Thomas Montavon researcher
Montavon, Thomas
VIAF ID: 1360155042809072402193 (Personal)
Permalink: http://viaf.org/viaf/1360155042809072402193
Preferred Forms
- 100 1 _ ‡a Montavon, Thomas
-
- 100 0 _ ‡a Thomas Montavon ‡c researcher
4xx's: Alternate Name Forms (2)
5xx's: Related Names (1)
- 510 2 _ ‡a Max-Planck Institute of Immunobiology and Epigenetics ‡4 affi ‡4 https://d-nb.info/standards/elementset/gnd#affiliation ‡e Affiliation
Works
Title | Sources |
---|---|
Characterization of DCL4 missense alleles provides insights into its ability to process distinct classes of dsRNA substrates. | |
Chromatin organization and global regulation of Hox gene clusters | |
Complete loss of H3K9 methylation dissolves mouse heterochromatin organization | |
Convergent evolution of complex regulatory landscapes and pleiotropy at Hox loci. | |
Functional analysis of CTCF during mammalian limb development | |
H3K9me3-heterochromatin loss at protein-coding genes enables developmental lineage specification | |
Impact of copy number variations (CNVs) on long-range gene regulation at the HoxD locus | |
Landscapes and archipelagos: spatial organization of gene regulation in vertebrates | |
Mechanisms of "Hoxd" genes collinearity in developing digits and external genitalia | |
Modeling Hox gene regulation in digits: reverse collinearity and the molecular origin of thumbness | |
Multiple enhancers regulate Hoxd genes and the Hotdog LncRNA during cecum budding | |
New DRB complexes for new DRB functions in plants. | |
A regulatory archipelago controls Hox genes transcription in digits | |
RNA silencing is resistant to low-temperature in grapevine | |
A specific dsRNA-binding protein complex selectively sequesters endogenous inverted-repeat siRNA precursors and inhibits their processing | |
A switch between topological domains underlies HoxD genes collinearity in mouse limbs | |
A t(2;8) balanced translocation with breakpoints near the human HOXD complex causes mesomelic dysplasia and vertebral defects. | |
Transgene- and locus-dependent imprinting reveals allele-specific chromosome conformations |