Внесок користувача
- 03:29, 16 березня 2017 (різн. • історія) . . (-381) . . м In this work, we have presented biochemical evidence that cancer cells have the potential to utilize extracellular acid gradient as an energy source to synthesize high-energy phosphate bonds (поточна)
- 00:45, 16 березня 2017 (різн. • історія) . . (+1500) . . Н In this work, we have presented biochemical evidence that cancer cells have the potential to utilize extracellular acid gradient as an energy source to synthesize high-energy phosphate bonds (Створена сторінка: This would nonetheless require that the most cancers cytosol would be ready to transform PPi to ATP which was next analyzed.Cytosols from the cell strains (HMEC...)
- 13:54, 15 березня 2017 (різн. • історія) . . (+2523) . . Н The supernatant was removed and the vesicles bound to the beads were lysed, extracted with buffer EB and the amounts of ATP formed were estimated (Створена сторінка: The sealed vesicles certain to the beads ended up washed numerous times, acidified for ninety seconds at indicated pH, centrifuged and the supernatant and pelle...) (поточна)
- 19:06, 8 березня 2017 (різн. • історія) . . (+3467) . . Н The NET23/STING chromatin compaction effect was not due to a potential artificial interaction with the GFP labeled H2B molecules (Створена сторінка: The NET23/STING chromatin compaction influence was not owing to a potential synthetic conversation with the GFP labeled H2B molecules since it was also noticed...) (поточна)
- 10:51, 8 березня 2017 (різн. • історія) . . (+3124) . . Н Several individual genes have also been observed to move from the periphery to the nuclear interior as they become activated, including the IgH locus (Створена сторінка: Many specific genes have also been observed to go from the periphery to the [http://www.medchemexpress.com/ptc124.html PTC124] nuclear inside as they become act...) (поточна)
- 19:08, 7 березня 2017 (різн. • історія) . . (-135) . . м To investigate the role of regulation in the response to periods of starvation and the subsequent metabolic recovery in more detail (поточна)
- 19:01, 7 березня 2017 (різн. • історія) . . (+3585) . . Н To investigate the role of regulation in the response to periods of starvation and the subsequent metabolic recovery in more detail (Створена сторінка: Around 54% of all designs get better to the first metabolic point out (542 of 1000 instances tested) and the ATP level reaches its authentic value (&4 mM). In t...)
- 01:47, 7 березня 2017 (різн. • історія) . . (-6) . . м Collectively, these studies and our data indicate that regulation of p53 stability by OGlcNAc modification may regulate hyperglycemia-induced cell death in retinal PC (поточна)
- 23:04, 6 березня 2017 (різн. • історія) . . (+3627) . . Н Collectively, these studies and our data indicate that regulation of p53 stability by OGlcNAc modification may regulate hyperglycemia-induced cell death in retinal PC (Створена сторінка: We just lately confirmed that hyperglycemia causes an improve in O-GlcNAc modification of retinal vascular mobile proteins in a cellspecific fashion. In focusin...)
- 13:08, 6 березня 2017 (різн. • історія) . . (+3382) . . Н This may be due, in part, to the dynamic and unstable constitution of this modification, and to the difficulty of the purification of O-GlcNAcylated proteins (Створена сторінка: In order to assess whether lowered O-GlcNAc modification negatively impacted p53 expression, we used the GFAT inhibitor DON (Fig. 7A & B) and the OGT inhibitor...) (поточна)
- 13:32, 3 березня 2017 (різн. • історія) . . (+3401) . . Н Therefore the structure of the catalytic core of the enzyme is extremely well preserved in the truncated enzymes (Створена сторінка: Two zinc atoms have been found in the active website and reside in the exact same place as in dimeric composition of WT-HiDapE separated by three.forty A. [http...) (поточна)
- 19:44, 2 березня 2017 (різн. • історія) . . (-112) . . м Stained sections therefore were observed using a binocular polarized light microscope (Nikon Eclipse binocular polarising microscope, LV 100 POL, Japan) (поточна)
- 19:42, 2 березня 2017 (різн. • історія) . . (+3690) . . Н Stained sections therefore were observed using a binocular polarized light microscope (Nikon Eclipse binocular polarising microscope, LV 100 POL, Japan) (Створена сторінка: All control subjects included in the study ended up normotensive, had normal cardiac perform and lipid profile and also experienced standard fasting blood gluco...)
- 11:43, 2 березня 2017 (різн. • історія) . . (+3402) . . Н However, further work is required to determine how the novel substrates or sites identified in our study regulates process such as cytoskeleton dynamics (Створена сторінка: For that [http://www.medchemexpress.com/ABT-333.html 1132935-63-7] reason, we recommend that extracellular [https://pixabay.com/en/photos/?q=indicators indicato...) (поточна)
- 06:40, 1 березня 2017 (різн. • історія) . . (+48) . . м The Insulin Growth Factor (IGF) system in mammals comprises a dynamic network of proteins including ligands (IGF-I and IGF-II) and at least four associated receptors (поточна)
- 04:28, 1 березня 2017 (різн. • історія) . . (+3650) . . Н The Insulin Growth Factor (IGF) system in mammals comprises a dynamic network of proteins including ligands (IGF-I and IGF-II) and at least four associated receptors (Створена сторінка: The Insulin Expansion Element (IGF) system in mammals comprises a dynamic community of proteins including ligands (IGF-I and IGF-II) and at least 4 connected re...)