Внесок користувача
- 06:25, 16 березня 2017 (різн. • історія) . . (+3796) . . Н In the present study, it is unclear if cytosine deamination played a role in decreasing the percent methylation detected among the ancient samples (Створена сторінка: In the present research, it is unclear if cytosine deamination played a role in decreasing the % methylation detected among the historical samples. Deamination...) (поточна)
- 03:50, 16 березня 2017 (різн. • історія) . . (+3533) . . Н While inhibition affected two samples (E5.1 and C34-1) enough that it may have contributed to the higher variance in percent methylation observed in those samples (Створена сторінка: Targeting a locus with a known methylation position decreases the possibility that variation in methylation amounts amongst samples is due to specific differenc...) (поточна)
- 22:12, 8 березня 2017 (різн. • історія) . . (-39) . . м It is because of this capability that influenza virus has evolved a second viral surface protein, neuraminidase, as a receptordestroying enzyme that cleaves sialic acid (поточна)
- 22:11, 8 березня 2017 (різн. • історія) . . (+3597) . . Н It is because of this capability that influenza virus has evolved a second viral surface protein, neuraminidase, as a receptordestroying enzyme that cleaves sialic acid (Створена сторінка: On the other hand, preventative therapy with oseltamivir (Tamiflu) unsuccessful to defend the lung from virus replication or swelling in an in vivo influenza in...)
- 13:35, 8 березня 2017 (різн. • історія) . . (+3382) . . Н Furthermore, exogenous neuraminidase was shown to promote both the microscopic diffusion and macroscopic penetration detected by the SPT and virus in-capsule-mucus penetration system (Створена сторінка: As shown in Fig. 6A, the cellular portion of SIV diffusion was severely diminished by NAI treatment, while was elevated by the addition of Arthrobacter ureafaci...) (поточна)
- 23:59, 7 березня 2017 (різн. • історія) . . (-20) . . м A shared feature of these systems is an increase in the number of promyelocytic leukemia zinc finger (поточна)
- 23:57, 7 березня 2017 (різн. • історія) . . (+3689) . . Н A shared feature of these systems is an increase in the number of promyelocytic leukemia zinc finger (Створена сторінка: A shared function of these programs is an increase in the quantity of promyelocytic leukemia zinc finger (PLZF)+ cells able of producing IL-four inside the thym...)
- 12:23, 7 березня 2017 (різн. • історія) . . (+3527) . . Н This class of CD8 ILLs has also been shown to possess enhanced function in vivo, as they produce more IFNc following stimulation with either T cell receptor (Створена сторінка: In assistance of this, we have demonstrated that DJ-1 decline sales opportunities to elevated ROS creation from isolated mitochondria [eighty]. Regardless of wh...) (поточна)
- 04:37, 7 березня 2017 (різн. • історія) . . (+95) . . м Therefore, we measured IL-1b production in human CF macrophages after autophagy stimulation as a primary source of excess inflammatory cytokine production during infection (поточна)
- 02:24, 7 березня 2017 (різн. • історія) . . (+3712) . . Н Therefore, we measured IL-1b production in human CF macrophages after autophagy stimulation as a primary source of excess inflammatory cytokine production during infection (Створена сторінка: At 4 several hours of remedy, there have been drastically larger bacterial counts in the two autophagy-stimulated and unstimulated CF macrophages when compared...)
- 17:16, 6 березня 2017 (різн. • історія) . . (+3322) . . Н There was no difference in IFN-c production between CF patients on azithromycin therapy p62 is an essential intracellular protein that targets cargo for autophagy (There was no difference in IFN-c production between CF patients on azithromycin therapy p62 is an essential intracellular protein that targets cargo for autophagy) (поточна)
- 04:09, 3 березня 2017 (різн. • історія) . . (+58) . . м The observations that CD44 is localized at plasma membrane vacuole-like fusion sites (Figure 8) and the inability of CD44depleted TIME cells (поточна)
- 03:09, 3 березня 2017 (різн. • історія) . . (+3627) . . Н The observations that CD44 is localized at plasma membrane vacuole-like fusion sites (Figure 8) and the inability of CD44depleted TIME cells (Створена сторінка: TIME cells were cultured under differentiating situations and the fashioned tubular constructions had been immunostained for CD44 (pink) and the endothelial cel...)
- 03:08, 3 березня 2017 (різн. • історія) . . (+3508) . . Н The multiple transduction pathways activated by the crosstalk between chemokines receptors and their ligands is context-dependent (Створена сторінка: In this research we report that CD44 and HYAL2 are expressed at substantial ranges in microvascular endothelial cell cultures. Functionally, these molecules act...) (поточна)
- 10:03, 1 березня 2017 (різн. • історія) . . (-83) . . м Further, Bax is taken to represent the pro-apoptotic proteins since it is the members of the Bax-like subfamily which controls the release of cytochrome (поточна)
- 07:27, 1 березня 2017 (різн. • історія) . . (+3592) . . Н Further, Bax is taken to represent the pro-apoptotic proteins since it is the members of the Bax-like subfamily which controls the release of cytochrome (Створена сторінка: Further, resistance to therapy can come up from numerous mechanisms. Therefore, in foreseeable future versions of our design we will incorporate a greater varie...)
- 22:05, 28 лютого 2017 (різн. • історія) . . (+3604) . . Н As demonstrated here, we can infer its value by fitting model simulations to tumor xenograft growth inhibition data when both drugs are given in combination (Створена сторінка: Nonetheless, s can not be directly measured from experiments. As shown here, we can infer its benefit by fitting model simulations to tumor xenograft developmen...) (поточна)