Your search keyword '"color formation"' showing total 302 results

1. Atomic Color: From Points to Probability Distributions

Author

Morovič, Peter, Morovič, Ján, Goos, Gerhard, Series Editor, Hartmanis, Juris, Founding Editor, Bertino, Elisa, Editorial Board Member, Gao, Wen, Editorial Board Member, Steffen, Bernhard, Editorial Board Member, Yung, Moti, Editorial Board Member, Schettini, Raimondo, editor, Trémeau, Alain, editor, Tominaga, Shoji, editor, Bianco, Simone, editor, and Buzzelli, Marco, editor

Published

2025

2. A review on chemical mechanisms of kraft pulping.

Author

Henriksson, Gunnar, Germgård, Ulf, and Lindström, Mikael E.

Subjects

*SULFATE pulping process, *WOOD-pulp, *POLYSACCHARIDES, *GLUCOMANNAN, *DEPOLYMERIZATION, *CELLULOSE fibers, *PLANT fibers

Abstract

Kraft pulping of wood is based on efficient depolymerization and solubilization of lignin, while cellulose is relatively undamaged. Non-cellulose cell wall polysaccharides are however in some cases heavily degraded, especially pectin and to a lesser degree also glucomannan while, xylan is relatively stable. In this mini-review, the most important reactions in lignin and polysaccharide degradation in kraft pulping are described, both the technically favorable and the problematic reactions, and the chemical background to discuss the advantages and drawbacks of the process. An attempt to put the different reactions in the perspective of the goals of the pulping process is made and a special focus is on the development of color in the pulp fiber during the kraft pulping. [ABSTRACT FROM AUTHOR]

Published

2024

3. Deciphering the microbial succession and color formation mechanism of "green-covering and red-heart" Guanyin Tuqu.

Author

Liping Zhu, Liang Chen, Bin Lin, Yin Xu, Weiwei Dong, Yijun Lv, Jie Tang, Gang Zhang, Lei Zhang, Shengzhi Yang, Qiang Yang, and Shenxi Chen

Subjects

MONASCUS purpureus, MICROBIAL communities, NUCLEOTIDE sequencing, BACILLUS (Bacteria), MONASCUS

Abstract

"Green-covering and red-heart" Guanyin Tuqu (GRTQ), as a type of special fermentation starter, is characterized by the "green-covering" formed on the surface of Guanyin Tuqu (SQ) and the "red-heart" in the center of Guanyin Tuqu (CQ). However, the mechanisms that promote temporal succession in the GRTQ microbial ecology and the formation of "green-covering and red-heart" characteristics remain unclear. Herein, we correlated the temporal profiles of microbial community succession with the main environmental variables (temperature, moisture, and acidity) and spatial position (center and surface) in GRTQ throughout fermentation. According to the results of high-throughput sequencing and culture-dependent methods, the microbial communities in the CQ and SQ demonstrated functional complementarity. For instance, the bacterial richness index of the CQ was greater than that of SQ, and the fungal richness index of the SQ was greater than that of CQ at the later stage of fermentation. Furthermore, Saccharomycopsis, Saccharomyces, Aspergillus, Monascus, Lactobacillus, Bacillus, Rhodanobacter, and Chitinophaga were identified as the dominant microorganisms in the center, while the surface was represented by Saccharomycopsis, Aspergillus, Monascus, Lactobacillus, Acetobacter, and Weissella. By revealing the physiological characteristics of core microorganisms at different spatial positions of GRTQ, such as Aspergillus clavatus and Monascus purpureus, as well as their interactions with environmental factors, we elucidated the color formation mechanism behind the phenomenon of "green" outside and "red" inside. This study provides fundamental information support for optimizing the production process of GRTQ. [ABSTRACT FROM AUTHOR]

Published

2024

4. Bacterial nitric oxide synthase in colorizing meat products: Current development and future directions.

Author

Huang, Pan, Luo, Huiting, Chen, Conggui, Li, Peijun, and Xu, Baocai

Subjects

*NITRIC-oxide synthases, *MEAT, *NEW product development, *MEAT industry, *LIPIDS, *NITRIC oxide, *NITRATE reductase

Abstract

Nitrite has been widely used in meat products for its abilities including color formation, antimicrobial properties, flavor formation and preventing lipid oxidation. However, the possible generation of N-nitrosamines through reaction of nitrite with secondary amines arises many concerns in the usage of nitrite. For a long time, nitrite substitution is unsettled issue in the meat industry. Many attempts have been tried, however, the alternative solutions are often ephemeral and palliative. In recent years, bacterial nitric oxide synthase (bNOS) has received attention for its critical roles, especially in reddening meat products. This comprehensive background study summarizes the application of bNOS in colorizing meat products, its functions in bacteria, and methods of regulating the bNOS pathway. Based on this information, some strategies for promoting the nitric oxide yield for effectively substituting nitrite are presented, such as changing the environmental conditions for bacterial survival and adding substrate. Thus, bNOS is a promising nitrite substitute for color formation, and further research on its other roles in meat needs to be carried out to obtain the complete picture. [ABSTRACT FROM AUTHOR]

Published

2024

5. Synthesis and structural characteristics analysis of melanin pigments induced by blue light in Morchella sextelata.

Author

Zhiheng Qiu, Shuang Wang, Jiazhi Zhao, Lingxiu Cui, Xinyi Wang, Nuo Cai, Hongpeng Li, Shuhua Ren, Tianlai Li, and Lili Shu

Subjects

MELANINS, BLUE light, PIGMENT analysis, MELANOGENESIS, TRANSMISSION electron microscopy, EDIBLE mushrooms

Abstract

Morchella sextelata, a highly sought-after edible mushroom worldwide, is evaluated based on its cap color as an essential commercial property indicator. In the present study, the effects of blue light on cap pigmentation in M. sextelata, as well as the synthesis and structural characteristics of melanin pigments within the cap were examined. The results showed that an increase in the proportion of blue light within the lighting environment promoted melanin synthesis and melanization of the cap. Transmission and scanning electron microscopy revealed the localization of melanin within the mycelium and its ultrastructural characteristics. The UV-visible analysis demonstrated that melanin exhibited a maximum absorption peak at 220 nm and possessed high alkaline solubility as well as acid precipitability. The structural characteristics of melanin were analyzed using FTIR, NMR, HPLC, and elemental analysis, which confirmed the presence of eumelanin, pheomelanin, and allomelanin in both brown and black caps. Furthermore, blue light can stimulate the synthesis of both eumelanin and pheomelanin. The obtained results can serve as the foundation for comprehending the mechanism by which light regulates color formation in mushrooms. [ABSTRACT FROM AUTHOR]

Published

2024

6. Unveiling the microbiota of sauce-flavor Daqu and its relationships with flavors and color during maturation.

Author

Weiwei Dong, Xiang Yu, Luyao Wang, Menglin Zou, Jiyuan Ma, Jun Liu, Yanli Feng, Shumiao Zhao, Qiang Yang, Yuanliang Hu, and Shenxi Chen

Abstract

This study investigated the microbial community in three-color sauce-flavor Daqu (black, yellow, and white) throughout their maturation processes, together with their physicochemical factors, culturable microbes, flavor components, and fermenting vitalities. Results from high-throughput sequencing revealed distinct microbial diversity, with more pronounced variations in bacterial community than in fungal community. Firmicutes and Ascomycota emerged as the most dominant bacterial and fungal phyla, respectively, during maturation. Genus-level analysis identified Kroppenstedia, Virgibacillus, and Bacillus as dominant bacteria in black Daqu, yellow Daqu, and white Daqu, severally, while Thermoascus was shared as the core dominant fungi for these Daqu. Physicochemical factors, particularly acidity, were found to exert a significant impact on microbial community. Kroppenstedtia was the key bacteria influencing the color formation of these Daqu. Furthermore, correlations between dominant microbes and flavor compounds highlighted their role in Daqu quality. Molds (Aspergillus, Rhizomucor, and Rhizopus), excepting Bacillus, played a crucial role in the formation of pyrazine compounds. Consequently, this study offers innovative insights into the microbial perspectives on color and pyrazine formation, establishing a groundwork for future mechanized Daqu production and quality control of sauce-flavor baijiu. [ABSTRACT FROM AUTHOR]

Published

2024

7. Integrative Metabolome and Transcriptome Analyses Provide Insights into Carotenoid Variation in Different-Colored Peppers.

Author

Lv, Junheng, Zhang, Ruihao, Mo, Yunrong, Zhou, Huidan, Li, Mengjuan, Wu, Rui, Cheng, Hong, Zhang, Mingxian, Wang, Huasu, Hua, Wei, Deng, Qiaoling, Zhao, Kai, and Deng, Minghua

Subjects

*TRANSCRIPTOMES, *CAROTENOIDS, *CULTIVARS, *FRUIT, *PEPPERS, *PIGMENTS, *BIOSYNTHESIS

Abstract

Carotenoids are important pigments in pepper fruits. The colors of each pepper are mainly determined by the composition and content of carotenoid. The 'ZY' variety, which has yellow fruit, is a natural mutant derived from a branch mutant of 'ZR' with different colors. ZY and ZR exhibit obvious differences in fruit color, but no other obvious differences in other traits. To investigate the main reasons for the formation of different colored pepper fruits, transcriptome and metabolome analyses were performed in three developmental stages (S1–S3) in two cultivars. The results revealed that these structural genes (PSY1, CRTISO, CCD1, CYP97C1, VDE1, CCS, NCED1 and NCED2) related to carotenoid biosynthesis were expressed differentially in the two cultivars. Capsanthin and capsorubin mainly accumulated in ZR and were almost non-existent in ZY. S2 is the fruit color-changing stage; this may be a critical period for the development of different color formation of ZY and ZR. A combination of transcriptome and metabolome analyses indicated that CCS, NCED2, AAO4, VDE1 and CYP97C1 genes were key to the differences in the total carotenoid content. These new insights into pepper fruit coloration may help to improve fruit breeding strategies. [ABSTRACT FROM AUTHOR]

Published

2023

8. Synthesis and structural characteristics analysis of melanin pigments induced by blue light in Morchella sextelata

Author

Zhiheng Qiu, Shuang Wang, Jiazhi Zhao, Lingxiu Cui, Xinyi Wang, Nuo Cai, Hongpeng Li, Shuhua Ren, Tianlai Li, and Lili Shu

Subjects

Morchella sextelata, blue light, melanin, synthesis, ultrastructural characteristics, color formation, Microbiology, QR1-502

Abstract

Morchella sextelata, a highly sought-after edible mushroom worldwide, is evaluated based on its cap color as an essential commercial property indicator. In the present study, the effects of blue light on cap pigmentation in M. sextelata, as well as the synthesis and structural characteristics of melanin pigments within the cap were examined. The results showed that an increase in the proportion of blue light within the lighting environment promoted melanin synthesis and melanization of the cap. Transmission and scanning electron microscopy revealed the localization of melanin within the mycelium and its ultrastructural characteristics. The UV–visible analysis demonstrated that melanin exhibited a maximum absorption peak at 220 nm and possessed high alkaline solubility as well as acid precipitability. The structural characteristics of melanin were analyzed using FTIR, NMR, HPLC, and elemental analysis, which confirmed the presence of eumelanin, pheomelanin, and allomelanin in both brown and black caps. Furthermore, blue light can stimulate the synthesis of both eumelanin and pheomelanin. The obtained results can serve as the foundation for comprehending the mechanism by which light regulates color formation in mushrooms.

Published

2023

9. Identification of key regulatory pathways and genes involved in the dynamic progression of pigmentation in Sinibrama taeniatus

Author

Dengyue Yuan, Xiaoqin Liu, Siya Wang, Haoyu Wang, Junting Li, Zhe Zhao, Lan Wei, Linfeng Cheng, Ran Teng, and Zhijian Wang

Subjects

color formation, chromatophores, pigments, pigmentation gene, Cyprinidae fish, Science, General. Including nature conservation, geographical distribution, QH1-199.5

Abstract

IntorductionColoration is a prominent trait in fish that is closely linked to their market value. Fish exhibit a diverse range of body colors, making them an excellent model for studying molecular mechanisms underlying pigmentation. Although regulatory pathways involved in pigmentation have been extensively studied in model fish such as zebrafish and medaka, the presence of varying chromatophore types across different fish species suggests that fish pigmentation mechanisms are not fixed. Therefore, more studies should be conducted on non-model fish. Sinibrama taeniatus is an endemic fish in the upper Yangtze River that is highly valued for its ornamental and edible properties.MethodsIn this study, we identified three chromatophore types in S. taeniatus and investigated changes in body color, chromatophores, and pigments at different developmental stages. Subsequently, RNA-seq analysis revealed that retinol metabolism, thyroid hormone synthesis, purine metabolism, and pyrimidine metabolism pathway are closely associated with pigmentation.ResultsWeighted gene co-expression network analysis (WGCNA) identified several hub genes, including mitf, wnt 9a, wnt10b, wnt11, adcy5, edn1, adcy8, and rdh8, that may play an important role in pigmentation.DiscussionOverall, our findings provide valuable insights into the role of genes and pathways in fish pigmentation and offer useful information for body color-based molecular breeding programs in aquaculture.

Published

2023

10. Sucrose enhances the chromogenic ability of Staphylococcus xylosus by improving nitric oxide synthase activity.

Author

(徐志强), Zhiqiang Xu, (郑文滨), Wenbin Zheng, (赵尚), Shang Zhao, (陈勇), Yong Chen, (杨庆利), Qingli Yang, and (朱英莲), Yinglian Zhu

Subjects

STAPHYLOCOCCUS, SUCROSE, NITRIC-oxide synthases, ZETA potential, ELECTRON paramagnetic resonance

Abstract

In this paper, the effect of different concentrations of sucrose stress on color formation of the Staphylococcus xylosus was investigated. The results showed that the highest a * value and the best coloring effect similar to those of nitrite were observed after the addition of 0.05 g/mL sucrose to stress the S. xylosus. UV-Vis and electron spin resonance spectra analysis showed that production of coloring product Mb-NO was significantly enhanced after 0.05 g/mL sucrose stress. The growth curve, reactive oxygen content, cell cycle, nitric oxide synthase (NOS) activity, zeta potential, cell size, and protein composition of S. xylosus were investigated to reveal the mechanism of sucrose stress to enhance the coloring effect of the strain. The result showed that sucrose inhibited the growth of S. xylosus , which changed the physiological state by activating the oxidative stress response. The stress altered the rate of intracellular metabolism of S. xylosus by delaying the cell cycle and increasing cell surface zeta potential and cell particle size. These changes altered the protein composition of the cells and significantly enhanced the activity of intracellular NOS, which could improve the chromogenic ability of S. xylosus. This study will provide theoretical support for sucrose stress on S. xylosus to enhance its coloring effect, and sucrose stress for S. xylosus might be a promising biological alternative to nitrite in meat products. [ABSTRACT FROM AUTHOR]

Published

2023

11. Integrative Metabolome and Transcriptome Analyses Provide Insights into Carotenoid Variation in Different-Colored Peppers

Author

Junheng Lv, Ruihao Zhang, Yunrong Mo, Huidan Zhou, Mengjuan Li, Rui Wu, Hong Cheng, Mingxian Zhang, Huasu Wang, Wei Hua, Qiaoling Deng, Kai Zhao, and Minghua Deng

Subjects

pepper, carotenoid, color formation, metabolome, transcriptome, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

Carotenoids are important pigments in pepper fruits. The colors of each pepper are mainly determined by the composition and content of carotenoid. The ‘ZY’ variety, which has yellow fruit, is a natural mutant derived from a branch mutant of ‘ZR’ with different colors. ZY and ZR exhibit obvious differences in fruit color, but no other obvious differences in other traits. To investigate the main reasons for the formation of different colored pepper fruits, transcriptome and metabolome analyses were performed in three developmental stages (S1–S3) in two cultivars. The results revealed that these structural genes (PSY1, CRTISO, CCD1, CYP97C1, VDE1, CCS, NCED1 and NCED2) related to carotenoid biosynthesis were expressed differentially in the two cultivars. Capsanthin and capsorubin mainly accumulated in ZR and were almost non-existent in ZY. S2 is the fruit color-changing stage; this may be a critical period for the development of different color formation of ZY and ZR. A combination of transcriptome and metabolome analyses indicated that CCS, NCED2, AAO4, VDE1 and CYP97C1 genes were key to the differences in the total carotenoid content. These new insights into pepper fruit coloration may help to improve fruit breeding strategies.

Published

2023

12. Metabolome and Transcriptome Analysis Reveal the Accumulation Mechanism of Carotenoids and the Causes of Color Differences in Persimmon (Diospyros kaki Thunb.) Fruits.

Author

Ye, Lingshuai, Mai, Yini, Wang, Yiru, Yuan, Jiaying, Suo, Yujing, Li, Huawei, Han, Weijuan, Sun, Peng, Diao, Songfeng, and Fu, Jianmin

Subjects

*PERSIMMON, *CAROTENOIDS, *LYCOPENE, *DIOSPYROS, *TRANSCRIPTOMES, *FRUIT, *COLOR

Abstract

To explore the mechanisms of the color formation of different colored persimmon fruits, we used two different colored persimmon cultivars (yellow-peeled persimmon fruit 'Zhongshi No.6' and red-peeled persimmon fruit 'Hongdenglong') as materials to study the synthesis and accumulation of carotenoids in three stages (full green, color transition, and full yellow or red) using targeted metabolomic and transcriptomic methods. A total of 14 carotenoids and 30 carotenoid lipids were identified in the peel of the two persimmon cultivars. After analysis, it was found that the total carotenoid content of the red persimmon cultivar was higher than that of the yellow persimmon cultivar. The contents of lycopene, α-carotenoid, β-carotenoid, (E/Z)-phytoene, and β-cryptoxanthin are the main reasons for the difference in total carotenoid content between the two persimmon cultivars, especially lycopene. Twelve structural genes involved in the metabolism of carotenoids were also found in this study. In comprehensive metabolome and transcriptome analysis, we found that, between the two persimmon cultivars, lycopene was the key metabolite responsible for the color difference, and PSY, LCYE, and ZDS were the key genes that regulated the differences in lycopene accumulation. The results of this study provide us with new information regarding persimmon fruit synthesis and accumulation. In addition, they also provide a theoretical foundation for improving persimmon fruit germplasm. [ABSTRACT FROM AUTHOR]

Published

2022

13. Transcriptome and metabolome analysis reveals anthocyanin biosynthesis pathway associated with ramie (Boehmeria nivea (L.) Gaud.) leaf color formation

Author

Xinkang Feng, Gang Gao, Chunming Yu, Aiguo Zhu, Jikang Chen, Kunmei Chen, Xiaofei Wang, Aminu Shehu Abubakar, and Ping Chen

Subjects

Ramie variety, Leaf, Color formation, Metabolites, Anthocyanins, Biotechnology, TP248.13-248.65, Genetics, QH426-470

Abstract

Abstract Background The bast fiber crop ramie can be used as high-quality forage resources, especially in tropical or subtropical region where there is lack of high-quality protein feed. Hongxuan No.1 (HX_1) is a unique ramie variety with a light reddish brown leaf color, which is obviously different from elite cultivar, Zhongzhu No.1 (ZZ_1, green leaf). While, the regulatory mechanism of color difference or secondary metaboliates synthesis between these two varieties have not been studied. Results In this study, phenotypic, transcriptomic and metabolomic analysis of HX_1 and ZZ_1 were conducted to elucidate the mechanism of leaf color formation. Chromaticity value and pigment content measuring showed that anthocyanin was the main metabolites imparting the different leaf color phenotype between the two varieties. Based on LC/MS, at least 14 anthocyanins were identified in leaves of HX_1 and ZZ_1, and the HX_1 showed the higher relative content of malvidin-, pelargonidin-,and cyanidin-based anthocyanins. Transcriptome and metabolome co-analysis revealed that the up-regulated expression of flavonoids synthesis gene was positively correlated with total anthocyanins accumulation in ramie leaf, and the differentfially expression of “blue gene” (F3’5’H) and the “red gene” (F3’H) in leaves bring out HX_1 metabolic flow more input into the cyanidin branch. Furthermore, the enrichment of glycosylated modification pathway (UGT and AT) and the expression of flavonoid 3-O-glucosyl transferase (UFGT), anthocyanidin reductase (ANR), in leaves were significantly influenced the diversity of anthocyanins between HX_1 and ZZ_1. Conclusions Phenotypic, transcriptomic and metabolomic analysis of HX_1 and ZZ_1 indicated that the expression levels of genes related to anthocyanin metabolism contribute to the color formation of ramie variety. Anthocyanins are important plant secandary metabilates with many physiological functions, the results of this study will deepened our understanding of ramie leaf color formation, and provided basis for molecular breeding of functional forage ramie.

Published

2021

14. Integrated Metabolomic and Transcriptomic Analyses Reveal Novel Insights of Anthocyanin Biosynthesis on Color Formation in Cassava Tuberous Roots

Author

Lili Fu, Zehong Ding, Weiwei Tie, Jinghao Yang, Yan Yan, and Wei Hu

Subjects

cassava tuberous roots, color formation, anthocyanin biosynthesis, metabolome, transcriptome, coordinate regulation, Nutrition. Foods and food supply, TX341-641

Abstract

Yellow roots are of higher nutritional quality and better appearance than white roots in cassava, a crucial tropical and subtropical root crop. In this work, two varieties with yellow and white cassava roots were selected to explore the mechanisms of color formation by using comparative metabolome and transcriptome analyses during seven developmental stages. Compared with the white-rooted cassava, anthocyanins, catechin derivatives, coumarin derivatives, and phenolic acids accumulated at higher levels in yellow-rooted cassava. Anthocyanins were particularly enriched and displayed different accumulation patterns during tuberous root development. This was confirmed by metabolic comparisons between five yellow-rooted and five white-rooted cassava accessions. The integrative metabolomic and transcriptomic analysis further revealed a coordinate regulation of 16 metabolites and 11 co-expression genes participating in anthocyanin biosynthesis, suggesting a vital role of anthocyanin biosynthesis in yellow pigmentation in cassava tuberous roots. In addition, two transcriptional factors, i.e., MeMYB5 and MeMYB42, were also identified to co-express with these anthocyanin biosynthesis genes. These findings expand our knowledge on the role of anthocyanin biosynthesis in cassava root color formation, and offer useful information for the genetic breeding of yellow-rooted cassava in the future.

Published

2022

15. Deciphering the microbial succession and color formation mechanism of "green-covering and red-heart" Guanyin Tuqu .

Author

Zhu L, Chen L, Lin B, Xu Y, Dong W, Lv Y, Tang J, Zhang G, Zhang L, Yang S, Yang Q, and Chen S

Abstract

"Green-covering and red-heart" Guanyin Tuqu (GRTQ), as a type of special fermentation starter, is characterized by the "green-covering" formed on the surface of Guanyin Tuqu (SQ) and the "red-heart" in the center of Guanyin Tuqu (CQ). However, the mechanisms that promote temporal succession in the GRTQ microbial ecology and the formation of "green-covering and red-heart" characteristics remain unclear. Herein, we correlated the temporal profiles of microbial community succession with the main environmental variables (temperature, moisture, and acidity) and spatial position (center and surface) in GRTQ throughout fermentation. According to the results of high-throughput sequencing and culture-dependent methods, the microbial communities in the CQ and SQ demonstrated functional complementarity. For instance, the bacterial richness index of the CQ was greater than that of SQ, and the fungal richness index of the SQ was greater than that of CQ at the later stage of fermentation. Furthermore, Saccharomycopsis , Saccharomyces , Aspergillus , Monascus , Lactobacillus , Bacillus , Rhodanobacter , and Chitinophaga were identified as the dominant microorganisms in the center, while the surface was represented by Saccharomycopsis , Aspergillus , Monascus , Lactobacillus , Acetobacter , and Weissella . By revealing the physiological characteristics of core microorganisms at different spatial positions of GRTQ, such as Aspergillus clavatus and Monascus purpureus , as well as their interactions with environmental factors, we elucidated the color formation mechanism behind the phenomenon of "green" outside and "red" inside. This study provides fundamental information support for optimizing the production process of GRTQ., Competing Interests: LiZ, LC, BL, YX, YL, JT, GZ, LeZ, SY, QY, and SC were employed by the Jing Brand Co., Ltd. The remaining author declares that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2024 Zhu, Chen, Lin, Xu, Dong, Lv, Tang, Zhang, Zhang, Yang, Yang and Chen.)

Published

2024

16. DETERMINATION OF COLOR FORMATION OF MULTICOMPONENT FRUIT AND VEGETABLE PASTES AND DRIED POWDER FRACTIONS DURING LOW TEMPERATURE TREATMENT.

Author

Zagorulko, Aleksey, Zahorulko, Andrii, Bondar, Mariana, Postadzhiev, Alexander, and Eldar, Ibaiev

Subjects

*FRUIT, *HEAT transfer, *RAW materials, *COLORIMETRY, *SPECTROMETRY

Abstract

The aim of the work is to determine the color formation of multicomponent fruit and vegetable pastes and dried powder fractions at the stages of low-temperature pre-concentration and drying, as one of the factors, maintaining the quality of the products. In the production of organic plant semi-finished products an important factor is the implementation of high-quality technological operations, including heat and mass transfer, which affects the final organoleptic characteristics of products. It is important to take into account the color of raw materials at the stages of blending puree in the production of paste and powder semi-finished products, which requires the introduction of a unified method for assessing the color of raw materials at each stage of the technological operation. An analysis of traditional methods for determining color formation has been performed, as a result of which it has been found, that the most effective method of evaluation is digital, based on photo processing of the prototype. According to this method, the evaluation of color formation in the manufacture of semi-finished fruits and vegetables in accordance with the proposed recipes has been conducted. Color indices of multicomponent pastes and dried fractions based on them for three prototypes were obtained. The brightness of all samples of pastes is in the range - 36.4... 37.0 % with a purity of tone 64.7... 78.2 %, which corresponds to the reddish-orange color, was obtained. After drying the test samples of pastes to the dried fraction, it has been found, that the brightness, depending on the percentage of raw materials in a sample falls in the range of 30.5... 33.2 %, at that the coloration corresponds to colors from bluish-purple to bluish-red with a purity of tone within 34.7... 34.9 %. As a result of evaluation of organoleptic indicators, it has been found, that according to the presented research samples, the best indicators have a sample with 40 % of raw apples, 20 % of pumpkin, 30 % of cranberries and 10 % of hawthorn. The obtained research data will be useful in the development of methods for the production of semi-finished products from vegetable raw materials. The applied digital method of color determination differs in simplicity and economy in comparison with colorimetric and spectrometric. [ABSTRACT FROM AUTHOR]

Published

2021

17. Transcriptomics Integrated With Widely Targeted Metabolomics Reveals the Mechanism Underlying Grain Color Formation in Wheat at the Grain-Filling Stage.

Author

Li, Li, Kong, Zhiyou, Huan, Xiuju, Liu, Yeju, Liu, Yongjiang, Wang, Qianchao, Liu, Junna, Zhang, Ping, Guo, Yirui, and Qin, Peng

Subjects

WHEAT breeding, WHEAT seeds, TRANSCRIPTOMES, NUTRITIONAL value, CYANIDIN, WHEAT

Abstract

Colored wheat grains have a unique nutritional value. To elucidate the color formation mechanism in wheat seeds, comprehensive metabolomic and transcriptomic analyses were conducted on purple (Dianmai 20-1), blue (Dianmai 20-8), and white (Dianmai 16) wheat at the grain-filling stage. The results showed that the flavonoid biosynthesis pathway was closely related to grain color formation. Among the 603 metabolites identified in all varieties, there were 98 flavonoids. Forty-six flavonoids were detected in purple and blue wheat, and there were fewer flavonoids in white wheat than in colored wheat. Integrated transcriptomic and metabolomic analyses showed that gene expression modulated the flavonoid composition and content, resulting in different metabolite levels of pelargonidin, cyanidin, and delphinidin, thus affecting the color formation of wheat grains. The present study clarifies the mechanism by which pigmentation develops in wheat grains and provides an empirical reference for colored wheat breeding. [ABSTRACT FROM AUTHOR]

Published

2021

18. Transcriptome and metabolome analysis reveals anthocyanin biosynthesis pathway associated with ramie (Boehmeria nivea (L.) Gaud.) leaf color formation.

Author

Feng, Xinkang, Gao, Gang, Yu, Chunming, Zhu, Aiguo, Chen, Jikang, Chen, Kunmei, Wang, Xiaofei, Abubakar, Aminu Shehu, and Chen, Ping

Subjects

*LEAF color, *RAMIE, *TRANSCRIPTOMES, *ANTHOCYANINS, *BIOSYNTHESIS

Abstract

Background: The bast fiber crop ramie can be used as high-quality forage resources, especially in tropical or subtropical region where there is lack of high-quality protein feed. Hongxuan No.1 (HX_1) is a unique ramie variety with a light reddish brown leaf color, which is obviously different from elite cultivar, Zhongzhu No.1 (ZZ_1, green leaf). While, the regulatory mechanism of color difference or secondary metaboliates synthesis between these two varieties have not been studied. Results: In this study, phenotypic, transcriptomic and metabolomic analysis of HX_1 and ZZ_1 were conducted to elucidate the mechanism of leaf color formation. Chromaticity value and pigment content measuring showed that anthocyanin was the main metabolites imparting the different leaf color phenotype between the two varieties. Based on LC/MS, at least 14 anthocyanins were identified in leaves of HX_1 and ZZ_1, and the HX_1 showed the higher relative content of malvidin-, pelargonidin-,and cyanidin-based anthocyanins. Transcriptome and metabolome co-analysis revealed that the up-regulated expression of flavonoids synthesis gene was positively correlated with total anthocyanins accumulation in ramie leaf, and the differentfially expression of "blue gene" (F3'5'H) and the "red gene" (F3'H) in leaves bring out HX_1 metabolic flow more input into the cyanidin branch. Furthermore, the enrichment of glycosylated modification pathway (UGT and AT) and the expression of flavonoid 3-O-glucosyl transferase (UFGT), anthocyanidin reductase (ANR), in leaves were significantly influenced the diversity of anthocyanins between HX_1 and ZZ_1. Conclusions: Phenotypic, transcriptomic and metabolomic analysis of HX_1 and ZZ_1 indicated that the expression levels of genes related to anthocyanin metabolism contribute to the color formation of ramie variety. Anthocyanins are important plant secandary metabilates with many physiological functions, the results of this study will deepened our understanding of ramie leaf color formation, and provided basis for molecular breeding of functional forage ramie. [ABSTRACT FROM AUTHOR]

Published

2021

19. Metabolome and Transcriptome Analysis Reveal the Accumulation Mechanism of Carotenoids and the Causes of Color Differences in Persimmon (Diospyros kaki Thunb.) Fruits

Author

Lingshuai Ye, Yini Mai, Yiru Wang, Jiaying Yuan, Yujing Suo, Huawei Li, Weijuan Han, Peng Sun, Songfeng Diao, and Jianmin Fu

Subjects

persimmon, carotenoids, targeted metabolomics, transcriptomics, color formation, Agriculture

Abstract

To explore the mechanisms of the color formation of different colored persimmon fruits, we used two different colored persimmon cultivars (yellow-peeled persimmon fruit ‘Zhongshi No.6’ and red-peeled persimmon fruit ‘Hongdenglong’) as materials to study the synthesis and accumulation of carotenoids in three stages (full green, color transition, and full yellow or red) using targeted metabolomic and transcriptomic methods. A total of 14 carotenoids and 30 carotenoid lipids were identified in the peel of the two persimmon cultivars. After analysis, it was found that the total carotenoid content of the red persimmon cultivar was higher than that of the yellow persimmon cultivar. The contents of lycopene, α-carotenoid, β-carotenoid, (E/Z)-phytoene, and β-cryptoxanthin are the main reasons for the difference in total carotenoid content between the two persimmon cultivars, especially lycopene. Twelve structural genes involved in the metabolism of carotenoids were also found in this study. In comprehensive metabolome and transcriptome analysis, we found that, between the two persimmon cultivars, lycopene was the key metabolite responsible for the color difference, and PSY, LCYE, and ZDS were the key genes that regulated the differences in lycopene accumulation. The results of this study provide us with new information regarding persimmon fruit synthesis and accumulation. In addition, they also provide a theoretical foundation for improving persimmon fruit germplasm.

Published

2022

20. Comparative metabolomics profiling highlights unique color variation and bitter taste formation of Chinese cherry fruits.

Author

Liu, Zhenshan, Wang, Hao, Zhang, Jing, Chen, Qing, He, Wen, Zhang, Yong, Luo, Ya, Tang, Haoru, Wang, Yan, and Wang, Xiaorong

Subjects

*BITTERNESS (Taste), *FRUIT, *CHERRIES, *METABOLOMICS, *PHENOLIC acids, *RECEIVER operating characteristic curves

Abstract

• Ten metabolic biomarkers were identified to distinguish specific Chinese cherry accessions. • The various color of Chinese cherry fruits was collectively determined by twenty-six structurally unique anthocyanins. • Cyanidins played a dominant role in the color formation of Chinese cherry fruits. • Limocitrin-7-O-glucoside and eight other compounds were potentially contributing to Chinese cherry fruits' bitter flavor. Chinese cherry [ Cerasus pseudocerasus (Lindl.) G.Don], native to China, is an economically important fruit crop with attractive colors and delicious flavors. However, the specific metabolites present in cherry fruits have remained unknown. Here, we firstly characterized 1439 metabolite components of Chinese cherry fruits, predominantly including amino acids, flavonoids, and phenolic acids. Moreover, we screened ten biomarkers of Chinese cherry accessions by ROC curve analysis. Among 250 flavonoids, 26 structurally unique anthocyanins collectively determined fruit color, with cyanidins playing a dominant role. Differences in accumulated metabolites between anthocyanin and proanthocyanidin pathways were likely responsible for the variation in fruit color, ranging from yellow to black purple. Meanwhile, we found limocitrin-7-O-glucoside, along with eight other compounds, as underlying contributors to bitter off-taste experienced in fruits. This study provides insights into the regulatory network of metabolites involved in color variation and bitterness formation and genetic improvement of Chinese cherry fruits. [ABSTRACT FROM AUTHOR]

Published

2024

21. Unveiling the microbiota of sauce-flavor Daqu and its relationships with flavors and color during maturation.

Author

Dong W, Yu X, Wang L, Zou M, Ma J, Liu J, Feng Y, Zhao S, Yang Q, Hu Y, and Chen S

Abstract

This study investigated the microbial community in three-color sauce-flavor Daqu (black, yellow, and white) throughout their maturation processes, together with their physicochemical factors, culturable microbes, flavor components, and fermenting vitalities. Results from high-throughput sequencing revealed distinct microbial diversity, with more pronounced variations in bacterial community than in fungal community. Firmicutes and Ascomycota emerged as the most dominant bacterial and fungal phyla, respectively, during maturation. Genus-level analysis identified Kroppenstedia , Virgibacillus , and Bacillus as dominant bacteria in black Daqu , yellow Daqu , and white Daqu , severally, while Thermoascus was shared as the core dominant fungi for these Daqu . Physicochemical factors, particularly acidity, were found to exert a significant impact on microbial community. Kroppenstedtia was the key bacteria influencing the color formation of these Daqu . Furthermore, correlations between dominant microbes and flavor compounds highlighted their role in Daqu quality. Molds ( Aspergillus , Rhizomucor , and Rhizopus ), excepting Bacillus , played a crucial role in the formation of pyrazine compounds. Consequently, this study offers innovative insights into the microbial perspectives on color and pyrazine formation, establishing a groundwork for future mechanized Daqu production and quality control of sauce-flavor baijiu., Competing Interests: WD, QY, and SC were employed by Jing Brand Co., Ltd. The remaining authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2024 Dong, Yu, Wang, Zou, Ma, Liu, Feng, Zhao, Yang, Hu and Chen.)

Published

2024

22. CircRNA-mediated ceRNA regulatory network during flower development and color formation in Melastoma candidum.

Author

Li, Hui, Wang, Wei, Lu, Yan, Chen, Hongpeng, Dai, Seping, Yu, Yixun, and Ruan, Lin

Subjects

*GENE expression, *FLOWER development, *CIRCULAR RNA, *ALTERNATIVE RNA splicing, *NON-coding RNA, *GENETIC engineering

Abstract

• CircRNAs are detected in developing flowers of melastoma candidum. • CircRNAs may originate from the alternative splicing process of genes. • CircRNAs sponge miRNAs to regulate genes related to flower development. • CircRNAs regulate compounds synthesis via ceRNA regulatory mechanism. Melastoma candidum D. Don is widely distributed in South China. However, its application in the garden industry is not ideal due to its sole flower color; thus, its color needs urgent improvement. In this study, we conducted high throughput transcriptome sequencing for circular RNA (circRNA), mRNA, small RNA (sRNA), and widely targeted metabolome in flowers at three developmental stages. RNA expression and metabolite abundance analyses identified differentially expressed circRNAs (DEcircRNAs), mRNAs (DEmRNAs), miRNAs (DEmiRNAs), and differentially synthesized metabolites (DSmets). Alternative variants of genes were given statistics and the reason for their occurrence was analyzed. GO enrichment and KEGG analyses were conducted on the source gene of DEcircRNAs and KEGG analyses on DSmets. Key genes and metabolites were identified in flavonoid, flavone, anthocyanin, carotenoid, and alkaloid biosynthetic pathways. Based on the above analyses, we built a circRNA-mediated ceRNA regulatory network. Nine circRNA-mediated ceRNA regulatory routines were obtained. Within the ceRNA regulatory network, circRNAs and mRNAs displayed positive correlations, both of which exhibit negative correlations with miRNAs, indicating their important roles during flower development and color formation of M. candidum. Amongst, circ_000434-miR5207- McF3H could regulate the biosynthesis of Dihydroquercetin, Dihydromyricetin, and Pinobanksin; circ_000302-miR319–5p- McHST and circ_00012 -miR826- McTAT could regulate the biosynthesis of p -Counmaryl shikimic acid. Our research explored the role of circRNAs in flower development and the color formation process and provided a theoretical foundation for flower color improvement in M. candidum. [ABSTRACT FROM AUTHOR]

Published

2023

23. Color Formation of Musical Compositions of Children’s Choir 'Vocalista Angels'

Author

Rian Prasetya Yunanto and Lee Yong-Shik

Subjects

Fine Arts, media_common.quotation_subject, Art, Musical, dynamics, sound color, Visual arts, children's choir, composition, achievements, Choir, Color formation, media_common

Abstract

Vocalista Angels Children's Choir is one of the children's choir groups in Klaten Regency, Central Java, Indonesia, established in 1997. Most of the members are children from villages who do not understand singing techniques correctly or conform to classical vocal techniques. So that when practicing, this group has a different method from the classical vocal method that is standard in their coaching. This study seeks to reveal the typical character traits and the principles in practice to produce a unique character distinctive. The method in carrying out this research is mostly in the form of observations involved in data collection. Written records and audiovisual recordings are the most likely ways to obtain valid data. This method produces descriptive data in the form of written, spoken, or musical words for the group members who are the object of observation. As a result, in terms of sound production, it is very clear that phrasing, articulation, resonance, and intonation are important concerns in every practice in choral processing. In the final packaging of production, this group pays serious attention to dynamics, interpretation, and expression. This kind of knowledge is very useful for developing productive and practical knowledge for the presentation of music, especially the production of music in a chorus that has complexities that are not simple.

Published

2021

24. Study of the Relationship between Leaf Color Formation and Anthocyanin Metabolism among Different Purple Pakchoi Lines

Author

Bo Song, Hai Xu, Longzheng Chen, Xiaoxue Fan, Zange Jing, Song Chen, and Zhigang Xu

Subjects

pakchoi, purple leaf, color formation, anthocyanin, Organic chemistry, QD241-441

Abstract

Purple pakchoi (Brassica rapa ssp. Chinensis) is particularly appreciated due to its high edible quality and ornamental value, but there are few studies on the underlying mechanisms of leaf color formation. To comprehensively assess the differences in purple formation in pakchoi, four lines of pakchoi with different purple leaves were used in this experiment to determine the pigment content and to investigate the distribution and components of anthocyanin using LCMS (Liquid Chromatography Mass Spectrometry) and leaf cross-sections. Moreover, the expression levels of anthocyanin synthesis-related genes in four lines were calculated by qRT-PCR. The results showed that three new purple lines rich in anthocyanin and of high-quality were bred, and the anthocyanin were mainly distributed in both the upper epidermis and lower epidermis of leaves. Thirteen anthocyanin components were separated and identified, all the anthocyanins were acylated and glycosylated cyanidins; the main anthocyanins in purple pakchoi were a diacylated form of cyanidin 3-trans-(feruloyl)diglucoside-5-(malonyl)glucoside. Both the ratio of non-aromatic acylated cyanidin to aromatic acylated cyanidin and the ratio of anthocyanin content to chlorophyll content were responsible for the color formation in different purple pakchoi lines. When the ratio was high, the leaf appeared reddish purple, and when the ratio was low, the leaf appeared deep purple, even blackish purple. The expression level of BrF3H was significantly correlated with the content of anthocyanin through the correlation coefficient, which was speculated to be the main anthocyanin synthesis-related gene resulting in color differences among the four purple pakchoi lines. These results will enhance our understanding for the cultivation of new purple pakchoi varieties.

Published

2020

25. Probing and Fostering Students’ Reasoning Abilities with a Cyclic Predict-Observe-Explain Strategy

Author

Chang, Jia-Lin, Chen, Chiing-Chang, Tsai, Chia-Hsing, Chen, Yong-Chang, Chou, Meng-Hsun, Chang, Ling-Chuan, Chiu, Mei-Hung, editor, Tuan, Hsiao-Lin, editor, Wu, Hsin-Kai, editor, Lin, Jing-Wen, editor, and Chou, Chin-Cheng, editor

Published

2013

26. Chemical Screening

Author

Khan, JaVed I., Kennedy, Thomas J., Christian, Donnell R., Jr., Khan, JaVed I., Kennedy, Thomas J., and Christian Jr., Donnell R.

Published

2012

27. Transcriptome and metabolome analysis reveals anthocyanin biosynthesis pathway associated with ramie (Boehmeria nivea (L.) Gaud.) leaf color formation

Author

Chen Kunmei, Wang Xiaofei, Gao Gang, Ping Chen, Zhu Aiguo, Chunming Yu, Xinkang Feng, Jikang Chen, and Aminu Shehu Abubakar

Subjects

Cyanidin, Color, Biology, QH426-470, Boehmeria, Anthocyanidin reductase, Ramie, Anthocyanins, Pigment, chemistry.chemical_compound, Ramie variety, Gene Expression Regulation, Plant, Botany, Metabolome, Metabolites, Genetics, Plant Proteins, Research, Gene Expression Profiling, fungi, food and beverages, biology.organism_classification, Malvidin, Plant Leaves, Leaf, chemistry, visual_art, Anthocyanin, visual_art.visual_art_medium, Transcriptome, Color formation, TP248.13-248.65, Biotechnology

Abstract

Background The bast fiber crop ramie can be used as high-quality forage resources, especially in tropical or subtropical region where there is lack of high-quality protein feed. Hongxuan No.1 (HX_1) is a unique ramie variety with a light reddish brown leaf color, which is obviously different from elite cultivar, Zhongzhu No.1 (ZZ_1, green leaf). While, the regulatory mechanism of color difference or secondary metaboliates synthesis between these two varieties have not been studied. Results In this study, phenotypic, transcriptomic and metabolomic analysis of HX_1 and ZZ_1 were conducted to elucidate the mechanism of leaf color formation. Chromaticity value and pigment content measuring showed that anthocyanin was the main metabolites imparting the different leaf color phenotype between the two varieties. Based on LC/MS, at least 14 anthocyanins were identified in leaves of HX_1 and ZZ_1, and the HX_1 showed the higher relative content of malvidin-, pelargonidin-,and cyanidin-based anthocyanins. Transcriptome and metabolome co-analysis revealed that the up-regulated expression of flavonoids synthesis gene was positively correlated with total anthocyanins accumulation in ramie leaf, and the differentfially expression of “blue gene” (F3’5’H) and the “red gene” (F3’H) in leaves bring out HX_1 metabolic flow more input into the cyanidin branch. Furthermore, the enrichment of glycosylated modification pathway (UGT and AT) and the expression of flavonoid 3-O-glucosyl transferase (UFGT), anthocyanidin reductase (ANR), in leaves were significantly influenced the diversity of anthocyanins between HX_1 and ZZ_1. Conclusions Phenotypic, transcriptomic and metabolomic analysis of HX_1 and ZZ_1 indicated that the expression levels of genes related to anthocyanin metabolism contribute to the color formation of ramie variety. Anthocyanins are important plant secandary metabilates with many physiological functions, the results of this study will deepened our understanding of ramie leaf color formation, and provided basis for molecular breeding of functional forage ramie.

Published

2021

28. Synthesis and structural characteristics analysis of melanin pigments induced by blue light in Morchella sextelata .

Author

Qiu Z, Wang S, Zhao J, Cui L, Wang X, Cai N, Li H, Ren S, Li T, and Shu L

Abstract

Morchella sextelata , a highly sought-after edible mushroom worldwide, is evaluated based on its cap color as an essential commercial property indicator. In the present study, the effects of blue light on cap pigmentation in M. sextelata , as well as the synthesis and structural characteristics of melanin pigments within the cap were examined. The results showed that an increase in the proportion of blue light within the lighting environment promoted melanin synthesis and melanization of the cap. Transmission and scanning electron microscopy revealed the localization of melanin within the mycelium and its ultrastructural characteristics. The UV-visible analysis demonstrated that melanin exhibited a maximum absorption peak at 220 nm and possessed high alkaline solubility as well as acid precipitability. The structural characteristics of melanin were analyzed using FTIR, NMR, HPLC, and elemental analysis, which confirmed the presence of eumelanin, pheomelanin, and allomelanin in both brown and black caps. Furthermore, blue light can stimulate the synthesis of both eumelanin and pheomelanin. The obtained results can serve as the foundation for comprehending the mechanism by which light regulates color formation in mushrooms., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2023 Qiu, Wang, Zhao, Cui, Wang, Cai, Li, Ren, Li and Shu.)

Published

2023

29. Some Low-Temperature Phenomena of Cellulose Pyrolysis

Author

Matsuoka, Seiji, Kawamoto, Haruo, Saka, Shiro, and Yao, Takeshi, editor

Published

2010

30. Fundamentals of Color

Author

Velho, Luiz, Frery, Alejandro, Gomes, Jonas, Gries, David, editor, Schneider, Fred B., editor, Velho, Luiz, Frery, Alejandro, and Gomes, Jonas

Published

2009

31. Investigation to Identify the Root Cause of Out-of-Specification Results for Color of a Topical Pour-on Drug Product: A Case Study

Author

Lin Wang, Rasangi M. Wimalasinghe, Abu M. Rustum, Jingzhi Tian, and Daoli Zhao

Subjects

Chromatography, Oxidative degradation, Chemistry, Product (mathematics), Organic Chemistry, Clinical Biochemistry, Drug product, Color measurement, Color formation, Root cause, Shelf life, Biochemistry, Analytical Chemistry

Abstract

One topical pour-on drug product formed a slightly yellow color and continued to increase the intensity over the shelf life of the product. This caused out-of-specification (OOS) results for the color of the drug product. Based on the experimental results obtained using high-performance liquid chromatography, high-resolution mass spectrometry, and a color measurement spectrophotometer, the root cause of color formation in the OOS sample was identified and confirmed to be 3,3′,5,5′-tetra-t-butyl-4,4’-stilbenequinone (2BHT-QM), an oxidative degradation product of t-butylated hydroxytoluene (BHT) which is used in this drug product as an antioxidant. The content of 2BHT-QM in the OOS sample was estimated to be about 0.9–1 ppm by two independent analytical methods. The results from our investigation clearly indicated that BHT can cause color change in liquid or semi-liquid formulation (drug product) and we report this for the first time. The investigation approach and rationale of described in this paper should be helpful for similar investigations when BHT is used in liquid or semi-liquid formulations.

Published

2021

32. Identification and functional characterization of AcMYB113 in anthocyanin metabolism of Aesculus chinensis Bunge var. chinensis leaves.

Author

Liu, Minmin, Liu, Genzhong, Wang, Guodong, Song, Shiyan, Zhang, Peng, Liu, Xiaofang, Li, Yuling, Mao, Xiuhong, Bao, Zhilong, and Ma, Fangfang

Subjects

*ANTHOCYANINS, *COLOR of plants, *FLAVONOIDS, *CYANIDIN, *PHENYLPROPANOIDS, *BIOSYNTHESIS

Abstract

Anthocyanins can be induced by environmental factors such as low-temperature and play essential roles in plant color formation. In this study, leaves of Aesculus chinensis Bunge var. chinensis with different colors under natural low-temperature in autumn were collected and grouped into green leaf (GL) and red leaf (RL). To reveal the underlying mechanism of color formation in RL, a combined analysis of the metabolome and transcriptome was conducted with GL and RL. Metabolic analyses revealed that total anthocyanin content and primary anthocyanin components were increased RL relative to GL and cyanidin was the main anthocyanin compound in RL. Transcriptome analysis provided a total of 18720 differentially expressed genes (DEGs), of which 9150 DEGs were upregulated and 9570 DEGs were downregulated in RL relative to GL. KEGG analysis showed that DEGs were mainly enriched in flavonoid biosynthesis, phenylalanine metabolism, and phenylpropanoid biosynthesis. Furthermore, co-expression network analysis indicated that 56 AcMYB transcription factors were highly expressed in RL compared with GL, among which AcMYB113 (an R2R3-MYB TF) had a strong correlation with anthocyanins. Overexpression of AcMYB113 in apple resulted in dark-purple transgenic calluses. In addition, the transient expression experiment showed that AcMYB113 enhanced anthocyanin synthesis by activating pathways of anthocyanin biosynthesis in leaves of Aesculus chinensis Bunge var. chinensis. Taken together, our findings reveal new insights into the molecular mechanism of anthocyanin accumulation in RL and provide candidate genes for the breeding of anthocyanin-rich cultivars. • Total anthocyanin content and primary anthocyanin components were increased RL relative to GL. • The DEGs were mainly enriched in flavonoid biosynthesis, phenylalanine metabolism, and phenylpropanoid biosynthesis. • Overexpression of AcMYB113 enhanced anthocyanin synthesis by activating the pathways of anthocyanin biosynthesis. [ABSTRACT FROM AUTHOR]

Published

2023

33. Effect of Methionine on the Thermal Degradation of N-(1-Deoxy-<scp>d</scp>-fructos-1-yl)-methionine Affecting Browning Formation

Author

Khizar Hayat, Shahzad Hussain, Yun Zhai, Qiang Zhang, Xiaoming Zhang, Heping Cui, Muhammad Tahir, Chi-Tang Ho, and Shibin Deng

Subjects

0106 biological sciences, Reaction conditions, Methionine, Chemistry, 010401 analytical chemistry, Methylglyoxal, General Chemistry, 01 natural sciences, Medicinal chemistry, 0104 chemical sciences, chemistry.chemical_compound, Amadori rearrangement, Browning, Degradation (geology), Glyoxal, Color formation, General Agricultural and Biological Sciences, 010606 plant biology & botany

Abstract

The effect of additional dl-methionine (Met) on the thermal degradation of a methionine-glucose-derived Amadori rearrangement product (MG-ARP) was investigated under different reaction conditions. The resulting color formation and changes in the concentrations of MG-ARP, Met, and α-dicarbonyl compounds were investigated. Additional Met did not affect the degradation rate of MG-ARP but got involved in subsequent reactions and resulted in a decrease in the contents of C6-α-dicarbonyl compounds. During MG-ARP degradation, the formation of glyoxal (GO) and methylglyoxal (MGO) was facilitated by additional Met, through retro-aldolization reaction of C6-α-dicarbonyl compounds. This effect of Met addition was dependent on the reaction temperature, and the consistent conclusion could be made in a buffer system. The improvement of GO and MGO formation as color precursors caused by the additional Met contributed to the acceleration of browning formation.

Published

2021

34. Rapid, sensitive universal paper-based device enhances competitive immunoassays of small molecules

Author

Masatoshi Maeki, Akihiko Ishida, Hirofumi Tani, Yuki Sato, Takeshi Komatsu, and Manabu Tokeshi

Subjects

Immunoassay, Detection limit, Chemistry, 010401 analytical chemistry, Biotin, 02 engineering and technology, Paper based, 021001 nanoscience & nanotechnology, 01 natural sciences, Biochemistry, Small molecule, Antibodies, 0104 chemical sciences, Analytical Chemistry, Layered structure, Limit of Detection, Environmental Chemistry, Competitive immunoassay, Indicators and Reagents, Color formation, 0210 nano-technology, Biological system, Spectroscopy

Abstract

Competitive immunoassays comprise the standard means of detecting small molecules. However, conventional methods using microwells are difficult to apply during point-of-care tests (POCT) because they require complicated handling and are time consuming. Although paper-based analytical devices (PAD) have received considerable focus because of their rapid and straightforward operation, only a few devices have been proposed for competitive immunoassays. Herein, we describe a novel universal PAD format with a 3-dimensional configuration for competitive immunoassays that rapidly and sensitively detects small molecules. The proposed device comprised a layered structure with uniform color formation and high capture efficiency between antigen and antibody that results in rapid and reproducible results. The device rapidly (90 s) assayed biotin as a model target, with a limit of detection (LOD) of 5.08 ng mL−1, and detected progesterone with an LOD of 84 pg mL−1 within 5 min. Moreover, sample volumes and reagent consumption rates were minimized. Thus, our device could be applied to competitive immunoassays of various small molecules in POCT.

Published

2021

35. Combined Analysis of Transcriptome and Metabolome Reveals the Potential Mechanism of Coloration and Fruit Quality in Yellow and Purple Passiflora edulis Sims

Author

Su Weiqiang, Liu Yeqiang, Li Changbao, Fang Weikuan, Qiu Wenwu, Wang Xiaomei, Cai Zhaoyan, Ming Xin, Zhijiang Wu, Dong Long, Huang Zhangbao, and Ren Hui

Subjects

0106 biological sciences, chemistry.chemical_classification, biology, 010401 analytical chemistry, Flavonoid, food and beverages, General Chemistry, biology.organism_classification, 01 natural sciences, 0104 chemical sciences, Passiflora, Transcriptome, Horticulture, Flavonols, Functional food, chemistry, Metabolome, Color formation, General Agricultural and Biological Sciences, Potential mechanism, 010606 plant biology & botany

Abstract

Passion fruit (Passiflora edulis Sims) can be divided into yellow and purple varieties. However, information about coloration and fruit quality between the two varieties is limited. To reveal the underlying mechanism of color formation in this fruit, a combined analysis of the metabolome and transcriptome was conducted in this study. The results showed that most of the evaluated flavonols, anthocyanins, and flavanols were significantly upregulated in purple fruit compared to their levels in yellow fruit. Flavonoid and flavonoid carbonoside accumulation was markedly higher in yellow fruit than in purple fruit. The accumulation of organic acids, phenolic acids, lipids, sugars, and lignans was significantly different in the yellow and purple varieties. These results were consistent with the results from the RNA-Seq profile. This study will enable us to identify genes for targeted genetic engineering to improve the nutritional and market value of passion fruit. In addition, the peel and pulp of passion fruit contained certain health-promoting compounds, highlighting the potential application of passion fruit as a functional food and providing direction for future breeding programs and production.

Published

2020

36. Acrylamide content and color formation of hazelnuts roasted at different processing temperatures and times

Author

Aysegul Cebi, Handan Aydin, and Yalçın Tepe

Subjects

Detection limit, 0303 health sciences, Brightness, 030309 nutrition & dietetics, 04 agricultural and veterinary sciences, General Chemistry, 040401 food science, Biochemistry, High-performance liquid chromatography, Industrial and Manufacturing Engineering, Degree (temperature), 03 medical and health sciences, chemistry.chemical_compound, 0404 agricultural biotechnology, chemistry, Acrylamide, Browning, Color formation, Food science, Food Science, Biotechnology, Roasting

Abstract

The acrylamide content and color formation (CIE L*, a* and b*) of hazelnuts which processed at different roasting temperatures of 130 °C, 150 °C, 160 °C and 170 °C with roasting time for 15 and 30 min were evaluated. Acrylamide contents of roasted hazelnuts were measured by means of Ultra Performance Liquid Chromatography (UPLC). Acrylamide formation of roasted hazelnuts was undetectable and stayed under the instrument detection level in all treatments with an exception. The only acrylamide formation was detected in treatment of the highest heat (170 °C) and longest time (30 min) with the value of 19 ± 2.5 μg/kg which was just below the instrument’s detection limit of 20 μg/kg. Color analyses were performed using computer-aided image processing technology (CIE L*a*b*). The Euclidean distance (ΔE) and Browning index (BI) were calculated. Color L* values which show brightness and the degree of roasting ranged from 55.14 to 76.16. The lowest color L* values were calculated from the treatment that detected acrylamide. The color L* values, therefore, may be useable as a quick quality control parameter to estimate the sufficient roasting time and temperature in roasting process of hazelnuts. The roasting temperature at 170 °C and time for 30 min may be accepted as threshold values to avoid acrylamide formation in roasting process of hazelnut according to findings of the present study.

Published

2020

37. Evaluation of celery extract (Apium greveolens L.) as a natural curing agent in the production of Italian-type Salami with native starter cultures

Author

Graciele Daiana Funck, Luciana Prietto, Wladimir Padilha da Silva, Ângela Maria Fiorentini, Claudio Eduardo dos Santos Cruxen, Ana Rita Carboni Ritter, Juliana de Lima Marques, and Guilherme da Silva Dannenberg

Subjects

Marketing, Pharmacology, Air velocity, Organizational Behavior and Human Resource Management, biology, Chemistry, Strategy and Management, food and beverages, Pharmaceutical Science, Curing salt, biology.organism_classification, Starter, Drug Discovery, Food science, Color formation, Celery extract, Apium

Abstract

The aim of this study was to evaluate celery extract as a natural curing agent in the production and characterization of Italian-type Salami with native starter cultures SxLp (S. xylosus AD1 and L. plantarum AJ2). Two formulations were produced for Italian-type Salami, to one of which was added 1.4% celery extract (T1) and to the other 0.3% commercial curing salt (T2). Maintaining the same conditions of temperature, relative humidity and air velocity, the salamis were matured for 26 days, and physicochemical, microbiological and sensorial analyses were performed. Starter culture SxLp produced a reduction in pH, promoting greater acidification of salami and reduction of nitrate, allowing color formation in the product. Moreover, the cultures remained viable (> 7 log CFU.g-1), in both treatments, during the 26 days of maturation. The combination of native starter culture with celery extract promoted microbiological safety, adequate texture and the characteristic color of cured meat sausage. Salami T1, containing starter cultures SxLp and celery extract, was well accepted by the judges, most of whom would often buy the product. Thus, the application of celery extract as a curing agent together with the addition of the native starter cultures, proved to be viable for production of Italian-type salami.

Published

2020

38. Development of a Model for Color Formation and Distribution of a Coloring Component During of the Firing of Ceramics of Frame-Painted Structure

Author

O A Fomina, Stolboushkin A.Yu., and D V Akst

Subjects

Materials science, Distribution (number theory), Component (thermodynamics), visual_art, Frame (networking), visual_art.visual_art_medium, Structure (category theory), Development (differential geometry), Building and Construction, Color formation, Ceramic, Composite material

Published

2020

39. Study on Color Formation of Cheolhwa Buncheong Stoneware Glaze by Pigment Raw Materials of Iron Oxides and Firing Conditions

Author

Ji Hye Kim, Young Yu Jeong, Sung Jae Choi, and Min Su Han

Subjects

Pigment, Materials science, visual_art, Metallurgy, Glaze, visual_art.visual_art_medium, Color formation, Raw material

Published

2019

40. Fundamentals of Color

Author

Gomes, Jonas, Velho, Luiz, Gomes, Jonas, and Velho, Luiz

Published

1997

41. Color formation and Maillard reactions during the spray drying process of skim milk and model systems

Author

Timothy A. G. Langrish and Zelin Zhou

Subjects

Maillard reaction, symbols.namesake, food.ingredient, food, Chemical engineering, Chemistry, General Chemical Engineering, Scientific method, Spray drying, Skimmed milk, symbols, Color formation, Food Science

Published

2021

42. ДОСЛІДЖЕННЯ КОЛІРНИХ ТА АНТИКОРОЗІЙНИХ ВЛАСТИВОСТЕЙ ПІГМЕНТІВ У СИСТЕМІ FE-AL-MG-О-Н

Subjects

potential, corrosion, кольороутворення, колір, pigments, пігменти, потенціал, color formation, корозія, рН витяжки, color, pH of the extract

Abstract

Urgency of the research. Promising pigments of the passive type, in addition to phosphate, are other materials - oxyhydroxides, ferrites, molybdates, stanns, borates, tungstates, which are obtained by traditional technologies. However, these methods are usually associated with significant energy costs, long synthesis times, the need to grind the fins to a finely divided state. The researchers’ interest to co-precipitation method, which allows varying the composition of anionic and cationic pigments, is growing. In addition, the developers of paints and varnishes are tasked with replacing toxic anti-corrosion chromium, cadmium and plumbum-containing pigments that are part of most modern primers of the inhibitory type. The alternative to such paints are oxide type fillers, which are anti-corrosion pigments, including oxyhydroxides, magnesium ferrites, cobalt aluminates, zinc ferrites, copper ferrites, magnesium aluminates, zinc aluminates, etc. The coloration of the pigments, their corrosion properties depend on the chromophore ions that are part of the structure of the compounds obtained.Target setting. Co-precipitation technology has several advantages over traditional ones and makes it possible to reduce the cost of producing oxide materials radically. This process is based on the use of chemical energy inside the system and allows reducing synthesis temperature, duration of the synthesis and energy costs. The simplicity of the equipment, the possibility to synthesize a large amount of the product of the required phase composition and particle size, environmental cleanliness of the process also indicate the feasibility of using this method.Actual scientific researches and issues analysis. Recently, attempts to obtain pigments co-precipitation method were made, but systematic studies of the end products was not carried out. The resulting products are mostly formed as poorly reproducible composition products. In this regard, synthesis becomes interesting in this mode, when would be obtain pigments with good color characteristics in fine condition and excluded time-consuming step of shredding. Uninvestigated parts of general matters defining. The study of the conditions of formation of pigments with the structure of oxyhydroxides, the influence of their composition on the color and anti-corrosion properties.The research objective. The study of the laws of formation of anticorrosive properties, the development of compositions for the production of pigments with using the method of co-precipitation and subsequent heat treatment.The statement of basic materials. Experimental and theoretical studies have established the influence of the nature of chromophore cations on the color tone, color purity, anticorrosion properties of pigments in the Fe-Al-Mg-O system, which allows targeted synthesis of beige, red and yellow pigments with high anticorrosive properties.Conclusions. The main technological properties of pigments are determined by the anionic and cationic composition. The anticorrosive properties of oxyhydroxide pigments are largely determined by the presence of hydroxyl ions formed by dissociation. The greatest effect is observed when using metal compounds whose dissociation constants are significantly different. The protective effect is mainly determined by the slowdown of the anode process. Anions, which containing aluminum atoms, accelerate corrosion processes., Актуальність теми дослідження. Перспективними пігментами пасивуючого типу, крім фосфатних, є інші матеріали – оксигідроксиди, ферити, молібдати, станати, борати, вольфрамати, які отримують за традиційними технологіями. Проте ці методи зазвичай пов'язані зі значними витратами енергії, великою тривалістю синтезу, необхідністю подрібнення спіків до дрібнодисперсного стану. Зростає інтерес дослідників до методу співосадження, який дозволяє варіювати катіонним та аніонним складом пігментів. Крім того, перед розробниками лакофарбових матеріалів стоїть задача заміни токсичних протикорозійних хром-, кадмій- та плюмбумвмісних пігментів, що входять до складу більшості сучасних ґрунтовок інгібуючого типу. Альтернативою таким лакофарбовим матеріалам є наповнювачі оксидного типу, які є антикорозійними пігментами, у тому числі оксигідроксиди, ферити магнію, алюмінати кобальту, ферити цинку, ферити міді, алюмінати магнію, алюмінати цинку тощо. Забарвлення пігментів, їх антикорозійні властивості залежать від іонів хромофорів, які входять до складу структури отримуваних сполук. Постановка проблеми. Технологія співосадження має певні переваги в порівнянні із традиційними та дозволяє радикально здешевити отримання оксидних матеріалів. Такий процес, заснований на використанні внутрішньої хімічної енергії системи, дає змогу проводити синтез за зменшених температурі, тривалості синтезу та енергетичних витратах. Простота обладнання, можливість синтезу значної кількості продукту необхідного фазового та гранулометричного складу, екологічна чистота процесу також вказують на доцільність використання цього методу.Аналіз останніх досліджень і публікацій. Останнім часом робились спроби одержання пігментів методом співосадження, але систематичних досліджень кінцевих продуктів не проводилось. Отримані продукти в більшості випадків формувались у вигляді погано відтворюваних за складом продуктів. У зв’язку з цим цікавим стає синтез у такому режимі, який дозволив би отримувати пігменти з хорошими колірними характеристиками в дрібнодисперсному стані, і виключив трудомістку стадію подрібнення. Виділення недосліджених частин загальної проблеми. Вивчення умов утворення пігментів зі структурою оксигідроксидів, впливу їхнього складу на колірність та антикорозійні властивості.Постановка завдання. Вивчення закономірностей формування антикорозійних властивостей, розробка складів для одержання пігментів із використанням методу співосадження і наступною термообробкою.Виклад основного матеріалу. За допомогою експериментальних і теоретичних досліджень встановлено вплив природи катіонів хромофорів на колірний тон, чистоту кольору, антикорозійні властивості пігментів в системі Fe-Al-Mg-О, що дозволяє проводити цілеспрямований синтез пігментів бежевої, червоної та жовтої колірної гами з високими антикорозійними властивостями.Висновки відповідно до статті. Основні технологічні властивості пігментів визначаються аніонним і катіонним складом. Антикорозійні властивості оксигідроксидних пігментів більшою мірою визначаються наявністю іонів гідроксила, що утворюються внаслідок дисоціації. Найбільший ефект спостерігається в разі використання сполук металів, константи дисоціації яких значно відрізняються. Захисний ефект переважно визначається уповільненням анодного процесу. При цьому аніони, які містять атоми алюмінію, прискорюють корозійні процеси.

Published

2021

43. The PsMYB12L/PsDFR Module is Involved in Double-Color Formation in Paeonia Suffruticosa ‘Shima Nishiki’

Author

Xu Han, Xiaoyan Yu, Cheng Li, Mingyuan Zhao, Zongda Xu, and Xinpeng Zhang

Subjects

biology, Chemistry, Botany, Paeonia suffruticosa, Color formation, biology.organism_classification

Abstract

Background: Paeonia suffruticosa ‘Shima Nishiki’ is a extremely precious double-color cultivar in the world because of its unique and attractive flower color. However, the underlying molecular mechanisms of its double-color formation have not been completely unravelled until now. In the present study, firstly, the full-length cDNA sequence, genomic DNA sequence, promoter region sequence of the PsDFR gene in the red and pink petals of the ‘Shima Nishiki’ cultivar were cloned and analyzed, respectively. Meanwhile, the methylation level of CpG island and promoter region of this gene in the red and pink petals was also measured. Moreover, the identification of regulatory effect of PsMYB114L/PsMYB12L and PsDFR was performed. Results: Here, we found that the full-length cDNA sequence, genomic DNA sequence, promoter region sequence of PsDFR were identical in the red and pink petals, respectively. There were some differences for the methylation level of this gene in the red and pink petals, but these differences were little and didn’t show obvious regularity. In addition, the regulatory effect of PsMYB12L and PsDFR was successfully identified. Conclusions: Based on these above results, we concluded that PsMYB12L regulating the differential expression of PsDFR may be a key reason for the double-color formation. These results will advance our understanding of the molecular regulatory mechanisms of double-color formation in P. suffruticosa ‘Shima Nishiki’.

Published

2021

44. Identification, characterization and differential expression analysis of a pteridine synthesis related gene, Ccptps, in koi carp (Cyprinus carpio L.).

Author

Shi, Xi, Shan, Yashi, Ma, Xiao, Wu, Limin, Song, Hongmei, Wu, Qisheng, Li, Xuejun, and Tian, Xue

Subjects

*CARP, *GENE expression, *KOI, *COLOR of fish, *PTERIDINES

Abstract

6-pyruvoyl-tetrahydropterin synthase (PTPS) is the second key enzyme of the pteridine biosynthetic pathway and it plays vital roles in fish body color formation. In this study, Ccptps of koi carp (Cyprinus carpio L.) was cloned, identified and characterized. The full-length cDNA of Ccptps was 1140 bp and encodes for 139 amino acids. Multiple alignments revealed that the amino acids sequence of CcPTPS shared the highest identity to that of C. carpio , and Ccptps was clustered with cyprinid fishes in phylogenetic tree. Liver tissues of koi carp exhibited the highest expression of Ccptps , followed by muscle and skin tissues. During early developmental stages, the expression of Ccptps declined from 2 dph to 4 dph, and increased from 4 dph to 12 dph. The expressions of Ccptps in three color-related tissues (skin, scale and caudal fin) of whole red (WR) koi carp were significantly higher than that of whole while (WW) koi carp. Immunohistochemistry results of skin tissues showed that CcPTPS was mainly located in epidermis, stratum compactum of dermis and muscle layer, with the signal intensities in stratum compactum and muscle layer were stronger in WR koi carp compared to WW koi carp. Co-expressions of CcPTPS, CcSPR and CcXDH were detected in skin tissues of WW and WR koi carps, with CcPTPS exhibited stronger signal intensity compared to CcSPR and CcXDH. These findings imply that Ccptps is potentially involved in koi carp body color formation through the pteridine synthesis pathway. [Display omitted] • A pteridine synthesis related gene Ccptps was cloned and characterized in koi carp. • The expressions of Ccptps were closely related to tissue colors. • The co-expression of CcPTPS, CcSPR and CcXDH was detected in skin of koi carp. • Ccptps may be involved in body color formation through pteridine synthesis pathway. [ABSTRACT FROM AUTHOR]

Published

2023

45. Transcriptomics Integrated With Widely Targeted Metabolomics Reveals the Mechanism Underlying Grain Color Formation in Wheat at the Grain-Filling Stage

Author

Junna Liu, Zhiyou Kong, Qianchao Wang, Ping Zhang, Xiuju Huan, Yeju Liu, Peng Qin, Yirui Guo, Li Li, and Yongjiang Liu

Subjects

chemistry.chemical_classification, Cyanidin, Flavonoid, Plant culture, food and beverages, color formation, Plant Science, transcriptomic, Biology, Pelargonidin, SB1-1110, Transcriptome, chemistry.chemical_compound, Metabolomics, Flavonoid biosynthesis, chemistry, Botany, Composition (visual arts), Delphinidin, grain, color wheat, grain-filling stage, Original Research, metabolomic

Abstract

Colored wheat grains have a unique nutritional value. To elucidate the color formation mechanism in wheat seeds, comprehensive metabolomic and transcriptomic analyses were conducted on purple (Dianmai 20-1), blue (Dianmai 20-8), and white (Dianmai 16) wheat at the grain-filling stage. The results showed that the flavonoid biosynthesis pathway was closely related to grain color formation. Among the 603 metabolites identified in all varieties, there were 98 flavonoids. Forty-six flavonoids were detected in purple and blue wheat, and there were fewer flavonoids in white wheat than in colored wheat. Integrated transcriptomic and metabolomic analyses showed that gene expression modulated the flavonoid composition and content, resulting in different metabolite levels of pelargonidin, cyanidin, and delphinidin, thus affecting the color formation of wheat grains. The present study clarifies the mechanism by which pigmentation develops in wheat grains and provides an empirical reference for colored wheat breeding.

Published

2021

46. Isolation and identification of pigments from oyster mushrooms with black, yellow and pink caps

Author

Zehua Zhang, Yan Zhang, Xiangli Wu, Wei Gao, and Chenyang Huang

Subjects

Oyster, animal structures, Future studies, Pleurotus, Analytical Chemistry, Melanin, Pigment, Cell Wall, biology.animal, Color formation, Food science, Mushroom, biology, Chemistry, Pigmentation, Spectrum Analysis, fungi, food and beverages, General Medicine, biology.organism_classification, nervous system, visual_art, visual_art.visual_art_medium, sense organs, Food Science

Abstract

The genus Pleurotus, namely oyster mushroom, is widely cultivated and consumed worldwide. Cap color is an important commercial trait for oyster mushroom. Diverse color is determined by various pigment constituents. However, the pigments of oyster mushrooms are still ambiguous. In this study, we extracted and identified pigments of oyster mushroom species with black, yellow and pink cap color. The extracted pigments appearing the three color types correspondingly to the cap color, which were all identified as melanin using a panel of spectroscopic and physical/imaging techniques. Nevertheless, HPLC and elemental analysis indicated that the melanin in oyster mushrooms was actually a mixture of eumelanin and phaeomelanin. Differences in the quantities and relative proportions of eumelanin and phaeomelanin resulted in the color variation in oyster mushroom caps. Electron microscopy studies showed that the melanin units are likely located in the cell wall, as reported in other fungi. The pigments in oyster mushrooms with three different cap color were extracted and identified for the first time in this study, which provided fundamental knowledge for future studies on the mechanism of color formation in mushrooms.

Published

2021

47. Mechanisms of color formation in drug substance and mitigation strategies for the manufacture and storage of therapeutic proteins produced using mammalian cell culture

Author

Zheng Jian Li, Jianlin Xu, Sanchayita Ghose, Cheng Du, Hangtian Song, Angela Lewandowski, Li Tao, and Michael C. Borys

Subjects

0106 biological sciences, Drug, 0303 health sciences, genetic structures, Manufacturing process, business.industry, Chemistry, media_common.quotation_subject, Bioengineering, 01 natural sciences, Applied Microbiology and Biotechnology, Biochemistry, Biotechnology, 03 medical and health sciences, Cell culture, 010608 biotechnology, Quality (business), Color formation, business, 030304 developmental biology, media_common

Abstract

Drug substance (DS) appearance is an important quality attribute that is tested before product release. Color variation in DS batches or color change during storage can be indicative of the presence of contaminants, impurities or degradation products and may be linked to the manufacturing process, DS formulation or the stability of the therapeutic proteins. Atypical DS color other than colorless or pale yellow has been recently observed and may result in rejected manufacturing batches and financial loss due to concerns on product quality and visually matching placebo in clinical trials. This review focuses on the origins of atypical color and changes in DS during manufacturing processes using mammalian cell culture and storage. The purposes here are to understand the link between changes in the DS color and various process parameters and to provide necessary information to our readers regarding product quality control strategies with respect to DS color.

Published

2019

48. A comparative metabolomics analysis of the components of heartwood and sapwood in Taxus chinensis (Pilger) Rehd

Author

Xiaochun Liu, Deyou Qiu, Wenhui Ma, Iain W. Wilson, Lisha Zhang, Fenjuan Shao, and Juan Guo

Subjects

0106 biological sciences, 0301 basic medicine, Spectrometry, Mass, Electrospray Ionization, High density, lcsh:Medicine, 01 natural sciences, Article, Bioinorganic chemistry, 03 medical and health sciences, chemistry.chemical_compound, Gymnosperm, Metabolomics, Mechanical strength, Color formation, Food science, lcsh:Science, Flavonoids, Multidisciplinary, biology, lcsh:R, Isoflavones, biology.organism_classification, Wood, Metabolic pathway, 030104 developmental biology, Taxus, chemistry, lcsh:Q, Chromatography, Liquid, 010606 plant biology & botany

Abstract

Taxus chinensis is a well-known gymnosperm with great ornamental and medicinal value. Its purple red brown heartwood (HW) has many attributes such as straight texture, high density, mechanical strength, rich elasticity and corrosion resistance that is highly prized commercially. T. chinensis sapwood (SW), in comparison, lacks these important traits. At present, little is known about the differences of metabolites between the SW and HW in T. chinensis. Widely targeted metabolic profiling was performed to analyze the metabolic profiles of HW and SW in T. chinensis using Liquid Chromatography-Electrospray Ionization-Mass Spectrometry (LC-EI-MS). A total of 607 metabolites were detected in HW and SW. Among them, 146 metabolites were significantly higher, and 167 metabolites significantly lower, in HW as compared to SW. These differential metabolites were mainly involved in metabolic pathways and biosynthesis of secondary metabolites, such as flavonoids, flavone and flavonol, phenylpropanoids and antibiotics. Moreover, 71 flavonoids and isoflavones were found to be significantly different between HW and SW. Our results show the difference of components between the HW and SW, which has potential significance to further elucidate the mechanism of HW color formation. The results will provide insight into the metabolites associated with wood color formation and useful information for understanding the metabolites associated with wood quality.

Published

2019

49. A bio-safety tooth-whitening composite gels with novel phthalimide peroxy caproic acid

Author

Qin Junyuan, Wei Min, Yiwang Chen, Ruizhi Lv, Li Zeng, and Licheng Tan

Subjects

Tooth whitening, Chromatography, Materials science, Polymers and Plastics, Composite number, 02 engineering and technology, 010402 general chemistry, 021001 nanoscience & nanotechnology, 01 natural sciences, Peroxide, Caproic Acid, 0104 chemical sciences, Phthalimide, stomatognathic diseases, chemistry.chemical_compound, Ingredient, stomatognathic system, chemistry, Mechanics of Materials, Materials Chemistry, Ceramics and Composites, Color formation, 0210 nano-technology, Hydrogen peroxide

Abstract

For hundred years, researchers have applied themselves to maintain people's white smiles. However, there are many reasons for teeth discoloration, such as personal habits, dental problems or exposure to other substances. Nowadays, bleaching process is the mainly used tooth whitening technology. Owning to the whitening effect of the used oxidant, this process can change the color formation of the teeth surface. Nevertheless, most of the bleaching products are peroxides, which will cause a variety of diseases and discomfort in the mouth. Herein, in this work, it was found that the phthalimide peroxy caproic acid (PAP) could be selected as the effective ingredient of polymer composite gel with non-hydrogenperoxide. Moreover, by comparing the new whitening gels with hydrogen peroxide (HP, the traditional whitening ingredients) gels, the whitening effect of polymer composite gels with 5% PAP were equivalent to the gels with 3% HP, and the composite gels with 12% PAP were also equally to the gels with 8% HP. More importantly, it was proved that PAP tooth whitening gel was much safer and more reliable than HP based products. It indicated that PAP based tooth whitening product can replace low-concentration peroxide teeth whitening gel in the home-market.

Published

2019

50. Kinetics of the changes in bio-active compounds, antioxidant capacity and color of Cornelian cherries dried at different temperatures

Author

Hande Selen Erge, Derya Atalay, and Hatice Uslu Demir

Subjects

Kinetic model, Chemistry, General Chemical Engineering, 010401 analytical chemistry, Kinetics, 04 agricultural and veterinary sciences, Activation energy, 040401 food science, 01 natural sciences, Industrial and Manufacturing Engineering, 0104 chemical sciences, Chemical kinetics, Antioxidant capacity, chemistry.chemical_compound, 0404 agricultural biotechnology, Monomer, Degradation (geology), Food science, Color formation, Safety, Risk, Reliability and Quality, Food Science

Abstract

The aim of this research was to determine the effects of oven-drying on degradation of bioactive compounds of Cornelian cherry including total monomeric anthocyanins, total phenolics, total flavonoids and L-ascorbic acid. Changes in antioxidant capacity, percent polymeric color and visual color were also used as quality indicators of Cornelian cherry dried at 50°, 60° and 70 °C for 36, 13.5 and 6 h, respectively. A zero-order kinetic model was obeyed for polymeric color formation. First-order reaction kinetics was found for the degradations of monomeric anthocyanins and L-ascorbic acid, while losses in total phenolics, total flavonoids and antioxidant capacity followed second-order kinetic model. The changes in color parameters also obeyed first-order kinetics. The activation energy for the degradations of bioactive compounds was observed in the range of 48.2–78.7 kJ moL−1. L* parameter with the highest activation energy (200.08 kJ moL−1) was pointed out in this study. Also, a higher sensitivity to temperature for the antioxidant capacity is evidenced by higher activation energy (83.3 kJ moL−1). This study concluded that drying at high temperature (70 °C) with a short time promoted retentions in bioactive compounds.

Published

2019