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41.
为探究明胶(G)、海藻酸钠(SA),沙蒿胶(ASKG)对复合水凝胶的力学性能、溶胀和保湿性能的影响,采用共混-离子交联法制备海藻酸钠/明胶/沙蒿胶复合水凝胶,并对制得的水凝胶进行结构表征和溶血率测试。结果表明:当G质量分数为2.5%,SA为1.5%,ASKG为0.7%时,复合水凝胶压缩强度达到427.2 kPa,拉伸强度达到563.449 kPa,断裂伸长率为117%,溶胀率为744%,且具有较好的保湿性能。红外光谱表明,由于沙蒿胶中存在大量羟基,因此加入沙蒿胶后在3 300 cm-1~3 600 cm-1羟基峰形变宽。G/SA/ASKG复合水凝胶溶血率低于5%,具有较好的网络孔结构和血液相容性,为复合水凝胶在医用敷料方面的应用提供一定的参考价值。 相似文献
42.
不同施肥水平对益母草生长的影响 总被引:10,自引:0,他引:10
对益母草〔Leonurusartemisia(Lour.)S.Y.Hu〕作不同肥料水平的田间处理,考评单株鲜重、地上部分鲜重、分蘖数和长叶速度等生物学特性。L4(23)试验结果表明:(1)磷肥对益母草的单株鲜重、地上部分鲜重和分蘖数的影响起主导作用,氮肥次之,钾肥影响最弱;(2)对益母草的长叶速度,磷肥起决定性作用,氮肥、钾肥的影响不明显;(3)氮肥能促进叶片中叶绿素的积累。根据这些结果对益母草的需肥特性进行了讨论。 相似文献
43.
Synthesis of a novel superabsorbent hydrogel by copolymerization of acrylamide and cashew gum modified with glycidyl methacrylate 总被引:5,自引:0,他引:5
Marcos R. Guilherme Adriano V. Reis Sulen H. Takahashi Adley F. Rubira Judith P.A. Feitosa Edvani C. Muniz 《Carbohydrate polymers》2005,61(4):464-471
Novel superabsorbent hydrogels were manufactured using chemically modified cashew gum (CGMA) and acrylamide (AAm) as reactants. The route for the synthesis was feasible due to the incorporation of glycidyl methacrylate (GMA) into structure of cashew gum (CG) to form the cashew gum-methacrylated (CGMA), in an appropriate mixture water-DMSO, as solvent, and using TEMED as catalyst. Thereafter, the CGMA was copolymerized with AAm yielding (CGMA-co-AAm) hydrogels. The main characteristics of raw and the modified materials are reported in this paper. 13C NMR, 1H NMR and FTIR spectroscopies confirmed the incorporation of vinyl groups, from GMA, into CG structure. By the spectrophotometry analyses, it was found that, ca. 82% of GMA was incorporated to the CG after 24 h of reaction. The cross-linking of CGMA or co-polymerization of CGMA with acrylamide leads to a hydrogel formation. Their gelation was characterized by FT-IR analysis. Alkaline hydrolysis at 40 °C for 3 and 4.5 h increased the water uptake (WU) capacity. Hydrolyzed CGMA-co-AAm hydrogels present higher values of WU (up to 1500) and may be classified as water superabsorbent material. Applications in agriculture, as soil conditioner, and in biomedical field, as biomaterial (scaffold) are being investigated. 相似文献
44.
The purpose of this study was to investigate the formulation variables influencing the drug release from the layered tablets
containing chitosan and xanthan gum as matrix component. Increasing the amount of lactose could diminish pH sensitive release
behavior of these matrix tablets. Effect of formulation variables on drug release from the prepared three-layered matrix tablets
was investigated. The amount of drug loading did not affect the drug release which was influenced by the hydrodynamic force
and the matrix composition. An increase in stirring rate correspondingly increased the release rate. Moreover, incorporation
of soluble diluents in core or barrier could enhance the drug release. Least square fitting the experimental dissolution data
to the mathematical expressions (power law, first order, Higuchi’s and zero order) was carried out to study the drug release
mechanism. Most dissolution profiles of the prepared three-layered tablets provided a better fit to zero order kinetic than
to first order kinetic and Higuchi’s equation. 相似文献
45.
Gomes Filomena Canhoto Jorge M. 《In vitro cellular & developmental biology. Plant》2003,39(3):316-321
Summary
Eucalyptus nitens Maiden (shining gum) is a frost-tolerant species of Eucalyptus that can be used as an alternative species to Eucalyptus globulus in some regions of Portugal where winter temperatures are too low. Seedlings and 1-yr-old shoot tips and nodes were used
for micropropagation of E. nitens. The best multiplication rate (2.25) was obtained when seedling shoots (<15 mm) were cultured on a medium containing the
major nutrients (at half-strength) and minor elements of Murashige and Skoog (1962) medium, the organics of De Fossard medium
(De Fossard et al., 1974) and a combination of benzyladenine (0.9 μM) and 1-naphthaleneacetic acid (0.05 μM). Seedling cuttings (4-,8-, and 10-wk-old) rooted well on media containing several concentrations of 3-indolebutyric acid
(4.9, 9.8, and 14.8 μM) or 3-indoleacetic acid (5.7, 11.4, and 17.1 μM), giving frequencies of root induction above 80%. With this type of explant, root formation was also found on basal medium
without growth regulators. Rooting of in vitro-propagated shoots obtained from seedlings (8-wk-old) after four subcultures (every 3 wk) was more difficult, with the best
results obtained on a medium containing 14.7 μM 3-indolebutyric acid (60.0% root induction). No root formation was achieved when shoots from 1-yr-old explants were used.
After a period of 4 mo., 96.3% of the plants transferred to the greenhouse survived acclimatization. 相似文献
46.
Vandana Singh Archana Srivastava Ashutosh Tiwari 《International journal of biological macromolecules》2009,45(3):293-297
A water-soluble seed gum was isolated from seed endosperm of Cassia javahikai. The acid-catalyzed fragmentation, methylation, selective enzymatic degradation and periodate oxidation suggested a heteropolymeric structure for the polysaccharide. The polysaccharide was shown to have a linear chain of β(1 → 4) linked d-mannopyranosyls units with side chains of α(1 → 6) d-galactopyranosyl units. Grafting of polyacrylamide onto the gum was performed using K2S2O8/ascorbic acid redox system in presence of Ag+ as catalyst at 35 ± 2 °C. The viscosity of the gum solution increased on grafting and the grafted gum was observed to resist biodegradation for more than 256 h. Thermogravimetric analysis revealed that grafted gum was more thermally stable than native gum. 相似文献
47.
48.
Coating sorghum seeds with Fusarium oxysporum (Foxy 2) for control of the root parasitic weed Striga, appears to be an attractive option for minimizing the inoculum amount, establishing the biocontrol agent in the potential infection zone of the host plants, and offering a simple, easy and economical delivery system. Our investigations resulted in the selection of appropriate seed coating materials and a suitable type and form of fungal inoculum. The coating materials tested were arabic gum (AG10%, 20%, 40%), carboxymethylcellulose (CMC1%, 2%) and pectin (LS 440, LM-5 CS) 1%, while the fungal inoculum included microconidia and fresh and dried chlamydospores produced using different substrates. Foxy 2 survived the seed treatment processing and showed excellent viability on seeds for at least 8 months of storage after coating. In general, the performance of 40% arabic gum in combination with dried chlamydospores was the best among the other types of inoculum and coating material tested. Regardless of the type and form of inoculum and coating materials tested, Foxy 2 was able to colonize all roots, even root tips and hairs of the host (sorghum), thereby meeting important criteria of a promising candidate for controlling Striga when applied as a seed treatment. The efficacy of treated sorghum seed with Foxy 2 using different coating materials in reducing S. hermonthica infestation was evaluated in pot and root chamber trials. Foxy 2 markedly reduced Striga emergence and dry weight and increased the percentage of the diseased emerged Striga shoots. However, the efficacy of seed coating varied according to the type and form of fungal inoculum as well as coating material. Coating sorghum seed with dried chlamydospore inoculum homogenized into 20% arabic gum (as adhesive) showed the highest efficacy of 81 and 77% (i.e., percent reduction in healthy emerged Striga shoots compared to the control treatment) against Striga using either sterilized or non-sterilized soil, respectively. In root chamber bioassays, the application of Foxy 2 in combination with AG40% significantly caused disease in 77% of the germinated Striga seeds and in all tubercles after 25 days of sowing. These findings provide an optimized coating protocol as an attractive delivery system for bioherbicides for root parasitic weeds. 相似文献
49.
Prabaharan M 《International journal of biological macromolecules》2011,49(2):117-124
Guar gum is a non-ionic polysaccharide that is found abundantly in nature and has many properties desirable for drug delivery applications. However, due to its high swelling characteristics in aqueous solution, the use of guar gum as delivery carriers is limited. Guar gum can be modified by derivatization, grafting and network formation to improve its property profile for a wide spectrum of biomedical applications. This review article is aimed at focusing the recent efforts and developments on guar gum and its derivatives as colon-specific, antihypertensive, protein and transdermal drug delivery systems. Based on the literatures reviewed, it is concluded that guar gum and its derivatives in the various forms such as coatings, matrix tablets, hydrogels and nano/microparticles can be exploited as potential carriers for targeted drug delivery. 相似文献
50.
Arimura T Omagari Y Yamamoto K Kadokawa J 《International journal of biological macromolecules》2011,49(4):498-503
This paper reports the chemoenzymatic synthesis of an amylose-grafted xanthan gum. An amine-functionalized maltooligosaccharide was chemically introduced to xanthan gum by condensation with its carboxylates using a condensing agent to produce a maltooligosaccharide-grafted xanthan gum. Then, a phosphorylase-catalyzed enzymatic polymerization of glucose 1-phosphate from the graft chain ends on the xanthan gum derivative was performed, giving an amylose-grafted xanthan gum. Furthermore, the product formed a gel with an ionic liquid, which was converted into a hydrogel with high water content by replacement of the ionic liquid with water. The ionically cross-linked hydrogel was also provided by soaking the primary formed hydrogel in FeCl3 aqueous solution. The mechanical properties of the resulting hydrogels were evaluated by compressive testing. 相似文献