scholarly article | Q13442814 |
review article | Q7318358 |
P2093 | author name string | Daniel Segal | |
Revital Bronstein | |||
P2860 | cites work | Evolution acts on enhancer organization to fine-tune gradient threshold readouts | Q21145863 |
Association of erythroid transcription factors: complexes involving the LIM protein RBTN2 and the zinc-finger protein GATA1 | Q24312053 | ||
The LIM-only protein Lmo2 is a bridging molecule assembling an erythroid, DNA-binding complex which includes the TAL1, E47, GATA-1 and Ldb1/NLI proteins | Q24532225 | ||
Ssdp proteins interact with the LIM-domain-binding protein Ldb1 to regulate development | Q24540370 | ||
Chip, a widely expressed chromosomal protein required for segmentation and activity of a remote wing margin enhancer in Drosophila | Q24605887 | ||
MicroRNA 223-dependent expression of LMO2 regulates normal erythropoiesis | Q24649761 | ||
Building developmental gene regulatory networks | Q24650810 | ||
Conservation of the expression and function of apterous orthologs in Drosophila and mammals | Q24652425 | ||
Dissecting the regulatory switches of development: lessons from enhancer evolution in Drosophila | Q24655320 | ||
The complex language of chromatin regulation during transcription | Q28131748 | ||
Ssdp proteins bind to LIM-interacting co-factors and regulate the activity of LIM-homeodomain protein complexes in vivo | Q28184230 | ||
Ubiquitination-dependent cofactor exchange on LIM homeodomain transcription factors | Q28205607 | ||
Ssdp1 regulates head morphogenesis of mouse embryos by activating the Lim1-Ldb1 complex | Q28507397 | ||
An evolving NGF-Hoxd1 signaling pathway mediates development of divergent neural circuits in vertebrates | Q28584964 | ||
Co-factors of LIM domains (Clims/Ldb/Nli) regulate corneal homeostasis and maintenance of hair follicle stem cells | Q28593769 | ||
Mild spherocytosis and altered red cell ion transport in protein 4. 2-null mice | Q28594061 | ||
Lhx2 expression promotes self-renewal of a distinct multipotential hematopoietic progenitor cell in embryonic stem cell-derived embryoid bodies | Q33330319 | ||
Sepsid even-skipped enhancers are functionally conserved in Drosophila despite lack of sequence conservation | Q33347127 | ||
A careful look at binding site reorganization in the even-skipped enhancers of Drosophila and sepsids | Q33388201 | ||
A closer look at the eve stripe 2 enhancers of Drosophila and Themira | Q33388238 | ||
Functional evolution of cis-regulatory modules at a homeotic gene in Drosophila | Q33515253 | ||
The genome-wide dynamics of the binding of Ldb1 complexes during erythroid differentiation | Q33612363 | ||
Delayed differentiation in embryonic stem cells and mesodermal progenitors in the absence of CtBP2. | Q33636904 | ||
Transcriptional Regulation by CHIP/LDB Complexes | Q33668708 | ||
A genetic analysis of pannier, a gene necessary for viability of dorsal tissues and bristle positioning in Drosophila. | Q33967958 | ||
Variation in transcription factor binding among humans | Q34105133 | ||
Sumoylation regulates interaction of FOG1 with C-terminal-binding protein (CTBP) | Q34107383 | ||
Genes of the ecdysone biosynthesis pathway are regulated by the dATAC histone acetyltransferase complex in Drosophila | Q34119741 | ||
SSDP1 gene encodes a protein with a conserved N-terminal FORWARD domain | Q34164286 | ||
Building multifunctionality into a complex containing master regulators of hematopoiesis | Q34377397 | ||
Overexpression Beadex mutations and loss-of-function heldup-a mutations in Drosophila affect the 3' regulatory and coding components, respectively, of the Dlmo gene | Q34605372 | ||
The transcriptional corepressor CtBP: a foe of multiple tumor suppressors | Q35200291 | ||
T (Brachyury) is a direct target of Wnt3a during paraxial mesoderm specification. | Q35210431 | ||
Single-stranded DNA-binding proteins regulate the abundance of LIM domain and LIM domain-binding proteins | Q35741894 | ||
Proteasomal selection of multiprotein complexes recruited by LIM homeodomain transcription factors | Q36002564 | ||
Identification of a TAL1 Target Gene Reveals a Positive Role for the LIM Domain-Binding Protein Ldb1 in Erythroid Gene Expression and Differentiation | Q36138840 | ||
Isolation and characterization of hematopoietic transcription factor complexes by in vivo biotinylation tagging and mass spectrometry. | Q36336987 | ||
Transcriptional adaptor ADA3 of Drosophila melanogaster is required for histone modification, position effect variegation, and transcription | Q36421102 | ||
Lhx2 maintains stem cell character in hair follicles | Q36688765 | ||
Transcriptional regulation by C-terminal binding proteins | Q36750450 | ||
Single-stranded DNA-binding proteins regulate the abundance and function of the LIM-homeodomain transcription factor LHX2 in pituitary cells | Q36812636 | ||
Drosophila LIM-only is a positive regulator of transcription during thoracic bristle development | Q36837038 | ||
Nuclear adaptor Ldb1 regulates a transcriptional program essential for the maintenance of hematopoietic stem cells | Q37155957 | ||
LIM homeobox transcription factors integrate signaling events that control three-dimensional limb patterning and growth. | Q37204843 | ||
Modeling the dynamics of transcriptional gene regulatory networks for animal development. | Q37333145 | ||
Role of ldb1 in adult intestinal homeostasis | Q37420797 | ||
The loss of histone H3 lysine 9 acetylation due to dSAGA-specific dAda2b mutation influences the expression of only a small subset of genes | Q37421105 | ||
Challenges for modeling global gene regulatory networks during development: insights from Drosophila. | Q37623991 | ||
Deciphering the genome's regulatory code: the many languages of DNA. | Q37731441 | ||
Inducible gene expression: diverse regulatory mechanisms | Q37737546 | ||
Developmental regulation of transcription initiation: more than just changing the actors | Q37769668 | ||
Emerging properties of animal gene regulatory networks | Q37821745 | ||
Beadex encodes an LMO protein that regulates Apterous LIM-homeodomain activity in Drosophila wing development: a model for LMO oncogene function | Q38333166 | ||
Human erythrocyte membrane protein band 4.2 (pallidin). | Q40900449 | ||
CtBP contributes quantitatively to Knirps repression activity in an NAD binding-dependent manner | Q41296492 | ||
C-terminal-binding protein directly activates and represses Wnt transcriptional targets in Drosophila | Q41445240 | ||
The three Rs of transcription: recruit, retain, and recycle | Q41533815 | ||
Chip and apterous physically interact to form a functional complex during Drosophila development. | Q41690638 | ||
Hematologically important mutations: band 3 and protein 4.2 variants in hereditary spherocytosis | Q41691571 | ||
The relative expression amounts of apterous and its co-factor dLdb/Chip are critical for dorso-ventral compartmentalization in the Drosophila wing | Q42661489 | ||
Studying the evolution of promoter sequences: a waiting time problem | Q42766737 | ||
Protein stability and transcription factor complex assembly determined by the SCL-LMO2 interaction | Q42824507 | ||
Two families of Xenopus tropicalis skeletal genes display well‐conserved expression patterns with mammals in spite of their highly divergent regulatory regions | Q46295312 | ||
Drosophila C-terminal binding protein, dCtBP is required for sensory organ prepattern and sharpens proneural transcriptional activity of the GATA factor Pnr. | Q46387395 | ||
Drosophila dLMO-PA isoform acts as an early activator of achaete/scute proneural expression | Q46711808 | ||
The Lim-only protein LMO2 acts as a positive regulator of erythroid differentiation | Q46928469 | ||
Induction of erythrocyte protein 4.2 gene expression during differentiation of murine erythroleukemia cells | Q47949948 | ||
apterous, a gene required for imaginal disc development in Drosophila encodes a member of the LIM family of developmental regulatory proteins | Q48176058 | ||
Interactions between chip and the achaete/scute-daughterless heterodimers are required for pannier-driven proneural patterning. | Q51603879 | ||
Regulation of LIM homeodomain activity in vivo: a tetramer of dLDB and apterous confers activity and capacity for regulation by dLMO. | Q51604813 | ||
Expression of enhancers is altered in Drosophila melanogaster hybrids. | Q52606090 | ||
Membrane cation and anion transport activities in erythrocytes of hereditary spherocytosis: effects of different membrane protein defects | Q73585701 | ||
P433 | issue | 3 | |
P921 | main subject | cell differentiation | Q210861 |
P304 | page(s) | 200-205 | |
P577 | publication date | 2011-07-01 | |
P1433 | published in | Fly | Q15756595 |
P1476 | title | Modularity of CHIP/LDB transcription complexes regulates cell differentiation | |
P478 | volume | 5 |
Q36064635 | An ancient Pygo-dependent Wnt enhanceosome integrated by Chip/LDB-SSDP. |
Q61796315 | Bcl9 and Pygo synergise downstream of Apc to effect intestinal neoplasia in FAP mouse models |
Q38712200 | Chip/Ldb1 interacts with Tailup/islet1 to regulate cardiac gene expression in Drosophila |
Q34364759 | Requirement for ssbp2 in hematopoietic stem cell maintenance and stress response |
Q90389095 | Rotational symmetry of the structured Chip/LDB-SSDP core module of the Wnt enhanceosome |
Q44862075 | SEUSS Integrates Gibberellin Signaling with Transcriptional Inputs from the SHR-SCR-SCL3 Module to Regulate Middle Cortex Formation in the Arabidopsis Root |
Q99412546 | SEUSS integrates transcriptional and epigenetic control of root stem cell organizer specification |