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Keyword [Reprogramming]
Result: 141 - 160 | Page: 8 of 10
141. The Role And Mechanism Of Lnc RNA Rslnr1 In Regulating Stem Cell Pluripotency And Reprogramming
142. Bioinformatics And Systems Biology Analysis Of Stem Cell Expression Profiles
143. The Mechanism Research Of Nadph Dehydrogenase Regulates The Energy And Fatty Acid Metabolism And Influences The Formation Of Fruiting Body In Filamentous Fungus Podospora Anserina
144. Establishment Of Induced Pluripotent Stem Cell And Its Differentiation Potency To Ectoderm
145. Transient Inhibition Of ATM Protein Improving The Induction Of Mouse IPS Cells
146. Study On The Efficiency Of Nuclear Reprogramming By HTERT-modified Donor Cells
147. Transcriptional Reprogramming Of (Hemi) Cellulase Biosynthesis And Functional Exploration Of Signal Recognition Particle In Trichoderma Reesei
148. Design And Construction Of A Light Inducible Endogenous Gene Transcriptional Activation System For Cell Reprogramming Into Pluripotency
149. Mechanisms Of Forkhead Family Transcription Factors In Mouse Somatic Reprogramming
150. Study On The Role Of Sall4 In Somatic Cell Reprogramming And Hoxd12 In The Pluripotency Of ESCs
151. Functional Study Of Demethylase Kdm1b In Human Dermal Fibroblasts During Reprogramming
152. Direct Conversion Of Human Fibroblasts Into Functional Leydig-like Cells By GATA4,SF-1 And NGFI-B
153. Comparative Analysis Of Gene Regulation Differences Between Different Somatic Cell Reprogramming Technology In Mammalian Based On Single-cell RNA-seq
154. Effects Of ZSCAN4 And TEAD4 On The Acquisition Of Bovine Pluripotent Stem Cells
155. Transcriptional Regulation Analysis In Somatic Induced Pluripotent Stem Cells Based On Bioinformatics Methods
156. Efficient Non-integrating And Growth Factors-free Culture System For Induction And Maintenance Of Human Pluripotent Stem Cells
157. Establishment Of PiPSC And Activation Of Pig Reprogramming Factors By CRISPR
158. Role Of Hub Genes And Branch-chain Amino Acid Metabolism In Breast Cancer Development Based On Bioinformatics Analysis
159. Reprogramming The Endogeneous Type Ⅲ-A Crispr-Cas System For Genome Engineering In Mycobacterium Tuberculosis
160. Mechanism Of Newcastle Disease Virus Induces Mitophagy Promotes Virus Replication
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