全文获取类型
收费全文 | 556篇 |
免费 | 35篇 |
国内免费 | 7篇 |
专业分类
598篇 |
出版年
2023年 | 8篇 |
2022年 | 13篇 |
2021年 | 21篇 |
2020年 | 12篇 |
2019年 | 16篇 |
2018年 | 17篇 |
2017年 | 20篇 |
2016年 | 13篇 |
2015年 | 23篇 |
2014年 | 23篇 |
2013年 | 29篇 |
2012年 | 16篇 |
2011年 | 13篇 |
2010年 | 16篇 |
2009年 | 14篇 |
2008年 | 18篇 |
2007年 | 22篇 |
2006年 | 18篇 |
2005年 | 19篇 |
2004年 | 15篇 |
2003年 | 13篇 |
2002年 | 21篇 |
2001年 | 22篇 |
2000年 | 13篇 |
1999年 | 15篇 |
1998年 | 16篇 |
1997年 | 11篇 |
1996年 | 9篇 |
1995年 | 11篇 |
1994年 | 12篇 |
1993年 | 11篇 |
1992年 | 10篇 |
1991年 | 16篇 |
1990年 | 11篇 |
1989年 | 5篇 |
1988年 | 6篇 |
1987年 | 14篇 |
1986年 | 4篇 |
1985年 | 6篇 |
1984年 | 6篇 |
1983年 | 3篇 |
1982年 | 7篇 |
1981年 | 3篇 |
1980年 | 2篇 |
1979年 | 1篇 |
1978年 | 1篇 |
1976年 | 3篇 |
排序方式: 共有598条查询结果,搜索用时 15 毫秒
121.
A recently developed model of nonlinear dynamics for microtubules is further expanded based on the biophysical arguments involving
the secondary structure of the constitutive protein tubulin and on the ferroelectric properties of microtubules. It is demonstrated
that kink excitations arise due to GTP hydrolysis that causes a dynamical transition in the structure of tubulin. The presence
of an intrinsic electric field associated with the structure of a microtubule leads to unidirectional propagation of the kink
excitation along the microtubule axis. This mechanism offers an explanation of the dynamic instability phenomenon in terms
of the electric field effects. Moreover, a possible elucidation of the unidirectional transport of cargo via motor proteins such as kinesin and dynein is proposed within the model developed in this paper. 相似文献
122.
123.
124.
125.
126.
The role of microtubules in silicon metabolism leading to valve formation was investigated in the pennate diatom Navicula saprophila Lange-Bertalot & Bonik. By using synchronized cells blocked after mitosis and cytokinesis but prior to cell wall formation, effects due to inhibition of mitosis were eliminated. Cells were treated with three anti-microtubule drugs to assess the role of microtubules. Chemical analogs to two of the drugs provided controls for inhibition not related to microtubule disruption. Although all three anti-microtubule drugs reduced cell separation at high concentrations (1 × 10?3 M), podophyllotoxin was the only drug which reduced cell separation at concentrations lower than 1 × 10?5 M. None of the drugs at any concentration tested affected cell viability. There was no differential inhibitory effect between the active and inactive drugs on silicic acid transport, total uptake, incorporation, or pool formation. There was no qualitative difference between silica incorporated in treated and untreated cells. A colchicine binding component was isolated from N. saprophila. The characteristics of colchicine binding suggest this component may be tubulin. Microtubules do not appear to be involved in any of the steps of silicon metabolism leading to valve formation and yet they have profound influence on the symmetry and pattern of the mineralized product, the siliceous valve. 相似文献
127.
Shinichi Miyamura Shinji Sakaushi Terumitsu Hori Tamotsu Nagumo 《Phycological Research》2010,58(4):258-269
Behaviors of male and female gametes, planozygotes and their microtubular cytoskeletons of a marine green alga Bryopsis maxima Okamura were studied using field emission scanning electron microscopy, high‐speed video microscopy, and anti‐tubulin immunofluorescence microscopy. After fusion of the biflagellate male and female gametes, two sets of basal bodies lay side by side in the planozygote. Four long female microtubular roots extended from the basal bodies to the cell posterior. Four short male roots extended to nearly half the distance to the posterior end. Two flagella, one each from the male and female gametes, become a pair. Specifically, the no. 2 flagellum of the female gamete and one male flagellum point to the right side of the eyespot of the female gamete, which is located at the cell posterior and which is associated with 2s and 2d roots of the female gamete. This spatial relationship of the flagella, microtubular roots, and the eyespot in the planozygote is retained until settlement. During forward swimming, the planozygote swings the flagella backward and moves by flagellar beating. The male and female flagella in the pair usually beat synchronously. The cell withdraws the flagella and becomes round when the planozygote settles to the substratum 20 min after mixing. The axoneme and microtubular roots depolymerize, except for the proximal part and the basal bodies. Subsequently, distinct arrays of cortical microtubules develop in zygotes until 30 min after mixing. These results are discussed with respect to the functional significance of the spatial relationships of flagellar apparatus‐eyespot‐cell fusion sites in the mating gametes and planozygote of green algae. 相似文献
128.
Zhou Chang 《植物学报(英文版)》1987,29(2)
Fresh generative cells were isolated from mature pollen grains by means of a squash method in 7 species belonging to 3 families of angiosperms. Nomarski differential interference contrast, fluorescence, and video-enhanced microscopical studies revealed that the isolated generative cells appeared structurally intact and showed clear image of the membrane, the cytoplasm and the nucleus with 1–2 nucleoli, and the absence of a typical cell wall. It was the first time to obtain a scanning electron-microscopical image of a generative cell which became possible only after its isolation. Immunofluorescence of tubulin showed the distribution of long, mainly axial strands of the cortical microtubule. Morphologically, the isolated cells varied considerably from spindle to spherical shape, which were found to be dependent on osmolarity of the medium and treatment with the microtubule stabilizer. Fluorescein diacetate test confirmed the viability of the freshly isolated generative cells. The advantages and prospects of the isolation of generative cells are discussed. 相似文献
129.
《Autophagy》2013,9(4):550-567
Osmotic homeostasis is fundamental for most cells, which face recurrent alterations of environmental osmolality that challenge cell viability. Protein damage is a consequence of hypertonic stress, but whether autophagy contributes to the osmoprotective response is unknown. Here, we investigated the possible implications of autophagy and microtubule organization on the response to hypertonic stress. We show that hypertonicity rapidly induced long-lived protein degradation, LC3-II generation and Ptdlns3K-dependent formation of LC3- and ATG12-positive puncta. Lysosomotropic agents chloroquine and bafilomycin A1, but not nutrient deprivation or rapamycin treatment, further increased LC3-II generation, as well as ATG12-positive puncta, indicating that hypertonic stress increases autophagic flux. Autophagy induction upon hypertonic stress enhanced cell survival since cell death was increased by ATG12 siRNA-mediated knockdown and reduced by rapamycin. We additionally showed that hypertonicity induces fast reorganization of microtubule networks, which is associated with strong reorganization of microtubules at centrosomes and fragmentation of Golgi ribbons. Microtubule remodeling was associated with pericentrosomal clustering of ATG12-positive autolysosomes that colocalized with SQSTM1/p62 and ubiquitin, indicating that autophagy induced by hypertonic stress is at least partly selective. Efficient autophagy by hypertonic stress required microtubule remodeling and was DYNC/dynein-dependent as autophagosome clustering was enhanced by paclitaxel-induced microtubule stabilization and was reduced by nocodazole-induced tubulin depolymerization as well as chemical (EHNA) or genetic [DCTN2/dynactin 2 (p50) overexpression] interference of DYNC activity. The data document a general and hitherto overlooked mechanism, where autophagy and microtubule remodeling play prominent roles in the osmoprotective response. 相似文献
130.