In order to discuss the localization application technology of cotton seedling using substrate, the author used cotton seed hulls after the production of edible fungi residue, river sand and peat in different proporti...In order to discuss the localization application technology of cotton seedling using substrate, the author used cotton seed hulls after the production of edible fungi residue, river sand and peat in different proportion formula using in field and laboratory cotton seedling test. The results showed that: dry mass per plant and leaf area per plant of formula 3 were higher than Jiangxi cotton seedling nurs- ery substrate.the higher proportion were 48.4% and 73.5%; the rate of forming plantlets, survival rate of transplant and the unginned cotton yield had no obvious difference with the other matrix seedling and transplanting; nursery substrate was returned using as fertilizer, reduced environment pollution, achieved comprehensive utilization and cyclic utilization. Cotton seed hulls after the production of edible fungi residue was a cotton seedling substrate material of saving work,reducing cost and protecting environment and would have a good application prospect.展开更多
Carboxymethyl-chitosan and carboxymethyl-chitin were prepared with the methods developed in our laboratory. The DS (degree of substitution) and DD (degree of deacetylation) of the carboxymethyl-chitosan were 103.1...Carboxymethyl-chitosan and carboxymethyl-chitin were prepared with the methods developed in our laboratory. The DS (degree of substitution) and DD (degree of deacetylation) of the carboxymethyl-chitosan were 103.14% and 97.18% respectively, while the DS of the carboxymethyl-chitin was 96.37%. Their effects on human fibroblasts, intradermal irritation test, in vitro and vivo degradability, and biocompatibility were evaluated. The results indicate that the polysaccharides at low concentrations can facilitate the growth of human fibroblasts and the carboxymethyl-chitosan at 100 μg mL^-1 is the most effective. The polysaccharides at higher concentrations, however, inhibit the growth of fibroblasts. The PII (Primary Irritation Index) values of CM-chitosan and CM-chitin are both 0.0, which shows that they have no irritation reaction. Both of the polysaccharides show good degradability and biocompatibility. Carboxymethyl-chitin degrades faster in vitro than carboxymethyl-chitosan. The latter, however, has no inflammatory reaction after being implanted in vivo for 7 d and shows better biocompatibility. This study may provide a scientific basis for the use of earboxymethyl-ehitosan and carboxymethyl-chitin as biomaterials.展开更多
A novel biomaterial scaffold was created from collagen chitosan/GAG. Its tensile strength was 8.6MPa(wet state)and degree of swelling water was 60%~75% with higer ultimate elongation 300%. Rabbit corneas of collagen ...A novel biomaterial scaffold was created from collagen chitosan/GAG. Its tensile strength was 8.6MPa(wet state)and degree of swelling water was 60%~75% with higer ultimate elongation 300%. Rabbit corneas of collagen chitosan/GAG implantation samples in vivo for biodegradation showed that the inplantion samples was complets biodegrable and digested afere 120 day. There was enought time to maintain cell growth,immigrating and proliferation. This biomaterials scaffold can be used for cell culture and in various tissue engineering fields.展开更多
The 5’-region of the chitinase gene cabch29, derived from Brassica oleracea var. capitata, has been sequenced and analyzed for cis-acting elements important in controlling gene expression in transgenic tobacco plants...The 5’-region of the chitinase gene cabch29, derived from Brassica oleracea var. capitata, has been sequenced and analyzed for cis-acting elements important in controlling gene expression in transgenic tobacco plants. Different 5’-deletion fragments were linked to reporter geneβ-glucuronidase (GUS) as translational fusions, and the expression of these chimeric genes was analyzed in vegetative organs and tissues. Sequences up to -651 showed some basal GUS activity with nearly equal levels in wounded and intact tissues. The addition of further upstream sequences (-651 to -1284) enhanced expression level, and the expression driven by this fragment was inducible by a factor of two to three-fold by wounding. Histochemical analysis of different tissue from transgenic plants that contain cabch29 promoter-GUS fusion gene demonstrated woundinducible and tissue-specific cabch29 promoter activity in plants containing the 1308 base pair fragment. The location of GUS activity appears to be cell-specific, being highest in vascular cells and epidermal cells of stem, leaf and roots. Meanwhile, the temporal and spatial expression of cabch29-GUS fusion gene has been investigated. Among the different vegetative organs, a high level of GUS activity was observed in stem and a moderate one in roots;whereas, wounding stress led to a high level of GUS in stem and moderate one in leaf.展开更多
This review will focus on the more abundant eggshell specific matrix proteins localized in the chicken eggshell (cuticle layer eggshell matrix and shell membranes) that are involved in eggshell mineralization and pr...This review will focus on the more abundant eggshell specific matrix proteins localized in the chicken eggshell (cuticle layer eggshell matrix and shell membranes) that are involved in eggshell mineralization and protecting the egg against microbial contamination, including ovocalyxin-36, ovocleidin-17, ovocalyxin-32 and ovocalyxin-25. Further understanding of these proteins and their mechanisms in egg defence could lead to the development of novel neutraceuticals for human health, additives to animal feed for healthy flocks, or enhanced eggs for human consumption.展开更多
基金Supported by National Cotton Industry Technology System(CARS-18-36)National Key Project of Transgenosis(2011ZX08005-001)+1 种基金National 863 Project(2011AA10A10)National Science & Technology Support Program(2011BAD35B05-2)~~
文摘In order to discuss the localization application technology of cotton seedling using substrate, the author used cotton seed hulls after the production of edible fungi residue, river sand and peat in different proportion formula using in field and laboratory cotton seedling test. The results showed that: dry mass per plant and leaf area per plant of formula 3 were higher than Jiangxi cotton seedling nurs- ery substrate.the higher proportion were 48.4% and 73.5%; the rate of forming plantlets, survival rate of transplant and the unginned cotton yield had no obvious difference with the other matrix seedling and transplanting; nursery substrate was returned using as fertilizer, reduced environment pollution, achieved comprehensive utilization and cyclic utilization. Cotton seed hulls after the production of edible fungi residue was a cotton seedling substrate material of saving work,reducing cost and protecting environment and would have a good application prospect.
基金the China ‘863’ High-technology Development Program (No 2003AA625050)
文摘Carboxymethyl-chitosan and carboxymethyl-chitin were prepared with the methods developed in our laboratory. The DS (degree of substitution) and DD (degree of deacetylation) of the carboxymethyl-chitosan were 103.14% and 97.18% respectively, while the DS of the carboxymethyl-chitin was 96.37%. Their effects on human fibroblasts, intradermal irritation test, in vitro and vivo degradability, and biocompatibility were evaluated. The results indicate that the polysaccharides at low concentrations can facilitate the growth of human fibroblasts and the carboxymethyl-chitosan at 100 μg mL^-1 is the most effective. The polysaccharides at higher concentrations, however, inhibit the growth of fibroblasts. The PII (Primary Irritation Index) values of CM-chitosan and CM-chitin are both 0.0, which shows that they have no irritation reaction. Both of the polysaccharides show good degradability and biocompatibility. Carboxymethyl-chitin degrades faster in vitro than carboxymethyl-chitosan. The latter, however, has no inflammatory reaction after being implanted in vivo for 7 d and shows better biocompatibility. This study may provide a scientific basis for the use of earboxymethyl-ehitosan and carboxymethyl-chitin as biomaterials.
文摘A novel biomaterial scaffold was created from collagen chitosan/GAG. Its tensile strength was 8.6MPa(wet state)and degree of swelling water was 60%~75% with higer ultimate elongation 300%. Rabbit corneas of collagen chitosan/GAG implantation samples in vivo for biodegradation showed that the inplantion samples was complets biodegrable and digested afere 120 day. There was enought time to maintain cell growth,immigrating and proliferation. This biomaterials scaffold can be used for cell culture and in various tissue engineering fields.
文摘The 5’-region of the chitinase gene cabch29, derived from Brassica oleracea var. capitata, has been sequenced and analyzed for cis-acting elements important in controlling gene expression in transgenic tobacco plants. Different 5’-deletion fragments were linked to reporter geneβ-glucuronidase (GUS) as translational fusions, and the expression of these chimeric genes was analyzed in vegetative organs and tissues. Sequences up to -651 showed some basal GUS activity with nearly equal levels in wounded and intact tissues. The addition of further upstream sequences (-651 to -1284) enhanced expression level, and the expression driven by this fragment was inducible by a factor of two to three-fold by wounding. Histochemical analysis of different tissue from transgenic plants that contain cabch29 promoter-GUS fusion gene demonstrated woundinducible and tissue-specific cabch29 promoter activity in plants containing the 1308 base pair fragment. The location of GUS activity appears to be cell-specific, being highest in vascular cells and epidermal cells of stem, leaf and roots. Meanwhile, the temporal and spatial expression of cabch29-GUS fusion gene has been investigated. Among the different vegetative organs, a high level of GUS activity was observed in stem and a moderate one in roots;whereas, wounding stress led to a high level of GUS in stem and moderate one in leaf.
文摘This review will focus on the more abundant eggshell specific matrix proteins localized in the chicken eggshell (cuticle layer eggshell matrix and shell membranes) that are involved in eggshell mineralization and protecting the egg against microbial contamination, including ovocalyxin-36, ovocleidin-17, ovocalyxin-32 and ovocalyxin-25. Further understanding of these proteins and their mechanisms in egg defence could lead to the development of novel neutraceuticals for human health, additives to animal feed for healthy flocks, or enhanced eggs for human consumption.
