about
Identification of a small molecule that turns ON the pluripotency gene circuitry in human fibroblasts.Advancing small-molecule-based chemical biology with next-generation sequencing technologies.A Synthetic Transcriptional Activator of Genes Associated with the Retina in Human Dermal Fibroblasts.A Synthetic DNA-Binding Domain Guides Distinct Chromatin-Modifying Small Molecules to Activate an Identical Gene Network.Clinical grade iPS cells: need for versatile small molecules and optimal cell sources.Cellular reprogramming for pancreatic β-cell regeneration: clinical potential of small molecule control.Distinct DNA-based epigenetic switches trigger transcriptional activation of silent genes in human dermal fibroblasts.Design of a new fluorescent probe: pyrrole/imidazole hairpin polyamides with pyrene conjugation at their γ-turn.Targeted suppression of EVI1 oncogene expression by sequence-specific pyrrole-imidazole polyamide.A Multi-target Small Molecule for Targeted Transcriptional Activation of Therapeutically Significant Nervous System Genes.A synthetic small molecule for targeted transcriptional activation of germ cell genes in a human somatic cell.Integrating epigenetic modulators into NanoScript for enhanced chondrogenesis of stem cells.A synthetic DNA-binding inhibitor of SOX2 guides human induced pluripotent stem cells to differentiate into mesoderm.Creation of a Synthetic Ligand for Mitochondrial DNA Sequence Recognition and Promoter-Specific Transcription Suppression.Antiproliferative and apoptotic activities of sequence-specific histone acetyltransferase inhibitors.Chemical modification of a synthetic small molecule boosts its biological efficacy against pluripotency genes in mouse fibroblasts.Next-generation sequencing studies guide the design of pyrrole-imidazole polyamides with improved binding specificity by the addition of β-alanineBiomimetic Artificial Epigenetic Code for Targeted Acetylation of HistonesNucleosome Assembly Alters the Accessibility of the Antitumor Agent Duocarmycin B2 to Duplex DNAAccurate Prediction of COVID-19 using Chest X-Ray Images through Deep Feature Learning model with SMOTE and Machine Learning Classifiers
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description
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Ganesh N Pandian
@ast
Ganesh N Pandian
@en
Ganesh N Pandian
@es
Ganesh N Pandian
@nl
type
label
Ganesh N Pandian
@ast
Ganesh N Pandian
@en
Ganesh N Pandian
@es
Ganesh N Pandian
@nl
prefLabel
Ganesh N Pandian
@ast
Ganesh N Pandian
@en
Ganesh N Pandian
@es
Ganesh N Pandian
@nl
P108
P106
P31
P496
0000-0002-5531-1995