251) nd type Ⅰ collagen, fibrosis inhibiting gene of TGF-β3, and mechanotransduction-r |
252) ells (HUMSCs) transfected with the IFN-γ gene of human (h)/mice (m) (HUMSCs + Ad- |
253) utonomous manner to study the role of any gene of interest and its effect on CGN mor |
254) 11A1 and SORBS2 as a potential protective gene of substantial interest for TB, which |
255) Interestingly, Cyp2b10, a target gene of the nuclear receptor CAR, was also |
256) years, the functional roles for miRNAs in gene regulation have been well established |
257) nstrate a direct role of HSF1 in synaptic gene regulation that has important implica |
258) studies increase risk of disease through gene regulation via expression Quantitativ |
259) Epigenetic memory plays crucial roles in gene regulation. |
260) m corticosterone contributed to circadian gene regulation. |
261) terogeneous (HS) animals to map genes and gene networks associated with both behavio |
262) Our work has focused on the genes and gene networks associated with risk for exc |
263) here are clusters of patients with shared gene networks associated with severe preec |
264) tigation as tissue-specific regulators of gene networks related to drug resistance. |
265) of evolutionarily conserved developmental gene regulatory networks (GRNs) governing |
266) ve loci, molecular biologic pathways, and gene regulatory networks to capture the fu |
267) nsformed state in acute leukemia requires gene regulatory programs involving transcr |
268) Studies with different designs reported gene-miR regulatory axes in various cancer |
269) es for cancer cells resulted in effective gene silencing and cancer killing efficien |
270) ng small-interfering RNA (siRNA)-mediated gene silencing and small-molecule drugs ar |
271) assess cellular uptake, cytotoxicity, and gene silencing efficacy in lung adenocarci |
272) tiates innovative strategies for targeted gene silencing. |
273) istone arginine methylation in regulating gene transcription and other chromatin-tem |
274) effect is not the result of increased AR gene transcription or protein synthesis, n |
275) pigenetic events that activate or repress gene transcription. |
276) y decreased FliC production, but not fliC gene transcription. |
277) ordingly, the performance of MSN-PEG as a gene transfer carrier for GPC3-shRNA gene |
278) ed and that MSN-PEG could also serve as a gene transfer carrier for gene therapy. |
279) that combination therapies using SERCA2a gene transfer with a STAT3 inhibitor could |
280) that facilitate intra- and intercellular gene transfer. |
281) Currently, whether immunoresponsive gene 1/itaconate axis exerts a modulatory |
282) regulatory effect of the immunoresponsive gene 1/itaconate axis has been recently do |
283) te for the deficiency of immunoresponsive gene 1/itaconate axis led to enhanced micr |
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