ライフサイエンスコーパス: osmotic stress response

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1 the dynamic protein-DNA interactions during osmotic stress response.

2 ight into cellular processes involved in the osmotic stress response.

3 n medium with salt, urea failed to stimulate osmotic stress response.

4 r (AtWRKY15) modulates plant growth and salt/osmotic stress responses.

5 ABA-dependent and -independent pathways for osmotic stress responses.

6 ates the DNA synthesis, independently of the osmotic stress responses.

7 entral energy metabolism that influences the osmotic stress response and stomatal closure.

8 suggest that the ability of FRAP to mediate osmotic stress response (and glucose deprivation respons

9 Osmotic stress responses are critical not only to the su

10 The osmotic stress response correlated with the perturbation

11 togen-activated protein kinase and increased osmotic stress-response gene expression.

12 quired for transcriptional activation of the osmotic stress response genes betIBA-proXWV.

13 Moreover, osmotic stress response genes such as aldose reductase a

14 ther, our real time-qPCR results showed that osmotic stress-response genes that are dependent on the

15 nscriptional activation of a large subset of osmotic stress-response genes.

16 nrichment mapping to identify Sko1-dependent osmotic stress-response genes.

17 al role in transcriptional regulation of the osmotic stress response in bacteria.

18 uantitative model of the Hog1 MAPK-dependent osmotic stress response in budding yeast.

19 e first time, that CaTLP1 may be involved in osmotic stress response in plants.

20 ctivated protein kinase pathway mediates the osmotic stress response in Saccharomyces cerevisiae, act

21 protein kinase (MAPK) pathway regulates the osmotic stress response in the yeast Saccharomyces cerev

22 We applied our method to extend pathways in osmotic stress response in yeast and identified several

23 nt to which cells outside the kidney rely on osmotic stress responses in vivo remains unknown.

24 assa osmosensing MAPK pathway, essential for osmotic stress responses, is a circadian output pathway

25 verify several of these predictions for the osmotic stress response network.

26 essary for the constitutive activity and the osmotic stress response of rat aldose reductase transcri

27 h distinct regions affect differentially the osmotic stress response (OSA) and meiotic recombination

28 etic selection for negative regulators of an osmotic stress response pathway called HOG, for high osm

29 e models of transcriptional dynamics for the osmotic stress response pathway in Saccharomyces cerevis

30 nment and the importance of the NFAT5/TonEBP osmotic stress response pathway in vivo.

31 g Fus3 in the mating pathway and Hog1 in the osmotic-stress response pathway.

32 functional redundancy, their contribution to osmotic stress responses remained unclear.

33 ance mutants, which genetically activate the osmotic stress response, strongly inhibited the formatio

34 ntial blunting in transcription of important osmotic stress response target genes and reduced cell vi

35 To define the function of Nup88 in the osmotic stress response, the transcription factor associ

36 The role of H3 phosphorylation in the osmotic stress response was investigated on the mouse ma

37 es a role for PIAL1 and 2 in salt stress and osmotic stress responses, whereas under standard conditi

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