| scholarly article | Q13442814 |
| P6179 | Dimensions Publication ID | 1052171171 |
| P356 | DOI | 10.1038/346858A0 |
| P698 | PubMed publication ID | 2392153 |
| P50 | author | Jane E Johnson | Q38643106 |
| P2093 | author name string | Anderson DJ | |
| Birren SJ | |||
| P2860 | cites work | MyoD1: a nuclear phosphoprotein requiring a Myc homology region to convert fibroblasts to myoblasts | Q24297101 |
| A new DNA binding and dimerization motif in immunoglobulin enhancer binding, daughterless, MyoD, and myc proteins | Q24299387 | ||
| Interactions between heterologous helix-loop-helix proteins generate complexes that bind specifically to a common DNA sequence | Q24300878 | ||
| Establishment of a noradrenergic clonal line of rat adrenal pheochromocytoma cells which respond to nerve growth factor | Q24561804 | ||
| lyl-1, a novel gene altered by chromosomal translocation in T cell leukemia, codes for a protein with a helix-loop-helix DNA binding motif | Q28115408 | ||
| Expression of a single transfected cDNA converts fibroblasts to myoblasts | Q29547764 | ||
| Molecular analysis of the asense gene, a member of the achaete-scute complex of Drosophila melanogaster, and its novel role in optic lobe development. | Q34433098 | ||
| The MyoD DNA binding domain contains a recognition code for muscle-specific gene activation | Q38341599 | ||
| Genesis of the Drosophila peripheral nervous system | Q38727731 | ||
| The neural crest cell lineage problem: neuropoiesis? | Q38764221 | ||
| The Drosophila hairy protein acts in both segmentation and bristle patterning and shows homology to N-myc | Q40819640 | ||
| The achaete-scute gene complex of Drosophila melanogaster comprises four homologous genes. | Q41107182 | ||
| A v-myc-immortalized sympathoadrenal progenitor cell line in which neuronal differentiation is initiated by FGF but not NGF. | Q41745821 | ||
| Cell lineage analysis reveals multipotency of some avian neural crest cells | Q46310772 | ||
| The achaete-scute gene complex of D. melanogaster: conserved domains in a subset of genes required for neurogenesis and their homology to myc. | Q48341121 | ||
| A bipotential neuroendocrine precursor whose choice of cell fate is determined by NGF and glucocorticoids | Q52259348 | ||
| The murine and Drosophila homeobox gene complexes have common features of organization and expression | Q52453645 | ||
| The expression of three members of the achaete-scute gene complex correlates with neuroblast segregation in Drosophila | Q52463546 | ||
| A cell type-preferred silencer element that controls the neural-specific expression of the SCG10 gene | Q68747351 | ||
| Clonal analysis of quail neural crest cells: they are pluripotent and differentiate in vitro in the absence of noncrest cells | Q71398017 | ||
| P433 | issue | 6287 | |
| P407 | language of work or name | English | Q1860 |
| P304 | page(s) | 858-861 | |
| P577 | publication date | 1990-08-01 | |
| P1433 | published in | Nature | Q180445 |
| P1476 | title | Two rat homologues of Drosophila achaete-scute specifically expressed in neuronal precursors | |
| P478 | volume | 346 |
| Q37399044 | 5'UTR of the neurogenic bHLH Nex1/MATH-2/NeuroD6 gene is regulated by two distinct promoters through CRE and C/EBP binding sites |
| Q59708548 | 7 Neural Crest Diversification |
| Q28256840 | A 2.5-Mb Transcript Map of a Tumor-Suppressing Subchromosomal Transferable Fragment from 11p15.5, and Isolation and Sequence Analysis of Three Novel Genes |
| Q42831021 | A Role for Sp and Helix-Loop-Helix Transcription Factors in the Regulation of the Human Id4 Gene Promoter Activity |
| Q32052834 | A Splice Variant of E2–2 Basic Helix-Loop-Helix Protein Represses the Brain-specific Fibroblast Growth Factor 1 Promoter through the Binding to an Imperfect E-box |
| Q48083956 | A chicken achaete-scute homolog (CASH-1) is expressed in a temporally and spatially discrete manner in the developing nervous system |
| Q71793991 | A chromatin model of IGF2/H19 imprinting |
| Q24302014 | A human Id-like helix-loop-helix protein expressed during early development |
| Q48074513 | A mammalian helix-loop-helix factor structurally related to the product of Drosophila proneural gene atonal is a positive transcriptional regulator expressed in the developing nervous system |
| Q55469002 | A novel MASH1 enhancer with N-myc and CREB-binding sites is active in neuroblastoma. |
| Q30450213 | A novel basic helix-loop-helix protein is expressed in muscle attachment sites of the Drosophila epidermis |
| Q36597401 | A novel role for Ascl1 in the regulation of mesendoderm formation via HDAC-dependent antagonism of VegT. |
| Q36658523 | A rat gene with sequence homology to the Drosophila gene hairy is rapidly induced by growth factors known to influence neuronal differentiation |
| Q28579332 | A role for the helix-loop-helix protein Id2 in the control of oligodendrocyte development |
| Q36799176 | A splice variant of the ITF-2 transcript encodes a transcription factor that inhibits MyoD activity |
| Q48075660 | A transcription factor controlling development of peripheral sense organs in C. elegans |
| Q42798981 | A zebrafish Id homologue and its pattern of expression during embryogenesis |
| Q36694542 | ADD1: a novel helix-loop-helix transcription factor associated with adipocyte determination and differentiation |
| Q34383742 | ASCL1 is a lineage oncogene providing therapeutic targets for high-grade neuroendocrine lung cancers |
| Q34506173 | Achaete-scute like 2 (ascl2) is a target of Wnt signalling and is upregulated in intestinal neoplasia |
| Q24297017 | Activation of the phosphatidylinositol 3-kinase/Akt signaling pathway by retinoic acid is required for neural differentiation of SH-SY5Y human neuroblastoma cells |
| Q24336262 | Alternative neural crest cell fates are instructively promoted by TGFbeta superfamily members |
| Q28236555 | An achaete-scute homologue essential for neuroendocrine differentiation in the lung |
| Q33332420 | An inhibitory domain of E12 transcription factor prevents DNA binding in E12 homodimers but not in E12 heterodimers |
| Q38292119 | An upstream stimulatory factor (USF) binding motif is critical for rat preprotachykinin-A promoter activity in PC12 cells |
| Q33322615 | Analysis of four achaete-scute homologs in Bombyx mori reveals new viewpoints of the evolution and functions of this gene family |
| Q33869483 | Ascl1 (Mash1) defines cells with long-term neurogenic potential in subgranular and subventricular zones in adult mouse brain |
| Q41340115 | Ascl1 and Neurog2 form novel complexes and regulate Delta-like3 (Dll3) expression in the neural tube |
| Q50481368 | Ascl1 represses the mesendoderm induction in Xenopus |
| Q39085976 | Ascl2 inhibits myogenesis by antagonizing the transcriptional activity of myogenic regulatory factors. |
| Q36557143 | BETA3, a novel helix-loop-helix protein, can act as a negative regulator of BETA2 and MyoD-responsive genes |
| Q73692267 | Basic Helix-Loop-Helix Protein Sequences Determining Differential Inhibition by Calmodulin and S-100 Proteins |
| Q41353305 | Basic helix-loop-helix genes in neural development |
| Q57911333 | Bone Morphogenetic Proteins Are Required In Vivo for the Generation of Sympathetic Neurons |
| Q55191462 | Bufalin inhibits gastric cancer invasion and metastasis by down-regulating Wnt/ASCL2 expression. |
| Q28507663 | Capsulin: a novel bHLH transcription factor expressed in epicardial progenitors and mesenchyme of visceral organs |
| Q41045316 | Cell heterogeneity upon myogenic differentiation: down-regulation of MyoD and Myf-5 generates ‘reserve cells’ |
| Q45071634 | Cell types, lineage, and architecture of the germinal zone in the adult dentate gyrus |
| Q36678585 | Cell-specific helix-loop-helix factor required for pituitary expression of the pro-opiomelanocortin gene |
| Q28201761 | Cell-type non-selective transcription of mouse and human genes encoding neural-restrictive silencer factor |
| Q41549759 | Cellular and molecular biology of neural crest cell lineage determination |
| Q42481739 | Characterisation of a functional E box motif in the proximal rat preprotachykinin-A promoter |
| Q30658106 | Characterization and tissue expression of a novel human gene npdc1. |
| Q33326338 | Characterization of the proneural gene regulatory network during mouse telencephalon development |
| Q72332189 | Class III beta-tubulin in human retinal pigment epithelial cells in culture and in epiretinal membranes |
| Q36772826 | Conservation of the Drosophila lateral inhibition pathway in human lung cancer: a hairy-related protein (HES-1) directly represses achaete-scute homolog-1 expression |
| Q42034689 | Conversion of ectoderm into a neural fate by ATH-3, a vertebrate basic helix-loop-helix gene homologous to Drosophila proneural gene atonal |
| Q28504632 | Cooperative transcriptional activation by the neurogenic basic helix-loop-helix protein MASH1 and members of the myocyte enhancer factor-2 (MEF2) family |
| Q39452450 | Cyclic AMP signaling functions as a bimodal switch in sympathoadrenal cell development in cultured primary neural crest cells |
| Q36964316 | DNA binding and transcriptional regulatory activity of mammalian achaete-scute homologous (MASH) proteins revealed by interaction with a muscle-specific enhancer |
| Q33666401 | Deconstructing cell determination: proneural genes and neuronal identity |
| Q38527077 | Decreased proliferation of adult hippocampal stem cells during cocaine withdrawal: possible role of the cell fate regulator FADD. |
| Q38313156 | Design of degenerate oligonucleotide primers for cloning of G-protein alpha subunits. |
| Q36621761 | Developmental origins of astrocyte heterogeneity: the final frontier of CNS development |
| Q41064496 | Developmental pattern of expression of NPDC-1 and its interaction with E2F-1 suggest a role in the control of proliferation and differentiation of neural cells |
| Q39373830 | Differences of molecular expression mechanisms among neural cell adhesion molecule 1, synaptophysin, and chromogranin A in lung cancer cells |
| Q48595088 | Differential Expression of NeuroD in Primary Cultures of Cerebral Cortical Neurons |
| Q28245175 | Differential Interactions of Id Proteins with Basic-Helix-Loop-Helix Transcription Factors |
| Q43615993 | Differential expression of sympathoadrenal lineage-determining genes and phenotypic markers in cultured primary neural crest cells |
| Q43742964 | Differential regulation of basic helix-loop-helix mRNAs in the dentate gyrus following status epilepticus |
| Q47778575 | Differentiation of chromaffin progenitor cells to dopaminergic neurons |
| Q71379945 | Differentiation of medullary thyroid cancer by C-Raf-1 silences expression of the neural transcription factor human achaete-scute homolog-1 |
| Q34002389 | Direct transcriptional induction of Gadd45gamma by Ascl1 during neuronal differentiation |
| Q28287765 | Disruption of imprinting caused by deletion of the H19 gene region in mice |
| Q52166660 | Distinct regulatory elements direct delta1 expression in the nervous system and paraxial mesoderm of transgenic mice |
| Q40790961 | Downregulation of hASH1 is associated with the retinoic acid-induced differentiation of human neuroblastoma cell lines |
| Q28253909 | Dual control of neurogenesis by PC3 through cell cycle inhibition and induction of Math1 |
| Q51124542 | Early postmitotic neurons transiently express TOAD-64, a neural specific protein |
| Q44278554 | EphA family gene expression in the developing mouse neocortex: regional patterns reveal intrinsic programs and extrinsic influence |
| Q28508129 | Essential role of Mash-2 in extraembryonic development |
| Q41135593 | Evidence that enteric neurons may derive from the sympathoadrenal lineage |
| Q57042317 | Evidence that helix-loop-helix proteins collaborate with retinoblastoma tumor suppressor protein to regulate cortical neurogenesis |
| Q50674050 | Expression of GAD67 and Dlx5 in the taste buds of mice genetically lacking Mash1. |
| Q42468323 | Expression of Mash1 in basal cells of rat circumvallate taste buds is dependent upon gustatory innervation |
| Q28506854 | Expression of Neurogenin 1 in Mouse Embryonic Stem Cells Directs the Differentiation of Neuronal Precursors and Identifies Unique Patterns of Down‐stream Gene Expression |
| Q48046677 | Expression of a quail bHLH transcription factor is associated with adrenergic development in trunk neural crest cultures |
| Q52171483 | Expression of helix-loop-helix type negative regulators of differentiation during limb regeneration in urodeles and anurans |
| Q56385030 | Expression of the Epithelial Marker E-Cadherin by Thyroid C Cells and Their Precursors During Murine Development |
| Q28513476 | Expression of the helix-loop-helix gene Id3 during murine embryonic development |
| Q42060317 | Expression pattern of a butterfly achaete-scute homolog reveals the homology of butterfly wing scales and insect sensory bristles |
| Q36311986 | Expression pattern of chick achaete-scute homologue (CASH) associated with mid-embryogenesis (stages 23 to 28). |
| Q28590479 | FIGα, a germ cell specific transcription factor involved in the coordinate expression of the zona pellucida genes |
| Q42523328 | FRS2 alpha 2F/2F mice lack carotid body and exhibit abnormalities of the superior cervical sympathetic ganglion and carotid sinus nerve. |
| Q37897490 | Gastrointestinal stem cells in self-renewal and cancer |
| Q52257973 | Gene Expression of MASH-l, MATH-l, neuroD and NSCL-2, Basic Helix-Loop-Helix Proteins, during Neural Differentiation in P19 Embryonal Carcinoma Cells |
| Q26269984 | Generation of induced neuronal cells by the single reprogramming factor ASCL1 |
| Q39208928 | Genetic fate mapping reveals that the caudal ganglionic eminence produces a large and diverse population of superficial cortical interneurons |
| Q26826915 | Genomic profiling of small-cell lung cancer: the era of targeted therapies |
| Q52197896 | Grg3, a murine Groucho-related gene, is expressed in the developing nervous system and in mesenchyme-induced epithelial structures |
| Q22254644 | HASH-1 and E2-2 are expressed in human neuroblastoma cells and form a functional complex |
| Q24564020 | HEN1 and HEN2: a subgroup of basic helix-loop-helix genes that are coexpressed in a human neuroblastoma |
| Q36646393 | HEN1 encodes a 20-kilodalton phosphoprotein that binds an extended E-box motif as a homodimer |
| Q24306737 | Hash4, a novel human achaete-scute homologue found in fetal skin |
| Q41655734 | Helix-loop-helix factors in growth and differentiation of the vertebrate nervous system |
| Q71816204 | Helix‐loop‐helix transcription factors regulate Id2 gene promoter activity |
| Q29347085 | High-intensity training induces EIB in rats through neuron transdifferentiation of adrenal medulla chromaffin cells |
| Q40795402 | Human medulloblastoma cell line DEV is a potent tool to screen for factors influencing differentiation of neural stem cells |
| Q41315831 | Hxt encodes a basic helix-loop-helix transcription factor that regulates trophoblast cell development |
| Q35787823 | Id-1 and Id-2 are overexpressed in pancreatic cancer and in dysplastic lesions in chronic pancreatitis |
| Q28567250 | Id1, Id2, and Id3 gene expression in neural cells during development |
| Q30628217 | Identification of DERMO-1 as a member of helix-loop-helix type transcription factors expressed in osteoblastic cells |
| Q24562643 | Identification of a human achaete-scute homolog highly expressed in neuroendocrine tumors |
| Q28592141 | Identification of a novel family of oligodendrocyte lineage-specific basic helix-loop-helix transcription factors |
| Q48041495 | Identification of an achaete–scute homolog, Fash1, from Fugu rubripes |
| Q37245857 | Identification of diverse nerve growth factor-regulated genes by serial analysis of gene expression (SAGE) profiling. |
| Q28564456 | Identification of neurogenin, a vertebrate neuronal determination gene |
| Q39543368 | Identification of the C-terminal activation domain of the NeuroD-related factor (NDRF). |
| Q42622135 | Identification of the novel developmentally regulated gene, Bdm2, which is highly expressed in fetal rat brain |
| Q79276040 | Idiopathic congenital central hypoventilation syndrome: Analysis of genes pertinent to early autonomic nervous system embryologic development and identification of mutations in PHOX2b |
| Q39447043 | Impaired immune responses and B-cell proliferation in mice lacking the Id3 gene |
| Q40688529 | Induction of neural differentiation by electrically stimulated gene expression of NeuroD2. |
| Q39522159 | Insights into the achaete-scute homolog-1 gene (hASH1) in normal and neoplastic human lung |
| Q40021052 | Interplay of the E box, the cyclic AMP response element, and HTF4/HEB in transcriptional regulation of the neurospecific, neurotrophin-inducible vgf gene |
| Q52368938 | Intrinsic DNA binding properties demonstrated for lineage-specifying basic helix-loop-helix transcription factors |
| Q52087437 | Involvement of Hydra achaete-scute gene CnASH in the differentiation pathway of sensory neurons in the tentacles |
| Q28575918 | Involvement of Mash1 in EGF-Mediated Regulation of Differentiation in the Vertebrate Retina |
| Q28576277 | Isolation and characterization of mammalian homologs of the Drosophila gene glial cells missing |
| Q40881051 | Isolation, characterization, and differentiation of progenitor cells from human adult adrenal medulla |
| Q52195352 | Lethal of scute requires overexpression of daughterless to elicit ectopic neuronal development during embryogenesis in Drosophila |
| Q33745329 | Lineages and transcription factors in the specification of vertebrate primary sensory neurons |
| Q48907350 | Localized XId3 mRNA activation in Xenopus embryos by cytoplasmic polyadenylation |
| Q41054325 | MASH1 activates expression of the paired homeodomain transcription factor Phox2a, and couples pan-neuronal and subtype-specific components of autonomic neuronal identity |
| Q28241846 | MASH1 maintains competence for BMP2-induced neuronal differentiation in post-migratory neural crest cells |
| Q27312623 | MASH1/Ascl1a leads to GAP43 expression and axon regeneration in the adult CNS |
| Q48074844 | MATH-2, a mammalian helix-loop-helix factor structurally related to the product of Drosophila proneural gene atonal, is specifically expressed in the nervous system |
| Q28578103 | Mammalian achaete scute homolog 2 is expressed in the adult sciatic nerve and regulates the expression of Krox24, Mob-1, CXCR4, and p57kip2 in Schwann cells |
| Q71017041 | Mammalian hairy and Enhancer of split homolog 1 regulates differentiation of retinal neurons and is essential for eye morphogenesis |
| Q28507916 | Mammalian numb-interacting protein 1/dual oxidase maturation factor 1 directs neuronal fate in stem cells |
| Q40894294 | Mash1 and neurogenin1 expression patterns define complementary domains of neuroepithelium in the developing CNS and are correlated with regions expressing notch ligands |
| Q28508194 | Mash1 is required for glomus cell formation in the mouse carotid body |
| Q51888703 | Mash1 is required for the differentiation of AADC-positive type III cells in mouse taste buds |
| Q52001911 | Mash1 regulates the development of C cells in mouse thyroid glands |
| Q35992974 | Mechanisms and perspectives on differentiation of autonomic neurons |
| Q24603636 | Mediation of NGF signaling by post-translational inhibition of HES-1, a basic helix–loop–helix repressor of neuronal differentiation |
| Q34160557 | Meso1, a basic-helix-loop-helix protein involved in mammalian presomitic mesoderm development |
| Q47834092 | Microarray analysis of striatal embryonic stem cells induced to differentiate by ensheathing cell conditioned media |
| Q37996932 | Modulation of Dopaminergic Neuronal Differentiation from Sympathoadrenal Progenitors |
| Q46888897 | Molecular analysis of gene expression in the developing pontocerebellar projection system |
| Q28566005 | Molecular characterization of HES-2, a mammalian helix-loop-helix factor structurally related to Drosophila hairy and Enhancer of split |
| Q46027984 | Molecular cloning and characterization of homologs of achaete-scute and hairy-enhancer of split in the olfactory organ of the spiny lobster Panulirus argus. |
| Q34407198 | Molecular cloning of a human neuroD from a neuroblastoma cell line specifically expressed in the fetal brain and adult cerebellum |
| Q36000523 | Molecular mechanisms for morphogenesis of the central nervous system in mammals |
| Q40712758 | Molecular regulation of neural crest development |
| Q37070156 | Myoblasts, myosins, MyoDs, and the diversification of muscle fibers |
| Q28213526 | NGF-dependent and tissue-specific transcription of vgf is regulated by a CREB-p300 and bHLH factor interaction |
| Q31965111 | Neural crest stem cells undergo cell-intrinsic developmental changes in sensitivity to instructive differentiation signals |
| Q40953634 | Neural development. Spinning skin into neurons |
| Q33414415 | Neural differentiation potential of human bone marrow-derived mesenchymal stromal cells: misleading marker gene expression |
| Q48933118 | Neural induction in embryos |
| Q36884292 | NeuroM, a neural helix-loop-helix transcription factor, defines a new transition stage in neurogenesis |
| Q43293638 | Neuroblast differentiation during development and in neuroblastoma requires KIF1Bβ-mediated transport of TRKA. |
| Q39812863 | Neuroendocrine cancer-specific up-regulating mechanism of insulin-like growth factor binding protein-2 in small cell lung cancer. |
| Q40675177 | Neurogenesis in Xenopus: a molecular genetic perspective |
| Q35200638 | Neurogenin1 and neurogenin2 control two distinct waves of neurogenesis in developing dorsal root ganglia |
| Q44944055 | Neurogenin1 is sufficient to induce neuronal differentiation of embryonal carcinoma P19 cells in the absence of retinoic acid |
| Q68638614 | New nucleotide sequence data on the EMBL file server |
| Q55289428 | Newt cells secrete extracellular vesicles with therapeutic bioactivity in mammalian cardiomyocytes. |
| Q27012660 | Notch signaling and proneural genes work together to control the neural building blocks for the initial scaffold in the hypothalamus |
| Q28512382 | Notch-associated gene expression in embryonic and adult taste papillae and taste buds suggests a role in taste cell lineage decisions |
| Q41051265 | Oct-1 Binds Promoter Elements Required for Transcription of the GnRH Gene |
| Q35737574 | Old and new functions of proneural factors revealed by the genome-wide characterization of their transcriptional targets. |
| Q48050048 | Overexpression of a zebrafish homologue of the Drosophila neurogenic gene Delta perturbs differentiation of primary neurons and somite development |
| Q34684061 | P/CAF-mediated acetylation regulates the function of the basic helix-loop-helix transcription factor TAL1/SCL |
| Q41049226 | POU domain genes are differentially expressed in the early stages after lineage commitment of the PNS-derived stem cell line, RT4-AC |
| Q52174393 | Parental origin-specific expression of Mash2 is established at the time of implantation with its imprinting mechanism highly resistant to genome-wide demethylation |
| Q40791534 | Persistent expression of helix-loop-helix factor HES-1 prevents mammalian neural differentiation in the central nervous system. |
| Q48389896 | Phosphorylation and spatiotemporal distribution of KW8 (NDRF/NeuroD2), a NeuroD family basic helix–loop–helix protein |
| Q45247405 | Phylotypic expression of the bHLH genes Neurogenin2, Neurod, and Mash1 in the mouse embryonic forebrain |
| Q28507235 | Pod-1/Capsulin shows a sex- and stage-dependent expression pattern in the mouse gonad development and represses expression of Ad4BP/SF-1 |
| Q43968731 | Posttranslational mechanisms control the timing of bHLH function and regulate retinal cell fate |
| Q41120021 | Predominant expression of Brn-2 in the postmitotic neurons of the developing mouse neocortex |
| Q42588057 | Profile of David J. Anderson. Interview by Kaspar D. Mossman |
| Q41631650 | Promoter elements of the rat choline acetyltransferase gene allowing nerve growth factor inducibility in transfected primary cultured cells |
| Q24291971 | Proprotein convertase PACE4 is down-regulated by the basic helix‒loop‒helix transcription factor hASH-1 and MASH-1 |
| Q30476196 | RNA interference by expression of short-interfering RNAs and hairpin RNAs in mammalian cells |
| Q37938761 | Reactive oxygen species and the neuronal fate |
| Q24337900 | Regional expression of the homeobox gene Nkx-2.2 in the developing mammalian forebrain |
| Q28570887 | Regulation of Id1 and its association with basic helix-loop-helix proteins during nerve growth factor-induced differentiation of PC12 cells |
| Q36983419 | Regulation of motor neuron specification by phosphorylation of neurogenin 2 |
| Q73688160 | Regulation of oligodendrocyte development |
| Q41103210 | Regulation of vertebrate neural cell fate by transcription factors |
| Q28578331 | Relax promotes ectopic neuronal differentiation in Xenopus embryos |
| Q28564866 | Relax, a novel rat bHLH transcriptional regulator transiently expressed in the ventricular proliferating zone of the developing central nervous system |
| Q52190580 | Requirement of the MASH-1 transcription factor for neuroendocrine differentiation of thyroid C cells |
| Q41065683 | Retinoblastoma gene in mouse neural development |
| Q28580729 | Retinoic acid influences the expression of the neuronal regulatory genes Mash-1 and c-ret in the developing rat heart |
| Q45988206 | Ribosome-inactivating proteins (RIPs) of wild Oregon cucumber (Marah oreganus). |
| Q41065669 | Role of environmental signals and transcriptional regulators in neural crest development |
| Q34445438 | SHARPs: MammalianEnhancer-of-Split- andHairy-Related Proteins Coupled to Neuronal Stimulation |
| Q38328529 | Sequences that direct rat tyrosine hydroxylase gene expression |
| Q38207506 | Signaling molecules and transcription factors involved in the development of the sympathetic nervous system, with special emphasis on the superior cervical ganglion |
| Q41650135 | Specification of neurotransmitter identity by Phox2 proteins in neural crest stem cells |
| Q34317297 | Structure and promoter analysis of the gene encoding the mouse helix-loop-helix factor HES-5. Identification of the neural precursor cell-specific promoter element |
| Q39716313 | Substitution of basic amino acids in the basic region stabilizes DNA binding by E12 homodimers |
| Q52104347 | Synchronization of neurogenesis and motor neuron specification by direct coupling of bHLH and homeodomain transcription factors |
| Q37593943 | Systematic analysis of the achaete-scute complex-like gene signature in clinical cancer patients |
| Q24602693 | TFEC, a basic helix-loop-helix protein, forms heterodimers with TFE3 and inhibits TFE3-dependent transcription activation |
| Q28594301 | Targeted deletion of numb and numblike in sensory neurons reveals their essential functions in axon arborization |
| Q34645410 | The Drosophila single-minded gene encodes a helix-loop-helix protein that acts as a master regulator of CNS midline development |
| Q50137398 | The Epithelial Sodium Channel (αENaC) Is a Downstream Therapeutic Target of ASCL1 in Pulmonary Neuroendocrine Tumors |
| Q24291414 | The Human Achaete Scute Homolog 2 gene contains two promotors, generating overlapping transcripts and encoding two proteins with different nuclear localization |
| Q40387425 | The Id4 HLH protein and the timing of oligodendrocyte differentiation |
| Q41566559 | The Transition from Proliferation to Differentiation in Nerve Cells: What Can We Learn from Muscle? |
| Q28592342 | The Transition to Endoreduplication in Trophoblast Giant Cells Is Regulated by the mSNA Zinc Finger Transcription Factor |
| Q71527273 | The achaete-scute complex proneural genes contribute to neural precursor specification in the Drosophila CNS |
| Q51083601 | The bHLH gene hes1 as a repressor of the neuronal commitment of CNS stem cells. |
| Q46021705 | The bHLH transcription factors OLIG2 and OLIG1 couple neuronal and glial subtype specification. |
| Q24533171 | The basic helix-loop-helix transcription factor Mist1 functions as a transcriptional repressor of MyoD |
| Q40365648 | The cAMP pathway regulates both transcription and activity of the paired homeobox transcription factor Phox2a required for development of neural crest-derived and central nervous system-derived catecholaminergic neurons |
| Q34454247 | The chromaffin cell and its development |
| Q36664576 | The delta-crystallin enhancer-binding protein delta EF1 is a repressor of E2-box-mediated gene activation |
| Q41168862 | The development of the noradrenergic transmitter phenotype in postganglionic sympathetic neurons |
| Q27006931 | The emerging roles of ribosome biogenesis in craniofacial development |
| Q52207518 | The expression of tyrosine hydroxylase and the transcription factors cPhox-2 and Cash-1: evidence for distinct inductive steps in the differentiation of chick sympathetic precursor cells |
| Q34808300 | The expression pattern of Id4, a novel dominant negative helix-loop-helix protein, is distinct from Id1, Id2 and Id3 |
| Q28505510 | The homeobox gene Phox2b is essential for the development of autonomic neural crest derivatives |
| Q34428055 | The human Achaete-Scute homologue 2 (ASCL2,HASH2) maps to chromosome 11p15.5, close to IGF2 and is expressed in extravillus trophoblasts. |
| Q31916195 | The leukemic oncogene tal-2 is expressed in the developing mouse brain |
| Q36161198 | The neuron-restrictive silencer element: a dual enhancer/silencer crucial for patterned expression of a nicotinic receptor gene in the brain |
| Q24562101 | The p48 DNA-binding subunit of transcription factor PTF1 is a new exocrine pancreas-specific basic helix-loop-helix protein |
| Q37284688 | The placental imprintome and imprinted gene function in the trophoblast glycogen cell lineage |
| Q34119195 | The proneural genes NEUROD1 and NEUROD2 are expressed during human trophoblast invasion |
| Q40964411 | The regulation of neuron-specific gene expression in the mammalian nervous system. |
| Q33782802 | The role of hypoxia and neurogenic genes (Mash-1 and Prox-1) in the developmental programming and maturation of pulmonary neuroendocrine cells in fetal mouse lung |
| Q34559911 | The sympathoadrenal cell lineage: specification, diversification, and new perspectives |
| Q72000578 | Three immediate early gene response elements in the proximal preprotachykinin-A promoter in two functionally distinct domains |
| Q41563542 | Thyroid hormone receptor/c-erbA: control of commitment and differentiation in the neuronal/chromaffin progenitor line PC12. |
| Q28575966 | Thyroid hormone regulates the expression of NeuroD/BHF1 during the development of rat cerebellum |
| Q41147324 | Thyroid parafollicular cells. An accessible model for the study of serotonergic neurons. |
| Q28593373 | Transcription Factor AP-2γ Regulates Murine Adenosine Deaminase Gene Expression during Placental Development |
| Q58789746 | Transcription factor ASCL2 is required for development of the glycogen trophoblast cell lineage |
| Q41170335 | Transcription factor genes and the developing eye: a genetic perspective |
| Q34361417 | Transcription factors in nerve regeneration |
| Q41143446 | Transcriptional control of neuropeptide gene expression in sensory neurons, using the preprotachykinin-A gene as a model |
| Q28510379 | Transcriptional regulation of mouse type 1 inositol 1,4,5-trisphosphate receptor gene by NeuroD-related factor |
| Q41753667 | Unique expression patterns of cell fate molecules delineate sequential stages of dentate gyrus development. |
| Q38529033 | Unraveling the Tangled Skein: The Evolution of Transcriptional Regulatory Networks in Development. |
| Q41077886 | Xath5 Participates in a Network of bHLH Genes in the Developing Xenopus Retina |
| Q34412930 | Zac1 is expressed in progenitor/stem cells of the neuroectoderm and mesoderm during embryogenesis: differential phenotype of the Zac1-expressing cells during development |
| Q34466327 | bHLH Transcription factors and mammalian neuronal differentiation |
| Q36693661 | c-myc inhibition of MyoD and myogenin-initiated myogenic differentiation |
| Q43995734 | hASH1 expression is closely correlated with endocrine phenotype and differentiation extent in pulmonary neuroendocrine tumors |
| Q29615041 | neurogenin1 is essential for the determination of neuronal precursors for proximal cranial sensory ganglia |
| Q47072778 | tap, a Drosophila bHLH gene expressed in chemosensory organs |
Search more.