氨基酸态氮、pH值、A530 nm、总氮低于米曲霉2号菌,总酸高于米曲霉2号;米曲霉2号酱油的游离氨基酸总含量为6.05 g/100 mL,是米曲霉1号(4.18 g/100 mL)的1.45倍;米曲霉1号酱油中醇类物质、酸类物质和醚类物质相对含量分别达61.53%、14.16%和1.26%,高于米曲霉2号的57.3%、13.07%和0.46%,而酯类物质(3.73%)、酮类物质(1.83%)和醛类物质(16.33%)低于米曲霉2号的3.96%、1.95%和21.31%;米曲霉1号酱油香气浓郁偏醇香味,米曲霉2号酱油香气浓郁偏酯香;米曲霉2号酱油的加热沉淀达到204 mm2,远高于米曲霉1号酱油的25 mm2。加热后过滤可去除米曲霉2号酱油中的沉淀。 相似文献
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通过对FF-6202红曲霉液体菌种在发酵过程中的几个动态参数的研究,分析了还原糖、糖化力、pH值、菌丝量、色价和色调等主要参数在红曲发酵过程中的变化规律。初步确定了在液体种子培养过程中的几个关键控制参数是:还原糖、pH值、菌丝量和色价。 相似文献
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曲霉菌酶学性质的研究 总被引:2,自引:1,他引:2
研究本实验室保存的2种曲霉my-1及my-2的特性,讨论了时间、温度、pH对曲霉菌产酶的影响,并对酶的适宜反应温度、pH及酶的热稳定性和pn稳定性进行了探讨。 相似文献
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研究了乳酸杆菌细胞壁肽聚糖的分离、鉴定及其对肽聚糖生物活性的影响.实验获得了SDS处理粗细胞壁的适宜条件为SDS质量浓度8g/dL,处理时间为沸水浴10min.SDS结合胰蛋白酶和TCA处理,可有效去除乳酸杆菌中的非共价结合蛋白质及共价结合蛋白质.经化学分析鉴定,所提取的乳酸杆菌成分为肽聚糖,肽聚糖中丙氨酸、天冬氨酸、谷氨酸和赖氨酸浓度分别为1.181,0.943,0.770和0.456mmol/g,是肽聚糖中的组分氨基酸.SDS结合TCA处理,方能较有效地去除DNA.TCA处理是去除细胞壁磷壁酸、脂磷壁酸的有效方法.此外,小白鼠腹腔巨噬细胞的吞噬实验、C3b受体实验以及血清溶菌酶活力实验证实,所分离纯化肽聚糖的免疫学活性未受影响. 相似文献
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Luciana F. Fleuri Paula K. Novelli Clarissa H. O. Delgado Mayara R. Pivetta Milene S. Pereira Mariana de L. C. Arcuri Bruna L. Capoville 《International Journal of Food Science & Technology》2014,49(12):2585-2591
Lipase from Aspergillus sp. obtained by solid‐state fermentation (SSF) on wheat bran (LWB), soybean bran (LSB) and soybean bran combined with sugarcane bagasse (LSBBC) were 67.5, 58 and 57.3 U of crude lipase per gram substrate, respectively. The optimum pH of activity and stability of the LWB was between 8 and 9, and the optimum temperature of activity and stability was 50 °C and up to 60 °C, respectively. The LSB and LSBBC showed two peaks of optimum pH (4 and 6) and optimal values of temperature and stability at 50 °C. The LSB was stable in the pH range of 6–7, while LSBBC in the range of pH 4–7. All the enzymes show activities on p‐nitrophenyl esters (butyrate, laurate and palmitate). LWB stood out either on the hydrolysis of sunflower oil, presenting 66.1% of the activity over commercial lipase and on the esterification of oleic acid and ethanol, surpassing the activities of the commercial lipases studied. The thin layer chromatography showed that LWB and LSB have produced ethyl esters from corn oil, while LWB produced it from sunflower oil. 相似文献
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胞外弹性蛋白酶的理化特性及其影响因素 总被引:1,自引:0,他引:1
分离得到的假单胞菌(Pseudomonas sp) 菌株具有较强的分泌胞外弹性蛋白酶的能力。经微生物发酵方法生产的弹性蛋白酶,经过盐析、透析、DEAE SephadexA2 5离子交换层析、SephadexG75凝胶过滤层析等纯化步骤,从其发酵液中得到了均一的酶制品。研究结果表明,酶的最适作用温度为5 0℃;在硼砂-硼酸缓冲液中最适作用pH为8 0左右;酶在碱性环境下( pH7 0~12 0 )稳定性较好;在37℃以下,酶的稳定性较高。超过6 0℃,酶在短时间内即失活 相似文献
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Mahror Norlia Jinap Selamat Fatimah Abu Bakar Son Radu Cheow Keat Chin 《Food additives & contaminants. Part A, Chemistry, analysis, control, exposure & risk assessment》2018,35(9):1787-1802
The peanut supply chain in Malaysia is dominated by three main stakeholders (importers, manufacturers, retailers). The present study aimed to determine the levels and critical points of aflatoxin and fungal contamination in peanuts along the supply chain. Specifically, two types of raw peanuts and six types of peanut-based products were collected (N = 178). Samples were analysed for aflatoxins by using high-performance liquid chromatography. Results revealed that the aflatoxin contamination was significantly higher (P ≤ 0.05) in raw peanuts and peanut-based products from the retailers. However, there was no significant difference (P ≥ 0.05) in fungal contamination for both types of peanuts except for the total fungal count in raw peanuts from the retailers. Furthermore, raw peanut kernels from the retailers were the most contaminated ones ranged from <LOD to 1021.4 µg/kg (mean: 120.7 µg/kg, median: 1.4 µg/kg) followed by the samples collected from the manufacturers which was ranged from < LOD to 181.9 µg/kg (mean: 20.5 µg/kg, median: 0.0 µg/kg). About 38% and 22% of the samples from the retailers and manufacturers were found to have exceeded the Malaysian Regulation limit (raw peanuts:15 µg/kg; peanut-based products:10 µg/kg), respectively. In contrast, no aflatoxins were detected in samples from the importers. On the other hand, 15.0% and 5.9% of peanut-based products from retailers and manufacturers, respectively, were found to have exceeded the limit. Fungal contamination (0.3–3.6 log CFU/g) was relatively higher in raw peanuts compared to that of peanut-based products (0.6–2.7 log CFU/g). In conclusion, the manufacturers and retailers were the critical points for aflatoxin contamination in peanuts. However, fungal contamination was more critical in the raw peanuts compared to peanut-based products. The study was limited by a minimal number of samples from the importer. Therefore, further investigations on a larger sample size should be conducted to confirm the findings in this present study. 相似文献