全文获取类型
收费全文 | 1702篇 |
免费 | 118篇 |
出版年
2023年 | 7篇 |
2022年 | 15篇 |
2021年 | 41篇 |
2020年 | 17篇 |
2019年 | 23篇 |
2018年 | 21篇 |
2017年 | 27篇 |
2016年 | 40篇 |
2015年 | 76篇 |
2014年 | 112篇 |
2013年 | 126篇 |
2012年 | 158篇 |
2011年 | 140篇 |
2010年 | 116篇 |
2009年 | 87篇 |
2008年 | 126篇 |
2007年 | 148篇 |
2006年 | 117篇 |
2005年 | 75篇 |
2004年 | 89篇 |
2003年 | 66篇 |
2002年 | 73篇 |
2001年 | 12篇 |
2000年 | 11篇 |
1999年 | 15篇 |
1998年 | 12篇 |
1997年 | 6篇 |
1996年 | 5篇 |
1995年 | 6篇 |
1994年 | 5篇 |
1993年 | 6篇 |
1992年 | 5篇 |
1991年 | 7篇 |
1990年 | 5篇 |
1989年 | 1篇 |
1988年 | 4篇 |
1987年 | 1篇 |
1986年 | 1篇 |
1985年 | 3篇 |
1984年 | 3篇 |
1983年 | 4篇 |
1982年 | 2篇 |
1981年 | 2篇 |
1980年 | 1篇 |
1978年 | 1篇 |
1970年 | 1篇 |
1948年 | 1篇 |
排序方式: 共有1820条查询结果,搜索用时 15 毫秒
61.
62.
Sidiky Ménil Jean-Louis Petit Elise Courvoisier-Dezord Adrien Debard Virginie Pellouin Thomas Reignier Michelle Sergent Valérie Deyris Katia Duquesne Véronique de Berardinis Véronique Alphand 《Biotechnology and bioengineering》2019,116(11):2852-2863
The efficiency of a versatile in vivo cascade involving a promiscuous alcohol dehydrogenase, obtained from a biodiversity search, and a Baeyer–Villiger monooxygenase was enhanced by the independent control of the production level of each enzyme to produce ε-caprolactone and 3,4-dihydrocoumarin. This goal was achieved by adjusting the copy number per cell of Escherichia coli plasmids. We started from the observation that this number generally correlates with the amount of produced enzyme and demonstrated that an in vivo multi-enzymatic system can be improved by the judicious choice of plasmid, the lower activity of the enzyme that drives the limiting step being counter-balanced by a higher concentration. Using a preconception-free approach to the choice of the plasmid type, we observed positive and negative synergetic effects, sometimes unexpected and depending on the enzyme and plasmid combinations. Experimental optimization of the culture conditions allowed us to obtain the complete conversion of cyclohexanol (16 mM) and 1-indanol (7.5 mM) at a 0.5-L scale. The yield for the conversion of cyclohexanol was 80% (0.7 g ε-caprolactone, for the productivity of 244 mg·L −1·h −1) and that for 1-indanol 60% (0.3 g 3,4-dihydrocoumarin, for the productivity of 140 mg·L −1·h −1). 相似文献
63.
64.
65.
Virginie E Desse Cassandra R Blanchette Malika Nadour Paola Perrat Lise Rivollet Anagha Khandekar Claire Y Bnard 《Genetics》2021,218(4)
Whereas remarkable advances have uncovered mechanisms that drive nervous system assembly, the processes responsible for the lifelong maintenance of nervous system architecture remain poorly understood. Subsequent to its establishment during embryogenesis, neuronal architecture is maintained throughout life in the face of the animal’s growth, maturation processes, the addition of new neurons, body movements, and aging. The Caenorhabditis elegans protein SAX-7, homologous to the vertebrate L1 protein family of neural adhesion molecules, is required for maintaining the organization of neuronal ganglia and fascicles after their successful initial embryonic development. To dissect the function of sax-7 in neuronal maintenance, we generated a null allele and sax-7S-isoform-specific alleles. We find that the null sax-7(qv30) is, in some contexts, more severe than previously described mutant alleles and that the loss of sax-7S largely phenocopies the null, consistent with sax-7S being the key isoform in neuronal maintenance. Using a sfGFP::SAX-7S knock-in, we observe sax-7S to be predominantly expressed across the nervous system, from embryogenesis to adulthood. Yet, its role in maintaining neuronal organization is ensured by postdevelopmentally acting SAX-7S, as larval transgenic sax-7S(+) expression alone is sufficient to profoundly rescue the null mutants’ neuronal maintenance defects. Moreover, the majority of the protein SAX-7 appears to be cleaved, and we show that these cleaved SAX-7S fragments together, not individually, can fully support neuronal maintenance. These findings contribute to our understanding of the role of the conserved protein SAX-7/L1CAM in long-term neuronal maintenance and may help decipher processes that go awry in some neurodegenerative conditions. 相似文献
66.
Changzheng Song Jiao Zhao Marjorie Guichard Dongbo Shi Guido Grossmann Christian Schmitt Virginie Jouannet Thomas Greb 《Plant physiology》2022,188(1):97
Strigolactones (SLs) are a class of plant hormones that mediate biotic interactions and modulate developmental programs in response to endogenous and exogenous stimuli. However, a comprehensive view on the spatio-temporal pattern of SL signaling has not been established, and tools for a systematic in planta analysis do not exist. Here, we present Strigo-D2, a genetically encoded ratiometric SL signaling sensor that enables the examination of SL signaling distribution at cellular resolution and is capable of rapid response to altered SL levels in intact Arabidopsis (Arabidopsis thaliana) plants. By monitoring the abundance of a truncated and fluorescently labeled SUPPRESSOR OF MAX2 1-LIKE 6 (SMXL6) protein, a proteolytic target of the SL signaling machinery, we show that all cell types investigated have the capacity to respond to changes in SL levels but with very different dynamics. In particular, SL signaling is pronounced in vascular cells but low in guard cells and the meristematic region of the root. We also show that other hormones leave Strigo-D2 activity unchanged, indicating that initial SL signaling steps work in isolation from other hormonal signaling pathways. The specificity and spatio-temporal resolution of Strigo-D2 underline the value of the sensor for monitoring SL signaling in a broad range of biological contexts with highly instructive analytical depth.Strigo-D2 is a genetically encoded sensor visualizing spatio-temporal patterns of strigolactone signaling levels in intact plants based on the activity ratio of two fluorescent marker proteins. 相似文献
67.
Differential synthesis of glyceraldehyde-3-phosphate dehydrogenase polypeptides in stressed yeast cells 总被引:4,自引:0,他引:4
Helian Boucherié Nelly Bataille Ian T. Fitch Michel Perrot Mick F. Tuite 《FEMS microbiology letters》1995,125(2-3):127-133
Abstract Three unlinked genes, TDH1, TDH2 and TDH3 , encode the glycolytic enzyme glyceraldehyde-3-phosphate dehydrogenase (triose-phosphate dehydrogenase; TDK) in the yeast Saccharomyces cerevisiae . We demonstrate that the synthesis of the three encoded TDK polypeptides (TDHa, TDHb and TDHc, respectively) is not co-ordinately regulated and that TDHa is only synthesised as cells enter stationary phase, due to glucose starvation, or in heat-shocked cells. Furthermore, the synthesis of TDHb, but not TDHc, is strongly repressed by a heat shock. Hence, the TDHa enzyme may play a cellular role, distinct from glycolysis, that is required by stressed cells. 相似文献
68.
69.
70.