Genetic transformation of most indica rice (Oryza sativa) cultivars is hampered by poor in vitro culture performance and low regeneration potential. Histological study of primary calli can provide substantial information on their regeneration potential and can be used for early grading of calli expected to develop plantlets on regeneration media. The study was aimed to undertake histological analysis of primary calli derived from mature seeds of five indica rice cultivars viz. KSK-133, KS-282, Shaheen Basmati, Super Basmati, and DilRosh in order to assess their regeneration potential on different media combinations supplemented with various hormone concentrations (N6 + 2 mg/L 2,4-Dichlorophenoxyacetic acid; N6 + 2 mg/L 2–4 D + 2 mg/L Benzylaminopurine and MS + 2 mg/L 2,4-D). Calli with regeneration capability were subjected to histological assays by examining toulidine blue stained 5–8 μm thin sections for the presence of meristematic zones exhibiting embryogenic callus features. Based on our observations, formation of embryoids or embryoid-like structures was pronounced in KSK-133 and KS-282 calli. However, DilRosh, Super Basmati and Shaheen Basmati did not show these characteristic features. Three-week-old calli of all rice cultivars were transferred into regeneration medium (MS + 2 mg/L BAP + 1 mg/L Naphthaleneacetic acid). KSK-133 and KS-282 showed the highest regeneration potential (81% and 76%, respectively). These data were supported by histological observations where characteristic embryogenic units (EU) were noticed in these genotypes. These meristematic regions displayed high mitotic activity and stained relatively dark. The embryogenic calli cells were found heavily cytoplasmic with prominent nuclei and were located on the callus surface or inside surrounded by parenchymal cells.
Crispins A (1) and B (2), two new glycosphingolipids, were isolated from the whole plant Buddleja crispa, along with three known compounds: alpha-amyrin, linoleic acid, and stigmasterol. Their structures were elucidated by chemical and spectroscopic techniques. Both 1 and 2 showed significant inhibitory activity against alpha-chymotrypsin in a concentration-dependent manner. 相似文献
Bractin A (=(2S,3S,4R,5E)-2-{[(2R)-2-hydroxydodecanoyl]amino}triacont-5-ene-1,3,4-triol; 1) and bractin B (=(2S,3S,4R,5E,8E)-2-{[(2R)-2-hydroxyhexacosanoyl]amino}pentadeca-5,8-diene-3,4,15-triol 1-O-beta-D-glucopyranoside; 2), new sphingolipids, and bractic acid (=(5Z,10Z,15Z)-2-decyl-4,7,8,12,13,17,18-heptahydroxy-20,23-dioxopentacosa-5,10,15-trienoic acid; 3), a long-chain polyhydroxy acid, were isolated from the whole plant Ajuga bracteosa along with four known diterpenoids 4-7. Their structures were deduced by spectral studies including 1D- and 2D-NMR spectroscopy. Compounds 1-3 displayed inhibitory potential against enzyme lipoxygenase, while compounds 4-7 inhibited cholinesterase enzymes in a concentration-dependent manner with IC(50) values in the range 10.0-33.0, 14.0-35.2, and 10.0-19.0 microM for lipoxygenase, acetylcholinesterase, and butyrylcholinesterase, respectively. Lineweaver-Burk, and Dixon plots, and their secondary replots indicated that all compounds exhibit non-competitive type of inhibition with K(i) values in the range of 9.5-35.2, 15.2-36.0, and 11.6-20.5 microM, for lipoxygenase, acetylcholinesterase, and butyrylcholinesterase, respectively. 相似文献
Apoptotic cell death in mammalian models is frequently associated with cell shrinkage. Inhibition of apoptotic volume decrease
(AVD) is cytoprotective, suggesting that cell shrinkage is an important early event in apoptosis. In salmonid hepatoma and
gill cells staurosporine induced apoptosis, as assessed by activation of effector caspases, nuclear condensation, and a decrease
of mitochondrial membrane potential (MMP), and these changes were accompanied by cell shrinkage. The Cl− transport inhibitor DIDS and the K+ channel inhibitor quinidine prevented AVD, but only DIDS inhibited apoptosis. Other Cl− flux inhibitors, as well as a pan-caspase inhibitor, did not prevent cell shrinkage, but still prevented caspase activation.
Furthermore, regulatory volume decrease (RVD) under hypotonic conditions was not facilitated, but diminished in apoptotic
cells. Since all transport inhibitors used blocked RVD, but only DIDS and quinidine inhibited AVD, the ion transporters involved
in both processes are apparently not identical. In addition, our data indicate that inhibition of Cl− fluxes rather than blocking cell shrinkage or K+ fluxes is important for preventing apoptosis. In line with this, inhibition of MAP kinases reduced RVD and not AVD, but still
diminished caspase activation. Finally, we observed that MAP kinases were activated upon staurosporine treatment and that
at least activation of ERK was prevented when AVD was inhibited. 相似文献
A novel mutant enzyme namely H43T CGTase can produce up to 39% γ-cyclodextrin (γ-CD) compared to the native enzyme which produces only 10% γ-CD. The effect of the reaction conditions on γ-CD production was studied using this mutant CGTase. The effects of substrate–buffer combination, starch pretreatment and concentration, pH, additives and finally the use of a debranching enzyme improved the γ-CD ratio further. The tapioca–acetate pair gave the highest conversion (16% conversion) among four types of starch and four buffer system combinations. Gelatinized starch was preferred compared to raw tapioca starch in producing a high percentage of γ-CD and conversion rate. Higher pH especially pH 8–9 led to a higher proportion of γ-CD, and was relatively more apparent when the concentration of starch was increased. Forty-six percent γ-CD was produced using 2.5% gelatinized tapioca starch at pH 8. Pullulanase enzyme was found to be useful in reducing the viscosity of tapioca starch paste thus increasing the efficiency of utilization of starch by CGTase by at least 20- to 30-fold. Up to 48% γ-CD can be produced when 4% pullulanase-pretreated tapioca starch was reacted with the CGTase mutant. It was also found that the supplementation of the reaction mixture with glucose, toluene, or cyclododecanone improved the γ-CD yield by 42.2, 46.4, 43.4, and 43.4%, respectively. All the parameters involved have been shown to affect the product specificity of the mutant H43T CGTase transglycosylation mechanism. 相似文献
What makes selenoenzymes--seen from a chemist's view--so special that they cannot be substituted by just more analogous or adapted sulfur proteins? This review compiles and compares physicochemical properties of selenium and sulfur, synthetic routes to selenocysteine (Sec) and its peptides, and comparative studies of relevant thiols and selenols and their (mixed) dichalcogens, required to understand the special role of selenium in selenoproteins on the atomic molecular level. The biochemically most relevant differences are the higher polarizability of Se- and the lower pKa of SeH. The latter has a strikingly different pH-dependence than thiols, with selenols being active at much lower pH. Finally, selected typical enzymatic mechanisms which involve selenocysteine are critically discussed, also in view of the authors' own results. 相似文献