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91.
92.
M. Ghirardi A. Casadio L. Santarelli P. G. Montarolo 《Invertebrate neuroscience : IN》1996,2(1):41-49
Hemolymph of adultAplysia californica significantly affects neurite outgrowth of identified neurons of the land snailHelix pomatia. The metacerebral giant cell (MGC) and the motoneuron C3 from the cerebral ganglion and the neuron B2 from the buccal ganglion
ofH. pomatia were isolated by enzymatic and mechanical dissociation and plated onto poly-l-lysine-coated dishes either containing culture medium conditioned byHelix ganglia, or pre-treated withAplysia hemolymph. To determine the extent of neuronal growth we measured the neurite elongation and the neuritic field of cultured
neurons at different time points.Aplysia hemolymph enhances the extent and rate of linear outgrowth and the branching domain ofHelix neurons. With the hemolymph treatment the MGC neuron more consistently forms specific chemical synapses with its follower
cell B2, and these connections are more effective than those established in the presence of the conditioned medium. 相似文献
93.
胰岛素介体──肌醇磷酸多糖,被认为是胰岛素的第二信使,存在于细胞膜上的糖肌醇磷脂是产生该介体的前体,经胰岛素或磷脂酰肌醇特异性的磷脂酶C(PIPLC)水解,产生介体和二酰甘油(DG).本实验以人红细胞为材料,用3 ̄H同位素标记、有机溶剂提取、薄层层析及放射性自动计数等方法,分析胰岛素或PIPLC作用于红细胞后前体和DG的变化情况,以推测介体的产生机制.结果显示:胰岛素使红细胞膜上及释放至胞外上清的前体量均较对照升高,且使体系中的DG量升高;PIPLC则使红细胞膜上的前体量下降,使释放至胞外上清的前体量升高,推测:胰岛素或PIPLC作用于完整细胞时,激活了某种酶,使前体先从膜上释放至胞外上清,再被水解为介体和DG,同时胰岛素还可能激活完整细胞内再合成前体的机制,而PLPLC却不能. 相似文献
94.
95.
Summary The cultivar specific interaction ofTrifolium subterranean cv. Woogenellup andRhizobium leguminosarum bv.trifolii strain ANU 794 was examined to establish the basis for nodulation failure on this cultivar. Infections were initiated by strain ANU 794 on cv. Woogenellup. Root hair curling, the initiation of infection threads, and cortical cell divisions were evident on the tap root and appeared normal after microscopic observation. However, in most cases, the infection threads stayed confined to the root hairs. No evidence was found for a hypersensitive response by the plant. The progress of infections on the tap roots was different from that on the lateral roots. This was confirmed by the differential tap and lateral root nodulation patterns of the mutants derived from strain ANU 794, which show enhanced nodulation on cv. Woogenellup. On the lateral roots, cortical cell divisions progressed further than those on the tap root and formed macroscopically visible swellings, which could be divided into two morphological classes. In some cases infection threads developed into these primordia but successful nodules were not established. The inhibition of infection appeared to be manifested at two levels: first, on the tap roots in the root hairs, where many of the infection threads are contained and secondly, in the primordia induced on the lateral roots, where the infection threads sometimes penetrate further than the root hair cell but stop in the primordial cells. It appears that an essential factor or trigger in the communication between plant and bacteria is missing or altered, resulting in an array of primordia-structures, which cease to develop.Abbreviations bv
biovar
- cv
cultivar
- Fix+
nitrogen fixing
- GUS
-glucuronidase
- Nod+
nodulating
- HR
hypersensitive response
- Km
kanamycin
- LOSs
lipo-oligosaccharides
- Sm
streptomycin
- Sp
spectinomycin
- X-Gluc
5-bromo-4-chloro-3-indonyl--glucuronic acid 相似文献
96.
Human Microtubule-Associated Protein-2c Localizes to Dendrites and Axons in Fetal Spinal Motor Neurons 总被引:2,自引:0,他引:2
Joanna S. Albala Yvonne Kress Wan-Kyng Liu Karen Weidenheim Shu-Hui C. Yen Bridget Shafit-Zagardo 《Journal of neurochemistry》1995,64(6):2480-2490
Abstract: Microtubule-associated protein-2 (MAP-2) functions to maintain neuronal morphology by promoting the assembly of microtubules. MAP-2c is an alternately spliced form of MAP-2, containing the first 151 amino acids of high-molecular-weight (HMW) MAP-2 joined to the last 321 amino acids, eliminating 1,352 amino acids specific to HMW MAP-2. A polyclonal antibody generated to the splice site of human MAP-2c was used to determine its cellular localization. The MAP-2c antiserum was depleted of any HMW MAP-2 reactivity by absorption with HMW MAP-2 fusion protein. Western blot analysis of human fetal spinal cord homogenates demonstrated that the antibody is specific for human MAP-2c. MAP-2c immunoreactivity was found in the perinuclear cytoplasm and processes of anterior motor neurons and large processes of the posterior column in sections from 22–24-week human fetal spinal cord. Double-label confocal microscopy was performed using the MAP-2c polyclonal antibody and either a HMW MAP-2 or a neurofilament protein (highly phosphorylated 160- and 200-kDa protein) monoclonal antibody to identify these processes as dendrites or axons, respectively. HMW MAP-2 and MAP-2c colocalized in cell bodies and dendrites of anterior motor neurons, demonstrating for the first time the presence of native MAP-2c within dendrites. In addition, immunoelectron microscopy showed MAP-2c associated with microtubules in dendrites of motor neurons. MAP-2c and the neurofilament proteins were found in axons of the dorsal and ventral roots. The presence of MAP-2c within axons and dendrites suggests that MAP-2c contributes to neuronal plasticity during human fetal development. 相似文献
97.
Eight diatom species (Chaetoceros pseudocurvisetus Mang ., Stephanodiscus hantzschii Grun ., Skeletonema costatum ( Grev.) Cleve , Asterionella formosa Hass ., Thalassiosira nordenskioeldii Cleve , Detonula confervacea ( Cleve) Gran , Chaetoceros sp., and Nitzschia frigida Grun.) were isolated from various temperature environments ranging from temperate to the Arctic, and their growth responses to temperature were determined. Each species grew over a different temperature range. The lower and upper limits of each species varied from −1.8° to 20° C and from 2° to 30° C, respectively. The width of the growth range of each species. also varied from 3.8° to 25° C, and the growth of these species was observed, as a whole, between a wide temperature range from −1.8° to 30° C .
Within the growth temperature ranges, the growth rate of each species increased with temperature until reaching a maximum, which was followed by a steep decrease up to the upper limit of the growth range. As a result, each species showed a maximum rate at the temperature very near to the upper limit, which was generally higher than the isolation temperature. The specific growth rates were compared among the eight species. The interspecific maximum rate at each temperature exhibited an exponential increase with a Q10 = 1.48. The relative growth rates of each species were calculated by normalizing the specific growth rates with the interspecific maximum rate at each respective temperature. The higher relative growth rates tended to occur at the isolation temperature of each species, suggesting that temperature is a significant control on species distributions in nature . 相似文献
Within the growth temperature ranges, the growth rate of each species increased with temperature until reaching a maximum, which was followed by a steep decrease up to the upper limit of the growth range. As a result, each species showed a maximum rate at the temperature very near to the upper limit, which was generally higher than the isolation temperature. The specific growth rates were compared among the eight species. The interspecific maximum rate at each temperature exhibited an exponential increase with a Q
98.
Root and leaf attributes accounting for the performance of fast- and slow-growing grasses at different nutrient supply 总被引:18,自引:1,他引:17
Despite their difference in potential growth rate, the slow-growing Brachypodium pinnatum and the fast-growing Dactylis glomerata co-occur in many nutrient-poor calcareous grasslands. They are known to respond differently to increasing levels of N and
P. An experiment was designed to measure which characteristics are affected by nutrient supply and contribute to the ecological
performance of these species. Nutrient acquisition and root and shoot traits of these grasses were studied in a garden experiment
with nine nutrient treatments in a factorial design of 3 N and 3 P levels each.
D. glomerata was superior to B. pinnatum in nutrient acquisition and growth in all treatments. B. pinnatum was especially poor in P acquisition. Both species responded to increasing N supply and to a lesser extent to increasing
P supply by decreasing their root length and increasing their leaf area per total plant weight. D. glomerata showed a higher plasticity. In most treatments, the root length ratio (RLR) and the leaf area ratio (LAR) were higher for
D. glomerata. A factorization of these parameters into components expressing biomass allocation, form (root fineness or leaf thickness)
and density (dry matter content) shows that the low density of the biomass of D. glomerata was the main cause for the higher RLR and LAR. The biomass allocation to the roots showed a considerable plasticity but did
not differ between the species. B. pinnatum had the highest leaf weight ratio. Root fineness was highly plastic in D. glomerata, the difference with B. pinnatum being mainly due to the thick roots of D. glomerata at high nutrient supply. The leaf area/leaf fresh weight ratio did not show any plasticity and was slightly higher for B. pinnatum.
It is concluded, that the low density of the biomass of D. glomerata is the pivotal trait responsible for its faster growth at all nutrient levels. It enables simultaneously a good nutrient
acquisition capacity by the roots as well as a superior carbon acquisition by the leaves. The high biomass density of B. pinnatum will then result in a lower nutrient requirement due to a slower turnover, which in the long term is advantageous under nutrient-poor
conditions. 相似文献
99.
Abstract: We examined the ability of ceramide and sphingomyelinase (SMase) to prevent neuronal programmed cell death (PCD). We found that a cell-permeable ceramide analogue prevented neuronal PCD when applied to established sympathetic neuron primary cultures at the time of nerve growth factor (NGF) deprivation. Other amphiphilic lipids such as oleic acid failed to prevent cell death. Exogenous SMase also showed the same effect, probably by raising the intracellular ceramide level by sphingomyelin (SM) breakdown. Phosphocholine, another hydrolytic product of SM by SMase, did not prevent cell death. Other phospholipases, such as phospholipase C and phospholipase A2 , could not prevent cell death. Given the recent findings that the SM cycle is activated to increase the intracellular ceramide level on NGF binding to the low-affinity NGF receptor (LNGFR) and that NGF binding to LNGFR suppresses apoptosis in neural cell lines, our results suggest the possibility of the SM cycle as a signaling mechanism transducing the PCD-preventing activity of NGF. 相似文献
100.
J. C. Hunter 《Trees - Structure and Function》1997,11(3):169-175
For the angiosperm dominants of northern California’s mixed evergreen forests, this study compares the display of photosynthetic
tissue within leaves and along branches, and examines the correspondence between these morphological attributes and the known
environmental tolerances of these species. Measurements were made on both sun and shade saplings of six species: Arbutus
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s (Fagaceae), Quercus
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s (Fagaceae), Quercus
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i (Fagaceae), and Umbellularia
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a (Lauraceae). All species had sclerophyllous leaves with thick epidermal walls, but species differed in leaf specific weight,
thickness of mesophyll tissues and in the presence of a hypodermis, crystals, secretory idioblasts, epicuticular deposits,
and trichomes. The leaves of Arbutus were 2 – 5 times larger than those of C
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s and Umbellularia and 4 – 10 times larger than those of both Quercus species. Together with differences in branch architecture, these leaf traits divide the species into groups corresponding
to environmental tolerances. Shade-tolerant C
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s, and Umbellularia had longer leaf lifespans and less palisade tissue, leaf area, and crown mass per volume than the intermediate to intolerant
Arbutus and Quercus. Having smaller leaves, Quercus branches had more branch mass per leaf area and per palisade volume than other species, whereas Arbutus had less than other species. These differences in display of photosynthetic tissue should contribute to greater growth for
Quercus relative to the other species under high light and limited water, for Arbutus under high light and water availability, and for C
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s, and Umbellularia under limiting light levels.
Accepted: 22 March 1996 相似文献