肉制品发色剂研究进展     

郭卓钊  潘丽娟  郭美媛  白卫东  黄妙云  刘晓艳 《农产品加工．学刊》2020,(1):90-93

色泽是肉制品评定的一个重要因素。在肉制品中加入发色剂可使产品色泽良好,提高产品品质。传统肉制品中通常添加亚硝酸盐等作为发色剂,其严重威胁人体健康。通过综述肉制品发色剂的使用现状、新型肉制品的研发状况,展望肉制品发色剂的开发方向与前景。  相似文献   

浅谈人造薄木生产中单板的漂白   总被引：2，自引：0，他引：2  

王贵来  宋宝昌  林木森 《林业机械与木工设备》2001,29(8):28-30

详细阐述了木材颜色的成因及漂白机理，重点介绍了人造薄木生产过程中单板漂白工艺。研究表明，经漂白处理的单板，颜色明显变浅，色调也比较均匀，而且还消除了板面污染，对单板的染色十分有利。  相似文献   

红曲霉色素的提取     

张文芳  蒋光正  李薇  刘若男 《东北农业大学学报》1990,(1)

本实验确立了一种新的红曲霉色素提取方法:以红曲米为原料,乙醇为提取剂,得到的提取液再以正己烷提取分离。结果表明,此法所得的红曲霉色素是水溶性的,宜于用作食品添加剂。此外,还对影响提取的因素进行了探讨,并提供了最佳提取方案。  相似文献   

不同能量水平对雏鹅卵黄囊吸收利用的影响     

王志跃  陈伟亮 《中国家禽》2003,25(24):11-12

试验以雏鹅为对象,研究了不同能量水平对雏鹅卵黄囊吸收利用的影响。结果表明,在59时龄以内80%以上的卵黄囊营养被吸收利用,说明这一时期是卵黄囊吸收利用的主要时期。能量水平对卵黄囊营养的吸收与利用有一定的影响,低能日粮有加速卵黄囊吸收与利用的趋势,但各采食组之间差异不显著(P>0.05)。  相似文献   

黄瓜叶色突变体遗传机制的研究   总被引：16，自引：3，他引：16  

国艳梅  顾兴芳  张春震  方秀娟  张圣平  徐彩清 《园艺学报》2003,30(4):409-412

 从黄瓜雌性系9110G中发现能稳定遗传的叶色突变体。该突变体子叶和第1～2片真叶最初为金黄色，叶绿素含量约为正常株的3／5，但随着叶片的生长这些叶片逐渐转绿。该突变体叶色黄主要是由叶绿素降低引起的，与类胡萝卜素无关。通过对亲本、F。、BE及F2后代观察和叶绿素测定，证明该突变体是细胞核遗传，由单一隐性基因控制，并且绿色对黄色为不完全显性。该突变性状是研究光合系统和基因定位的好材料，同时也可用来作为指示性状鉴定杂种纯度。  相似文献   

高温条件下芥蓝菜薹色泽的形成   总被引：2，自引：0，他引：2  

刘厚诚  黄琴  陈日远  刘晴 《中国蔬菜》2003,1(6):12-14

通过对高温条件下3个芥蓝品种菜薹色素及其相关因素研究,结果表明:芥蓝菜薹的叶绿素、花青苷和类黄酮含量尖叶夏芥蓝均为最高,荷塘芥蓝次之,中花芥蓝最低。尖叶夏的有机酸含量最高,中花次之,荷塘最低。花青苷含量较高的品种,其苯丙氨酸解氨酶(PAL)活性也比较高。芥蓝菜薹表皮色泽是叶绿素、类黄酮和花青苷等色素的综合表现,并受表皮酸碱性的影响。  相似文献   

Seasonal variation in pigmentation and anthocyanidin phenetics in commercial Eustoma flowers   总被引：2，自引：0，他引：2  

A. F. M. Jamal Uddin  Fumio Hashimoto  Toshiki Miwa  Katsuhiro Ohbo  Yusuke Sakata 《Scientia Horticulturae》2004,100(1-4):103-115

The seasonal change in petal color and pigmentation of 29 commercial Eustoma cultivars was studied. The flowers are basically divided into four groups according to the major anthocyanidin phenotype in association with petal coloration, i.e., delphinidin (Dp)-based (purple flower), cyanidin (Cy)-based (reddish purple flower), pelargonidin (Pg)-based (pink flower), and none (white flower) groups. The constitution of petal anthocyanidins was not changed by forcing treatment in most of the flowers. Lightness (L^*) and chroma (C^*, color saturation) showed a change along with the increase/decrease of hue angle difference (ΔH^*), thus simultaneously the chromatic tonalities tended to move to redder and bluer, respectively. Floral pigment clustering described two flower groups in a dendrogram, based on anthocyanidin constitutions as phenetic markers, which are apparently the Dp- and Pg-based phenotypes of anthocyanidin syntheses. The Cy-based flowers made a subcluster with the Pg-based flowers, indicating a close relationship in the biosynthesis of the two anthocyanidins, and suggesting the Dp- and Pg-syntheses complement one another.  相似文献   

Maize kernel color depends on the interaction between hardness and carotenoid concentration     

《Journal of Cereal Science》2020

Maize kernel color and carotenoid concentration are traits valued by the food industry to ensure the quality of their products. Correlations between color and carotenoid concentration have been extensively reported. Based on the concept that chromaticity is modified differently by opaque and translucent materials, we tested the hypothesis that maize kernel color is not only the result of total carotenoid concentration but also a consequence of kernel hardness. Kernel hardness (test weight, vitreousness, and floaters percentage), carotenoid concentration, and color (HunterLab) were measured in thirteen commercial hybrids. Genotypes showed significant differences in all analyzed kernel hardness traits, carotenoid concentration (24.7–39.4 mg kg⁻¹), and HunterLab color dimensions. Kernel color values and kernel hardness were correlated. Genotype differences in b (yellowness) were observed in kernels with similar total carotenoid concentration but contrasting hardness. For a similar carotenoid concentration harder genotypes always showed lower b values. When whole kernels were milled and color was measured on the resulting flour, genotype differences in yellowness disappeared, further supporting that the kernel vitreous structure affects kernel color. Our results sustain the notion that the genotype capacity to form larger proportions of vitreous endosperm impacts color regardless of total carotenoid concentration.  相似文献   

不同蔟具及蔟中环境对彩色茧品种秋丰×黄3茧丝质量的影响     

侯国军  张金卫  李江涛  钟伯雄  冯世民  鱼南洋  金杏丽  汤新新  丁农 《蚕桑通报》2011,42(2):22-25

通过不同蔟具及蔟中环境对彩色茧品种秋丰×黄3茧丝质影响的分析,我们得出：在自然通风或封闭环境中,用方格蔟上蔟蚕茧的一茧丝长、解舒长、解舒率、净度和清洁度要比用蜈蚣蔟好,其中解舒率分别提高了6.6%、5%;用方格蔟或蜈蚣蔟上蔟,在自然通风的蔟中环境下所得到的蚕茧茧丝质量比在封闭环境下高,解舒率更是分别提高了11.4%、9...  相似文献   

Development of IP and SCAR markers linked to the yellow seed color gene in Brassica juncea L.     

Zhen Huang  Lu Liu  Hong Lu  Lina Lang  Na Zhao  Juan Ding  Aixia Xu 《Breeding Science》2016,66(2):175-180

Previous studies showed that the yellow seed color gene of a yellow mustard was located on the A09 chromosome. In this study, the sequences of the molecular markers linked to the yellow seed color gene were analyzed, the gene was primarily mapped to an interval of 23.304 to 29.402M. Twenty genes and eight markers’ sequences in this region were selected to design the IP and SCAR primers. These primers were used to screen a BC₈S₁ population consisting of 1256 individuals. As a result, five IP and five SCAR markers were successfully developed. IP4 and Y1 were located on either side of the yellow seed color gene at a distance of 0.1 and 0.3 cM, respectively. IP1, IP2 and IP3 derived from Bra036827, Bra036828, Bra036829 separately, co-segregated with the target gene. BLAST analysis indicated that the sequences of newly developed markers showed good collinearity with those of the A09 chromosome, and that the target gene might exist between 27.079 and 27.616M. In light of annotations of the genes in this region, only Bra036828 is associated with flavonoid biosynthesis. This gene has high similarity with the TRANSPARENT TESTA6 gene, Bra036828 was hence identified as being the gene possibly responsible for yellow seed color, in our research.  相似文献