In order to improve the absorbency of color cotton products, alkali and pectase scouring processes under different conditions were tested, by comparing the actual results of two different scouring processes. It was co...In order to improve the absorbency of color cotton products, alkali and pectase scouring processes under different conditions were tested, by comparing the actual results of two different scouring processes. It was considered that the pectase scouring process more suits color cotton products.展开更多
Using naturally colored cotton(NCC)can eliminate dyeing,printing and industrial processing,and reduce sewage discharge and energy consumption.Proanthocyanidins(PAs),the primary coloration components in brown fibers,ar...Using naturally colored cotton(NCC)can eliminate dyeing,printing and industrial processing,and reduce sewage discharge and energy consumption.Proanthocyanidins(PAs),the primary coloration components in brown fibers,are polyphenols formed by oligomers or polymers of flavan-3-ol units derived from anthocyanidins.Three essential structural genes for flavanone and flavonoid hydroxylation encoding flavanone-3-hydroxylase(F3H),flavonoid 3’-hydroxylase(F3’H)and flavonoid 3’5’-hydroxylase(F3’5’H)are initially committed in the flavonoid biosynthesis pathway to produce common precursors.The three genes were all expressed predominantly in developing fibers of NCCs,and their expression patterns varied temporally and spatially among NCC varieties.In GhF3Hi,GhF3’Hi and GhF3’5’Hi silenced lines of NCC varieties XC20 and ZX1,the expression level of the three genes decreased in developing cotton fiber,negatively correlated with anthocyanidin content and fiber color depth.Fiber color depth and type in RNAi lines changed with endogenous gene silencing efficiency and expression pattern,the three hydroxylase genes functioned in fiber color formation.GhF3H showed functional differentiation among NCC varieties and GhF3’H acted in the accumulation of anthocyanin in fiber.Compared with GhF3’H,GhF3’5’H was expressed more highly in brown fiber with a longer duration of expression and caused lighter color of fibers in GhF3’5’H silenced lines.These three genes regulating fiber color depth and type could be used to improve these traits by genetic manipulation.展开更多
[Objective] This study was to reveal the genetic characteristics of colored cotton varieties grown in Xinjiang. [Method] Five white upland and two white sea is- land cotton varieties were processed complete diallel cr...[Objective] This study was to reveal the genetic characteristics of colored cotton varieties grown in Xinjiang. [Method] Five white upland and two white sea is- land cotton varieties were processed complete diallel crosses with five brown cotton varieties and five green cotton varieties respectively, constructing 96 F2 populations, and the population number of those in line with Mendel's law were counted. The individual fiber colors were statistically analyzed in each F2 generation. The cluster analysis was carried out to the parents based on their agronomic traits, and the SSR was used to analyze the genetic diversity of parents. [Result] Both green and brown fiber colors were determined by single nuclear gene; brown fiber color mainly presented dominant heredity, while green fiber color presented dominant, incomplete dominant or recessive heredity. The cluster analysis indicated that brown cotton vari- eties in Xinjiang had closer genetic relationships with Xinjiang-native upland cotton varieties than other upland cotton varieties in China, but distant from sea island cot- ton varieties; while green cotton varieties grown in Xinjiang showed distant genetic relationships with both native and other upland cotton varieties in China, and most distant from sea island varieties. SSR genetic diversity analysis of the parents showed that in all white/brown cross combinations, Xinluzao31 and Xincaimian11 showed the highest polymorphism while 293-ZM-2 and Xincaimian5 showed the low- est; in white/green cross combinations, Xinluzao31 and Green 85 showed the highest polymorphism while Xinluzao13 and Xingcaimian12 showed the lowest. [Conclusion] According to the genetic model and cluster analysis of colored cotton, the quality of cotton can be improved by hybridizing the colored cotton with Xinjiang native or in- land cotton varieties of China. This study provides germplasm resources and further study basis for the breeding of new colored cotton varieties, and materials to the fiber color gene mapping and cloning in future, as well as the technical assurance for the directional breeding of quality colored cotton varieties.展开更多
The genetic control of fiber pigment color in naturally colored cotton was studied. The expression of brown and green fiber color was controlled by incompletely dominant single genes and incompletely dominant major ge...The genetic control of fiber pigment color in naturally colored cotton was studied. The expression of brown and green fiber color was controlled by incompletely dominant single genes and incompletely dominant major genes, respectively. Production and accumulation of the fiber pigment were related to special expression of enzymatic genes for pigment synthesis in fiber cells. At the stage of fiber lengthening, naturally colored cotton, like white cotton, appeared purely white. But when fiber cell walls entered the thickening stage, pigment appeared by degrees. When the fiber was completely matured (on boll dehiscence), the color reached its darkest level. After wetting process treatment, the hues of the fiber pigment changed in regular patterns. The hue circle for brown and green cotton changed in the opposite direction with wetting process treatment. In general, the treated cotton color and luster became dark and vivid, and this trend provided the possibility for enhancing the fiber quality by suitable environmental friendly finishing. The analysis showed that the color and luster of the cotton may be controlled by a series of pigments which show different chemical performance.展开更多
The ecological characteristics and fiber structure of the colored cotton were introduced briefly. The color changing mechanisms of the pigments extracted from colored cottons and some plants were discussed with the re...The ecological characteristics and fiber structure of the colored cotton were introduced briefly. The color changing mechanisms of the pigments extracted from colored cottons and some plants were discussed with the results of different experiments, which could offer an academic reference for the color fixations of the colored cotton textile produces and promote the development of the natural colored cotton industry.展开更多
Short sequence repeats(microsatellite,SSR) and expressed sequence tags-SSR(EST-SSR) markers were employed to analyze the genetic diversity of natural colored cotton varieties.About
This paper studies desizing and polishing of naturally colored cotton with different enzyme. The reactivity of cellulases was measured. The percentage of decrement, bulkiness and color difference of fabrics both befor...This paper studies desizing and polishing of naturally colored cotton with different enzyme. The reactivity of cellulases was measured. The percentage of decrement, bulkiness and color difference of fabrics both before and after eco-finishing were tested. The reasons were analyzed. The results indicates that the desizing of amylase can be applied on naturally colored cotton, and cellulases have polishing effect on it. Moreover eco-finishing with enzyme can provide many better properties to naturally colored cotton than that of normal finishing. Also this process has no pollution as enzyme can be degraded by bioreaction.展开更多
Cotton cultivars with brown (Xiangcaimian 2), green (Wanmian 39) and white (Sumian 9) fiber were investigated to study fiber developmental characteristics of natural-colored cotton and the effect of hormones on ...Cotton cultivars with brown (Xiangcaimian 2), green (Wanmian 39) and white (Sumian 9) fiber were investigated to study fiber developmental characteristics of natural-colored cotton and the effect of hormones on fiber quality at different stages after anthesis. Fiber lengths of both natural-colored cottons were lower than the white-fibered control, with brown-fibered cotton longer than green. Fiber strength, micronaire and maturation of natural-colored cotton were also lower than the control. The shorter fiber of the green cultivar was due to slower growth during 10 to 30 days post-anthesis (DPA). Likewise, the lower fiber strength, micronaire and maturation of natured-colored cotton were also due to slower growth during this pivotal stage. Indole-3-acetic acid (IAA) content at 10 DPA, and abscisic acid (ABA) content at 30 to 40 DPA were lower in the fibers of the natural-colored than that of the white-fibered cotton. After applying 20 mg L-1 gibberellic acid (GA3), the IAA content at 20 DPA in the brown and green-fibered cottons increased by 51.07 and 64.33%, fiber ABA content increased by 38.96 and 24.40%, and fiber length increased by 8.13 and 13.96%, respectively. Fiber strength, micronaire and maturation were also enhanced at boll opening stage. Those results suggest that the level of endogenous hormones affect fiber quality. Application of external hormones can increase hormone content in natural-colored cotton fiber, improving its quality.展开更多
The major cotton grown commercially in the world is white lint,but recently many people prefer to have garments made by natural colored cotton.This can be used directly in textile industries,avoiding the complicated a...The major cotton grown commercially in the world is white lint,but recently many people prefer to have garments made by natural colored cotton.This can be used directly in textile industries,avoiding the complicated and unsafe processes of bleaching and dying,and thus it is eco-friendly.However,little is known about the heredity of the colored lint gene in colored cotton.In the present study,展开更多
Most water bodies worldwide are infested with algae bloom and Lake Taihu is no exception, various techniques have been developed to harvest microalgae from Lake Taihu as part of the lake cleaning program and this resu...Most water bodies worldwide are infested with algae bloom and Lake Taihu is no exception, various techniques have been developed to harvest microalgae from Lake Taihu as part of the lake cleaning program and this results in a large algae biomass to deal with. This study made use of the algae biomass harvested as a biocolorants source for textile application and also evaluated its dyeing characteristics with mercerized and bleached cotton. The fabrics were dyed with either ultrasound or water bath method. The ultrasound method improved dye extraction yield from 17.8% for the conventional method to 26.7%, which was also enhanced to 33.2% with the addition of HCl (1 cm). The ultrasound dyeing method was effective at improving dye uptake at a reduced dyeing temperature when compared to the conventional method and also produced different shades of color after dyeing with different mordants. The dyed fabrics had good fastness properties for laundry, crocking and light. The dyed fabrics also showed a good ultraviolet protection factor. The use of algae biomass as a potential source of colorants for textile application will provide an alternate dye source that is environmentally friendly.展开更多
文摘In order to improve the absorbency of color cotton products, alkali and pectase scouring processes under different conditions were tested, by comparing the actual results of two different scouring processes. It was considered that the pectase scouring process more suits color cotton products.
基金supported by the Natural Science Foundation of Zhejiang Province(LZ21C130004)the National Natural Science Foundation of China(U1903204)he Fundamental Research Funds of Shaoxing Keqiao Research Institute of Zhejiang Sci-Tech University(KYY2021004S)。
文摘Using naturally colored cotton(NCC)can eliminate dyeing,printing and industrial processing,and reduce sewage discharge and energy consumption.Proanthocyanidins(PAs),the primary coloration components in brown fibers,are polyphenols formed by oligomers or polymers of flavan-3-ol units derived from anthocyanidins.Three essential structural genes for flavanone and flavonoid hydroxylation encoding flavanone-3-hydroxylase(F3H),flavonoid 3’-hydroxylase(F3’H)and flavonoid 3’5’-hydroxylase(F3’5’H)are initially committed in the flavonoid biosynthesis pathway to produce common precursors.The three genes were all expressed predominantly in developing fibers of NCCs,and their expression patterns varied temporally and spatially among NCC varieties.In GhF3Hi,GhF3’Hi and GhF3’5’Hi silenced lines of NCC varieties XC20 and ZX1,the expression level of the three genes decreased in developing cotton fiber,negatively correlated with anthocyanidin content and fiber color depth.Fiber color depth and type in RNAi lines changed with endogenous gene silencing efficiency and expression pattern,the three hydroxylase genes functioned in fiber color formation.GhF3H showed functional differentiation among NCC varieties and GhF3’H acted in the accumulation of anthocyanin in fiber.Compared with GhF3’H,GhF3’5’H was expressed more highly in brown fiber with a longer duration of expression and caused lighter color of fibers in GhF3’5’H silenced lines.These three genes regulating fiber color depth and type could be used to improve these traits by genetic manipulation.
基金Supported by the Doctoral Foundation of Xinjiang Technical Institute of Physics and Chemistry,Chinese Academy of Sciencesthe West Light Foundation of the Chinese Academy of Sciences (RCPY200802,Y12S22401)the Technology Support Plan to Xinjiang by the Xinjiang Production and Construction Corps(2008ZJ05)~~
文摘[Objective] This study was to reveal the genetic characteristics of colored cotton varieties grown in Xinjiang. [Method] Five white upland and two white sea is- land cotton varieties were processed complete diallel crosses with five brown cotton varieties and five green cotton varieties respectively, constructing 96 F2 populations, and the population number of those in line with Mendel's law were counted. The individual fiber colors were statistically analyzed in each F2 generation. The cluster analysis was carried out to the parents based on their agronomic traits, and the SSR was used to analyze the genetic diversity of parents. [Result] Both green and brown fiber colors were determined by single nuclear gene; brown fiber color mainly presented dominant heredity, while green fiber color presented dominant, incomplete dominant or recessive heredity. The cluster analysis indicated that brown cotton vari- eties in Xinjiang had closer genetic relationships with Xinjiang-native upland cotton varieties than other upland cotton varieties in China, but distant from sea island cot- ton varieties; while green cotton varieties grown in Xinjiang showed distant genetic relationships with both native and other upland cotton varieties in China, and most distant from sea island varieties. SSR genetic diversity analysis of the parents showed that in all white/brown cross combinations, Xinluzao31 and Xincaimian11 showed the highest polymorphism while 293-ZM-2 and Xincaimian5 showed the low- est; in white/green cross combinations, Xinluzao31 and Green 85 showed the highest polymorphism while Xinluzao13 and Xingcaimian12 showed the lowest. [Conclusion] According to the genetic model and cluster analysis of colored cotton, the quality of cotton can be improved by hybridizing the colored cotton with Xinjiang native or in- land cotton varieties of China. This study provides germplasm resources and further study basis for the breeding of new colored cotton varieties, and materials to the fiber color gene mapping and cloning in future, as well as the technical assurance for the directional breeding of quality colored cotton varieties.
基金This work was supported by Innovation and Utilization of Specially Good Germplasm Material of Naturally Colored Cotton of the“863”Plan,China(2001AA241089)Research on Breeding of New Variety for Naturally Colored Cotton and Its Further Utilization of Zhejiang Key Project of Science and Technology,China(991102310,010007024).
文摘The genetic control of fiber pigment color in naturally colored cotton was studied. The expression of brown and green fiber color was controlled by incompletely dominant single genes and incompletely dominant major genes, respectively. Production and accumulation of the fiber pigment were related to special expression of enzymatic genes for pigment synthesis in fiber cells. At the stage of fiber lengthening, naturally colored cotton, like white cotton, appeared purely white. But when fiber cell walls entered the thickening stage, pigment appeared by degrees. When the fiber was completely matured (on boll dehiscence), the color reached its darkest level. After wetting process treatment, the hues of the fiber pigment changed in regular patterns. The hue circle for brown and green cotton changed in the opposite direction with wetting process treatment. In general, the treated cotton color and luster became dark and vivid, and this trend provided the possibility for enhancing the fiber quality by suitable environmental friendly finishing. The analysis showed that the color and luster of the cotton may be controlled by a series of pigments which show different chemical performance.
文摘The ecological characteristics and fiber structure of the colored cotton were introduced briefly. The color changing mechanisms of the pigments extracted from colored cottons and some plants were discussed with the results of different experiments, which could offer an academic reference for the color fixations of the colored cotton textile produces and promote the development of the natural colored cotton industry.
文摘Short sequence repeats(microsatellite,SSR) and expressed sequence tags-SSR(EST-SSR) markers were employed to analyze the genetic diversity of natural colored cotton varieties.About
文摘This paper studies desizing and polishing of naturally colored cotton with different enzyme. The reactivity of cellulases was measured. The percentage of decrement, bulkiness and color difference of fabrics both before and after eco-finishing were tested. The reasons were analyzed. The results indicates that the desizing of amylase can be applied on naturally colored cotton, and cellulases have polishing effect on it. Moreover eco-finishing with enzyme can provide many better properties to naturally colored cotton than that of normal finishing. Also this process has no pollution as enzyme can be degraded by bioreaction.
基金the National Natural Science Foundation of China (31301263, 31171479, 31471435)a Project Founded by the Priority Academic Program Development of Jiangsu Higher Education Institutions+2 种基金the China Postdoctoral Science Foundation Grant (2016M591934)the Postdoctoral Science Foundation Grant in Jiangsu Province, China (1601116C)the Project #SXGC(2016)320 supported by the Three New Technology Foundation of Agriculture in Jiangsu Province, China
文摘Cotton cultivars with brown (Xiangcaimian 2), green (Wanmian 39) and white (Sumian 9) fiber were investigated to study fiber developmental characteristics of natural-colored cotton and the effect of hormones on fiber quality at different stages after anthesis. Fiber lengths of both natural-colored cottons were lower than the white-fibered control, with brown-fibered cotton longer than green. Fiber strength, micronaire and maturation of natural-colored cotton were also lower than the control. The shorter fiber of the green cultivar was due to slower growth during 10 to 30 days post-anthesis (DPA). Likewise, the lower fiber strength, micronaire and maturation of natured-colored cotton were also due to slower growth during this pivotal stage. Indole-3-acetic acid (IAA) content at 10 DPA, and abscisic acid (ABA) content at 30 to 40 DPA were lower in the fibers of the natural-colored than that of the white-fibered cotton. After applying 20 mg L-1 gibberellic acid (GA3), the IAA content at 20 DPA in the brown and green-fibered cottons increased by 51.07 and 64.33%, fiber ABA content increased by 38.96 and 24.40%, and fiber length increased by 8.13 and 13.96%, respectively. Fiber strength, micronaire and maturation were also enhanced at boll opening stage. Those results suggest that the level of endogenous hormones affect fiber quality. Application of external hormones can increase hormone content in natural-colored cotton fiber, improving its quality.
文摘The major cotton grown commercially in the world is white lint,but recently many people prefer to have garments made by natural colored cotton.This can be used directly in textile industries,avoiding the complicated and unsafe processes of bleaching and dying,and thus it is eco-friendly.However,little is known about the heredity of the colored lint gene in colored cotton.In the present study,
文摘Most water bodies worldwide are infested with algae bloom and Lake Taihu is no exception, various techniques have been developed to harvest microalgae from Lake Taihu as part of the lake cleaning program and this results in a large algae biomass to deal with. This study made use of the algae biomass harvested as a biocolorants source for textile application and also evaluated its dyeing characteristics with mercerized and bleached cotton. The fabrics were dyed with either ultrasound or water bath method. The ultrasound method improved dye extraction yield from 17.8% for the conventional method to 26.7%, which was also enhanced to 33.2% with the addition of HCl (1 cm). The ultrasound dyeing method was effective at improving dye uptake at a reduced dyeing temperature when compared to the conventional method and also produced different shades of color after dyeing with different mordants. The dyed fabrics had good fastness properties for laundry, crocking and light. The dyed fabrics also showed a good ultraviolet protection factor. The use of algae biomass as a potential source of colorants for textile application will provide an alternate dye source that is environmentally friendly.