review article | Q7318358 |
scholarly article | Q13442814 |
P50 | author | Konrad Hochedlinger | Q40635003 |
P2093 | author name string | Abby Sarkar | |
P2860 | cites work | Evidence that SOX2 overexpression is oncogenic in the lung | Q21091126 |
The genome of the choanoflagellate Monosiga brevicollis and the origin of metazoans | Q22122222 | ||
Sox15 and Fhl3 transcriptionally coactivate Foxk1 and regulate myogenic progenitor cells | Q24300409 | ||
A gene from the human sex-determining region encodes a protein with homology to a conserved DNA-binding motif | Q24301723 | ||
MicroRNA-145 regulates OCT4, SOX2, and KLF4 and represses pluripotency in human embryonic stem cells | Q24320635 | ||
Establishment of endoderm progenitors by SOX transcription factor expression in human embryonic stem cells | Q24321427 | ||
Core transcriptional regulatory circuitry in human embryonic stem cells | Q24322016 | ||
A DNA repair complex functions as an Oct4/Sox2 coactivator in embryonic stem cells | Q24338952 | ||
Pioneer transcription factors: establishing competence for gene expression | Q24625373 | ||
Pax6 and SOX2 form a co-DNA-binding partner complex that regulates initiation of lens development | Q24632689 | ||
Mediator and cohesin connect gene expression and chromatin architecture | Q24632695 | ||
In vivo fate analysis reveals the multipotent and self-renewal capacities of Sox2+ neural stem cells in the adult hippocampus | Q24683755 | ||
Molecular dissection of mesenchymal-epithelial interactions in the hair follicle | Q24815112 | ||
Vertebrate neurogenesis is counteracted by Sox1-3 activity | Q28205692 | ||
Impaired generation of mature neurons by neural stem cells from hypomorphic Sox2 mutants. | Q46825911 | ||
Neural crest development is regulated by the transcription factor Sox9. | Q47590677 | ||
Comparative expression of the mouse Sox1, Sox2 and Sox3 genes from pre-gastrulation to early somite stages. | Q48137548 | ||
Expression of SOX9 and SOX10 in central neuroepithelial tumor. | Q48490738 | ||
Consequence of the loss of Sox2 in the developing brain of the mouse. | Q49062642 | ||
Continuous cell supply from a Sox9-expressing progenitor zone in adult liver, exocrine pancreas and intestine. | Q51894736 | ||
Gene expression dynamics during germline specification in mice identified by quantitative single-cell gene expression profiling. | Q52011445 | ||
Oligodendrocyte precursor cells reprogrammed to become multipotential CNS stem cells. | Q52165452 | ||
Region-specific expression of chicken Sox2 in the developing gut and lung epithelium: regulation by epithelial-mesenchymal interactions. | Q52181466 | ||
A dermal niche for multipotent adult skin-derived precursor cells. | Q54695107 | ||
A vascular niche and a VEGF–Nrp1 loop regulate the initiation and stemness of skin tumours | Q59059617 | ||
Imprinted X-inactivation in extra-embryonic endoderm cell lines from mouse blastocysts | Q64147198 | ||
Requirement of Sox2-mediated signaling for differentiation of early Xenopus neuroectoderm | Q73386441 | ||
Epigenetic modifications of SOX2 enhancers, SRR1 and SRR2, correlate with in vitro neural differentiation | Q80755054 | ||
Conversion of Sox17 into a pluripotency reprogramming factor by reengineering its association with Oct4 on DNA | Q83801901 | ||
Blastocyst lineage formation, early embryonic asymmetries and axis patterning in the mouse | Q37388268 | ||
Vertebrate endoderm development and organ formation | Q37540224 | ||
All purpose Sox: The many roles of Sox proteins in gene expression | Q37561823 | ||
Sox2 roles in neural stem cells | Q37592557 | ||
SOX-partner code for cell specification: Regulatory target selection and underlying molecular mechanisms | Q37595687 | ||
The building blocks of mammalian lung development | Q37845284 | ||
Strategies for homeostatic stem cell self-renewal in adult tissues | Q37887870 | ||
Sox2 acts through Sox21 to regulate transcription in pluripotent and differentiated cells | Q39295340 | ||
Distinct lineage specification roles for NANOG, OCT4, and SOX2 in human embryonic stem cells | Q39368485 | ||
Phosphorylation of Sox2 cooperates in reprogramming to pluripotent stem cells | Q39644415 | ||
Identification of Sox-2 regulatory region which is under the control of Oct-3/4-Sox-2 complex | Q39681929 | ||
The transcription factor Sox2 is required for osteoblast self-renewal | Q39701765 | ||
Small increases in the level of Sox2 trigger the differentiation of mouse embryonic stem cells | Q40018314 | ||
Sox2 in the dermal papilla niche controls hair growth by fine-tuning BMP signaling in differentiating hair shaft progenitors | Q41397974 | ||
Combinatorial regulation of optic cup progenitor cell fate by SOX2 and PAX6. | Q41602939 | ||
Convergent genesis of an adult neural crest-like dermal stem cell from distinct developmental origins. | Q42726870 | ||
Human ESC-derived neural crest model reveals a key role for SOX2 in sensory neurogenesis | Q42748705 | ||
Autocrine TGF-beta signaling maintains tumorigenicity of glioma-initiating cells through Sry-related HMG-box factors. | Q43246655 | ||
The EGF receptor-sox2-EGF receptor feedback loop positively regulates the self-renewal of neural precursor cells | Q43250678 | ||
Hippocampal development and neural stem cell maintenance require Sox2-dependent regulation of Shh. | Q43280135 | ||
Acetylation of sox2 induces its nuclear export in embryonic stem cells. | Q45932983 | ||
Twenty pairs of sox: extent, homology, and nomenclature of the mouse and human sox transcription factor gene families | Q28218989 | ||
An extended transcriptional network for pluripotency of embryonic stem cells | Q28273615 | ||
Having it both ways: Sox protein function between conservation and innovation | Q28282314 | ||
Differential roles for Sox15 and Sox2 in transcriptional control in mouse embryonic stem cells | Q28505222 | ||
Requirement for Foxd3 in maintaining pluripotent cells of the early mouse embryo | Q28506803 | ||
Sox2 deficiency causes neurodegeneration and impaired neurogenesis in the adult mouse brain | Q28507690 | ||
Interplay of SOX and POU factors in regulation of the Nestin gene in neural primordial cells | Q28509072 | ||
Multiple dose-dependent roles for Sox2 in the patterning and differentiation of anterior foregut endoderm | Q28510560 | ||
Sox3 expression in undifferentiated spermatogonia is required for the progression of spermatogenesis | Q28512219 | ||
Inhibition of DNA binding of Sox2 by the SUMO conjugation | Q28512713 | ||
Sox17 dependence distinguishes the transcriptional regulation of fetal from adult hematopoietic stem cells | Q28513079 | ||
Multipotent cell lineages in early mouse development depend on SOX2 function | Q28513175 | ||
Wdr5 mediates self-renewal and reprogramming via the embryonic stem cell core transcriptional network | Q28513471 | ||
EphB signaling directs peripheral nerve regeneration through Sox2-dependent Schwann cell sorting | Q28566955 | ||
Chromatin remodeling and histone modification in the conversion of oligodendrocyte precursors to neural stem cells | Q28571047 | ||
SOX10 Maintains Multipotency and Inhibits Neuronal Differentiation of Neural Crest Stem Cells | Q28579735 | ||
Sox2 is required for development of taste bud sensory cells | Q28584894 | ||
Sox2 is important for two crucial processes in lung development: branching morphogenesis and epithelial cell differentiation | Q28585078 | ||
Sox17 promotes differentiation in mouse embryonic stem cells by directly regulating extraembryonic gene expression and indirectly antagonizing self-renewal | Q28585188 | ||
Sox2 is required for sensory organ development in the mammalian inner ear | Q28585583 | ||
Master transcription factors determine cell-type-specific responses to TGF-β signaling | Q28586183 | ||
Mutations within Sox2/SOX2 are associated with abnormalities in the hypothalamo-pituitary-gonadal axis in mice and humans | Q28586560 | ||
Depletion of definitive gut endoderm in Sox17-null mutant mice | Q28586636 | ||
Ars2 maintains neural stem-cell identity through direct transcriptional activation of Sox2 | Q28587495 | ||
Sox8 is a specific marker for muscle satellite cells and inhibits myogenesis | Q28587628 | ||
SOX2-expressing progenitor cells generate all of the major cell types in the adult mouse pituitary gland. | Q28589695 | ||
SOX9 induces and maintains neural stem cells | Q28591508 | ||
SOX2 is a dose-dependent regulator of retinal neural progenitor competence | Q28592758 | ||
Sox2 induction by FGF and FGFR2 activating mutations inhibits Wnt signaling and osteoblast differentiation | Q28593870 | ||
Sox2 cooperates with Chd7 to regulate genes that are mutated in human syndromes | Q28594392 | ||
Integration of external signaling pathways with the core transcriptional network in embryonic stem cells | Q29547179 | ||
Polycomb complexes repress developmental regulators in murine embryonic stem cells | Q29547274 | ||
Generation of induced pluripotent stem cells without Myc from mouse and human fibroblasts | Q29614794 | ||
A gene mapping to the sex-determining region of the mouse Y chromosome is a member of a novel family of embryonically expressed genes | Q29618455 | ||
Sox2 and Mitf cross-regulatory interactions consolidate progenitor and melanocyte lineages in the cranial neural crest. | Q30434442 | ||
Sequentially acting Sox transcription factors in neural lineage development | Q35624720 | ||
Human long non-coding RNAs promote pluripotency and neuronal differentiation by association with chromatin modifiers and transcription factors. | Q35739616 | ||
Role of the murine reprogramming factors in the induction of pluripotency | Q35739848 | ||
SRY-box-containing gene 2 regulation of nuclear receptor tailless (Tlx) transcription in adult neural stem cells | Q35774130 | ||
Distinct regulatory mechanisms and functions for p53-activated and p53-repressed DNA damage response genes in embryonic stem cells | Q35892477 | ||
From stem cells to neurons and glia: a Soxist's view of neural development | Q36247699 | ||
p27(Kip1) directly represses Sox2 during embryonic stem cell differentiation. | Q36546981 | ||
Comprehensive genomic analysis identifies SOX2 as a frequently amplified gene in small-cell lung cancer | Q36568988 | ||
Chromatin connections to pluripotency and cellular reprogramming | Q36874359 | ||
Sox2+ stem cells contribute to all epithelial lineages of the tooth via Sfrp5+ progenitors | Q36948830 | ||
Sox2 signaling in prosensory domain specification and subsequent hair cell differentiation in the developing cochlea | Q36984946 | ||
Cyclin-dependent kinase inhibitor p21 controls adult neural stem cell expansion by regulating Sox2 gene expression | Q37023123 | ||
Multiple roles for Sox2 in the developing and adult mouse trachea | Q37186879 | ||
MEF promotes stemness in the pathogenesis of gliomas | Q37267797 | ||
SOX2 is an amplified lineage-survival oncogene in lung and esophageal squamous cell carcinomas | Q30491937 | ||
Analysis of congenital hypomyelinating Egr2Lo/Lo nerves identifies Sox2 as an inhibitor of Schwann cell differentiation and myelination | Q30856297 | ||
Sox2 is required for maintenance and differentiation of bronchiolar Clara, ciliated, and goblet cells | Q33518513 | ||
Expression of the embryonic stem cell transcription factor SOX2 in human skin: relevance to melanocyte and merkel cell biology | Q33597213 | ||
Sox2 is essential for formation of trophectoderm in the preimplantation embryo | Q33754449 | ||
Hair follicle stem cells are specified and function in early skin morphogenesis | Q33881467 | ||
SOX2 functions to maintain neural progenitor identity | Q33968061 | ||
Slug and Sox9 cooperatively determine the mammary stem cell state | Q34030957 | ||
Facilitators and impediments of the pluripotency reprogramming factors' initial engagement with the genome | Q34034406 | ||
CARM1 mediates modulation of Sox2. | Q34064911 | ||
Enhancer decommissioning by LSD1 during embryonic stem cell differentiation | Q34088491 | ||
Epigenetic priming of a pre-B cell-specific enhancer through binding of Sox2 and Foxd3 at the ESC stage. | Q34125382 | ||
Pluripotency factors in embryonic stem cells regulate differentiation into germ layers | Q34191627 | ||
Sox2(+) adult stem and progenitor cells are important for tissue regeneration and survival of mice | Q34222321 | ||
Thyroid hormone signaling acts as a neurogenic switch by repressing Sox2 in the adult neural stem cell niche. | Q34258653 | ||
Direct reprogramming of fibroblasts into neural stem cells by defined factors | Q34263432 | ||
Direct conversion of fibroblasts into stably expandable neural stem cells | Q34263438 | ||
Direct reprogramming of mouse and human fibroblasts into multipotent neural stem cells with a single factor | Q34280164 | ||
Single-cell expression analyses during cellular reprogramming reveal an early stochastic and a late hierarchic phase | Q34299819 | ||
SOX2, a persistent marker for multipotential neural stem cells derived from embryonic stem cells, the embryo or the adult | Q34394410 | ||
Ectopic expression of Oct-4 blocks progenitor-cell differentiation and causes dysplasia in epithelial tissues | Q34417194 | ||
Large-scale molecular comparison of human schwann cells to malignant peripheral nerve sheath tumor cell lines and tissues | Q34498687 | ||
Mutations in SOX2 cause anophthalmia-esophageal-genital (AEG) syndrome | Q34565729 | ||
Tbx6-dependent Sox2 regulation determines neural or mesodermal fate in axial stem cells | Q34588851 | ||
Pluripotency governed by Sox2 via regulation of Oct3/4 expression in mouse embryonic stem cells. | Q34630308 | ||
Sox2-positive dermal papilla cells specify hair follicle type in mammalian epidermis | Q34992445 | ||
SKPs derive from hair follicle precursors and exhibit properties of adult dermal stem cells | Q35015452 | ||
Tumor-initiating stem cells of squamous cell carcinomas and their control by TGF-β and integrin/focal adhesion kinase (FAK) signaling | Q35081512 | ||
Cell lineage mapping of taste bud cells and keratinocytes in the mouse tongue and soft palate | Q35112373 | ||
Sox2 activates cell proliferation and differentiation in the respiratory epithelium | Q35132159 | ||
The Sox2 high mobility group transcription factor inhibits mature osteoblast function in transgenic mice | Q35196457 | ||
Sox17 expression confers self-renewal potential and fetal stem cell characteristics upon adult hematopoietic progenitors | Q35237399 | ||
BMPs functionally replace Klf4 and support efficient reprogramming of mouse fibroblasts by Oct4 alone | Q35347934 | ||
Sox9 is expressed in mouse multipotent retinal progenitor cells and functions in Müller glial cell development | Q35546792 | ||
P433 | issue | 1 | |
P407 | language of work or name | English | Q1860 |
P304 | page(s) | 15-30 | |
P577 | publication date | 2013-01-01 | |
P1433 | published in | Cell Stem Cell | Q2943975 |
P1476 | title | The sox family of transcription factors: versatile regulators of stem and progenitor cell fate | |
P478 | volume | 12 |
Q36105585 | A Model for Dimerization of the SOX Group E Transcription Factor Family |
Q89861887 | A SOX2 Reporter System Identifies Gastric Cancer Stem-Like Cells Sensitive to Monensin |
Q89865594 | A Sox2/miR-486-5p axis regulates survival of GBM cells by inhibiting tumor suppressor networks |
Q41785451 | A comparison of midline and tracheal gene regulation during Drosophila development |
Q103806230 | A comprehensive library of human transcription factors for cell fate engineering |
Q36998992 | A feedback amplification loop between stem cells and their progeny promotes tissue regeneration and tumorigenesis |
Q27304874 | A new role of hindbrain boundaries as pools of neural stem/progenitor cells regulated by Sox2. |
Q33991455 | A novel genome-wide in vivo screen for metastatic suppressors in human colon cancer identifies the positive WNT-TCF pathway modulators TMED3 and SOX12. |
Q91137743 | A transition from SoxB1 to SoxE transcription factors is essential for progression from pluripotent blastula cells to neural crest cells |
Q92512525 | AKT drives SOX2 overexpression and cancer cell stemness in esophageal cancer by protecting SOX2 from UBR5-mediated degradation |
Q33830062 | Aberrant activation of the human sex-determining gene in early embryonic development results in postnatal growth retardation and lethality in mice |
Q36438178 | Accumulation of differentiating intestinal stem cell progenies drives tumorigenesis |
Q47644098 | Activating the regenerative potential of Müller glia cells in a regeneration-deficient retina. |
Q34372142 | Adult neural stem cells stake their ground |
Q33786699 | An Integrative Developmental Genomics and Systems Biology Approach to Identify an In Vivo Sox Trio-Mediated Gene Regulatory Network in Murine Embryos |
Q38682159 | An epigenetic gateway to brain tumor cell identity |
Q35023613 | Antagonistic cross-regulation between Sox9 and Sox10 controls an anti-tumorigenic program in melanoma. |
Q38920277 | Antithetical NFATc1-Sox2 and p53-miR200 signaling networks govern pancreatic cancer cell plasticity |
Q35802967 | Associations between SOX2 and miR-200b expression with the clinicopathological characteristics and prognosis of patients with glioma |
Q89849568 | Biomarkers in retinoblastoma |
Q89180807 | Bmi1-Progenitor Cell Ablation Impairs the Angiogenic Response to Myocardial Infarction |
Q35878154 | C. elegans SoxB genes are dispensable for embryonic neurogenesis but required for terminal differentiation of specific neuron types |
Q96126115 | CAMK2A supported tumor initiating cells of lung adenocarcinoma by upregulating SOX2 through EZH2 phosphorylation |
Q57293755 | CDK1 interacts with Sox2 and promotes tumor initiation in human melanoma |
Q35500089 | CRISPR reveals a distal super-enhancer required for Sox2 expression in mouse embryonic stem cells |
Q96229704 | CYCLIN-B1/2 and -D1 act in opposition to coordinate cortical progenitor self-renewal and lineage commitment |
Q50078680 | Cancer Prevention with Green Tea and Its Principal Constituent, EGCG: from Early Investigations to Current Focus on Human Cancer Stem Cells. |
Q60938527 | Cancer Stem Cells and Immunosuppressive Microenvironment in Glioma |
Q39814561 | Cell division patterns and chromosomal segregation defects in oral cancer stem cells |
Q90316495 | Cell lineage-specific transcriptome analysis for interpreting cell fate specification of proembryos |
Q33767473 | Cell state plasticity, stem cells, EMT, and the generation of intra-tumoral heterogeneity |
Q49818426 | Cellular plasticity and the neuroendocrine phenotype in prostate cancer. |
Q90590631 | Cellular rewiring in lethal prostate cancer: the architect of drug resistance |
Q51418858 | Changes at the nuclear lamina alter binding of pioneer factor Foxa2 in aged liver. |
Q44808170 | Characterization of Bbx, a member of a novel subfamily of the HMG-box superfamily together with Cic. |
Q35049401 | Characterization of the neural stem cell gene regulatory network identifies OLIG2 as a multifunctional regulator of self-renewal |
Q33603730 | Cleft Palate in a Mouse Model of SOX2 Haploinsufficiency |
Q46831652 | Clinical and molecular insights into adenoid cystic carcinoma: Neural crest‐like stemness as a target |
Q35144981 | Cobblestone-area forming cells derived from patients with mantle cell lymphoma are enriched for CD133+ tumor-initiating cells |
Q50597477 | Colitis induces enteric neurogenesis through a 5-HT4-dependent mechanism. |
Q90171356 | Common genetic variation in the Angelman syndrome imprinting centre affects the imprinting of chromosome 15 |
Q47180115 | Comparative expression patterns of Sox2 and Sox19 genes in the forebrain of developing and adult turbot (Scophthalmus maximus). |
Q36285585 | Comparison of gene expression of SOX2 and OCT4 in normal tissue, polyps, and colon adenocarcinoma using immunohistochemical staining |
Q36559976 | Comprehensive profiling reveals mechanisms of SOX2-mediated cell fate specification in human ESCs and NPCs |
Q93008384 | Comprehensive proteogenomic analysis of human embryonic and induced pluripotent stem cells |
Q33975619 | Concise review: breast cancer stem cells: regulatory networks, stem cell niches, and disease relevance |
Q89522110 | Concurrent binding to DNA and RNA facilitates the pluripotency reprogramming activity of Sox2 |
Q33812168 | Conservation of Repeats at the Mammalian KCNQ1OT1-CDKN1C Region Suggests a Role in Genomic Imprinting |
Q38659223 | Control of Adult Neurogenesis by Short-Range Morphogenic-Signaling Molecules |
Q35804263 | Conversion of Adipose Tissue-Derived Mesenchymal Stem Cells to Neural Stem Cell-Like Cells by a Single Transcription Factor, Sox2. |
Q90132161 | Conversion of Sox2-dependent Merkel cell carcinoma to a differentiated neuron-like phenotype by T antigen inhibition |
Q36977690 | Core pathway mutations induce de-differentiation of murine astrocytes into glioblastoma stem cells that are sensitive to radiation but resistant to temozolomide. |
Q92589643 | Crosstalk between BMP and Notch Induces Sox2 in Cerebral Endothelial Cells |
Q42370578 | DNA hypermethylated status and gene expression of PAX1/SOX1 in patients with colorectal carcinoma |
Q35750899 | DNA methylation and gene expression dynamics during spermatogonial stem cell differentiation in the early postnatal mouse testis. |
Q28241115 | De novo SOX11 mutations cause Coffin-Siris syndrome |
Q26826876 | Dedifferentiation and reprogramming: origins of cancer stem cells |
Q53688854 | Dependence receptor UNC5A restricts luminal to basal breast cancer plasticity and metastasis. |
Q48125870 | Dickkopf 3 Promotes the Differentiation of a Rostrolateral Midbrain Dopaminergic Neuronal Subset In Vivo and from Pluripotent Stem Cells In Vitro in the Mouse. |
Q60919557 | Direct Single-Molecule Observation of Sequential DNA Bending Transitions by the Sox2 HMG Box |
Q42359796 | Discrete adipose-derived stem cell subpopulations may display differential functionality after in vitro expansion despite convergence to a common phenotype distribution |
Q42428268 | Distinct transcription factor complexes act on a permissive chromatin landscape to establish regionalized gene expression in CNS stem cells |
Q39303968 | Down-regulation of Sox11 is required for efficient osteogenic differentiation of adipose-derived stem cells |
Q91972644 | Downregulation of SOX2 may be targeted by miR-590-5p and inhibits epithelial-to-mesenchymal transition in non-small-cell lung cancer |
Q36846730 | Downregulation of YAP-dependent Nupr1 promotes tumor-repopulating cell growth in soft matrices. |
Q60930372 | Duplication and expression of Sox genes in spiders |
Q26750598 | EMT Involved in Migration of Stem/Progenitor Cells for Pituitary Development and Regeneration |
Q101476535 | Ectopic activation of GABAB receptors inhibits neurogenesis and metamorphosis in the cnidarian Nematostella vectensis |
Q92978893 | Elevated endothelial Sox2 causes lumen disruption and cerebral arteriovenous malformations |
Q41759849 | Embryonic development of the nervous system in the planarian Schmidtea polychroa |
Q30368596 | En1 directs superior olivary complex neuron positioning, survival, and expression of FoxP1. |
Q35955399 | Endogenous molecular network reveals two mechanisms of heterogeneity within gastric cancer |
Q38811601 | Engineering of Adult Neurogenesis and Gliogenesis |
Q35042144 | Enhanced SOX2 expression in retinoblastoma tissues and peripheral blood is associated with the clinicopathological characteristics of the disease |
Q36290871 | Enhancer Analysis Unveils Genetic Interactions between TLX and SOX2 in Neural Stem Cells and In Vivo Reprogramming |
Q33584325 | Epigenetic regulation of sox30 is associated with testis development in mice |
Q37291110 | Epigenetic reprogramming in cancer |
Q41451606 | Epigenomic Landscapes of hESC-Derived Neural Rosettes: Modeling Neural Tube Formation and Diseases. |
Q39411041 | Epithelial-to-Mesenchymal Transition in the Pathogenesis and Therapy of Head and Neck Cancer |
Q26783904 | Esophageal Cancer: Insights From Mouse Models |
Q92283827 | Evaluation of PAX8 expression promotes the proliferation of stomach Cancer cells |
Q53684369 | Exogenous IL6 induces mRNA splice variant MBD2_v2 to promote stemness in TP53 wild-type, African American PCa cells. |
Q38664830 | Expansion by whole genome duplication and evolution of the sox gene family in teleost fish |
Q33614186 | Expression of multiple Sox genes through embryonic development in the ctenophore Mnemiopsis leidyi is spatially restricted to zones of cell proliferation |
Q37562037 | Extensive ex vivo expansion of functional human erythroid precursors established from umbilical cord blood cells by defined factors |
Q88955678 | FGFR1-ERK1/2-SOX2 axis promotes cell proliferation, epithelial-mesenchymal transition, and metastasis in FGFR1-amplified lung cancer |
Q38787528 | Functional characterization of the Japanese flounder (Paralichthys olivaceus) Sox2 gene promoter |
Q64060134 | GABA inhibits proliferation and self-renewal of mouse retinal progenitor cell |
Q38253305 | Genetic regulation of mammalian gonad development. |
Q59137018 | Genome-wide transcriptome profiling and spatial expression analyses identify signals and switches of development in tapeworms |
Q47894744 | Glioma CpG Island Methylator Phenotype (G-CIMP): Biological and Clinical Implications |
Q35142985 | Global changes in gene expression of Barrett's esophagus compared to normal squamous esophagus and gastric cardia tissues |
Q59795540 | Global transcriptional analysis identifies a novel role for SOX4 in tumor-induced angiogenesis |
Q47295042 | HN1L Promotes Triple-Negative Breast Cancer Stem Cells through LEPR-STAT3 Pathway |
Q38956257 | High nuclear SOX2 expression is associated with radiotherapy response in small (T1/T2) oral squamous cell carcinoma |
Q42353637 | High-content analysis of tumour cell invasion in three-dimensional spheroid assays |
Q90345683 | Histologic pattern of invasion and epithelial-mesenchymal phenotype predict prognosis in squamous carcinoma of the head and neck |
Q47711110 | Histone deacetylation promotes mouse neural induction by restricting Nodal-dependent mesendoderm fate. |
Q58600583 | Homodimerization regulates an endothelial specific signature of the SOX18 transcription factor |
Q30998939 | Human Genes Encoding Transcription Factors and Chromatin-Modifying Proteins Have Low Levels of Promoter Polymorphism: A Study of 1000 Genomes Project Data |
Q47133638 | Human cancer stem cells are a target for cancer prevention using (-)-epigallocatechin gallate. |
Q33789793 | IGF-1 mediated Neurogenesis Involves a Novel RIT1/Akt/Sox2 Cascade |
Q37662428 | Identification of FDA-approved drugs targeting breast cancer stem cells along with biomarkers of sensitivity. |
Q40958923 | Identification of HECT E3 ubiquitin ligase family genes involved in stem cell regulation and regeneration in planarians |
Q54183542 | Identification, molecular characterization and analysis of the expression pattern of SoxF subgroup genes the Yellow River carp, Cyprinus carpio. |
Q52657793 | Immunoexpression of P63 and SOX2 in triple-negative breast cancers, Indonesia. |
Q34410160 | Immunohistochemical molecular phenotypes of gastric cancer based on SOX2 and CDX2 predict patient outcome |
Q47903319 | Increased SOX2 expression in salivary gland carcinoma ex pleomorphic adenoma progression: an association with adverse outcome |
Q38727627 | Induced Expression of Cancer Stem Cell Markers ALDH1A3 and Sox-2 in Hierarchical Reconstitution of Apoptosis-resistant Human Breast Cancer Cells |
Q36407341 | Induction of Pluripotency in Astrocytes through a Neural Stem Cell-like State |
Q88573696 | Inhibition of UGT8 suppresses basal-like breast cancer progression by attenuating sulfatide-αVβ5 axis |
Q35320368 | Inhibition of pluripotency networks by the Rb tumor suppressor restricts reprogramming and tumorigenesis |
Q47283050 | Injury Induces Endogenous Reprogramming and Dedifferentiation of Neuronal Progenitors to Multipotency |
Q26745881 | Insulin-secreting β cells require a post-genomic concept |
Q54943523 | JMJD1B Demethylates H4R3me2s and H3K9me2 to Facilitate Gene Expression for Development of Hematopoietic Stem and Progenitor Cells. |
Q49874413 | LSD1 demethylase and the methyl-binding protein PHF20L1 prevent SET7 methyltransferase-dependent proteolysis of the stem-cell protein Sox2. |
Q47095936 | Linc-ROR promotes esophageal squamous cell carcinoma progression through the derepression of SOX9. |
Q88656991 | Lineage Plasticity in Cancer Progression and Treatment |
Q64283472 | Live-cell imaging reveals enhancer-dependent transcription in the absence of enhancer proximity |
Q59329604 | Longitudinal single-cell RNA sequencing of patient-derived primary cells reveals drug-induced infidelity in stem cell hierarchy |
Q92266755 | Loss of the tumor suppressor, Tp53, enhances the androgen receptor-mediated oncogenic transformation and tumor development in the mouse prostate |
Q64244685 | Low Levels of Sox2 are required for Melanoma Tumor-Repopulating Cell Dormancy |
Q89530406 | Low SOX12 Expression Is Correlated With Poor Prognosis in Patients With Gastric Cancer |
Q47118198 | Major depletion of SOX2+ stem cells in the adult pituitary is not restored which does not affect hormonal cell homeostasis and remodelling. |
Q34049100 | Matrix softness regulates plasticity of tumour-repopulating cells via H3K9 demethylation and Sox2 expression |
Q36731080 | Metastatic Latency and Immune Evasion through Autocrine Inhibition of WNT. |
Q38696293 | MiR-429 suppresses glioblastoma multiforme by targeting SOX2. |
Q92063622 | Midkine signaling maintains the self-renewal and tumorigenic capacity of glioma initiating cells |
Q37223292 | Mobilized adult pituitary stem cells contribute to endocrine regeneration in response to physiological demand. |
Q36685442 | Molecular and functional interactions between AKT and SOX2 in breast carcinoma |
Q34577342 | Molecular and genetic aspects of odontogenic lesions. |
Q26741572 | Molecular basis for the genome engagement by Sox proteins |
Q38736146 | Molecular features of cellular reprogramming and development |
Q58694941 | Molecular iodine inhibits the expression of stemness markers on cancer stem-like cells of established cell lines derived from cervical cancer |
Q92541919 | Multiple Functions and Mechanisms Underlying the Role of METTL3 in Human Cancers |
Q26771156 | Multipotent pancreas progenitors: Inconclusive but pivotal topic |
Q89919423 | Mutation in Bmpr1b Leads to Optic Disc Coloboma and Ventral Retinal Gliosis in Mice |
Q33648954 | NOS2 expression in glioma cell lines and glioma primary cell cultures: correlation with neurosphere generation and SOX-2 expression |
Q35206740 | Neural stem and progenitor cell fate transition requires regulation of Musashi1 function |
Q58792698 | Neuroprotective Properties of Asiatic Acid against 5-Fluorouracil Chemotherapy in the Hippocampus in an Adult Rat Model |
Q42366642 | Novel SOX17 frameshift mutations in endometrial cancer are functionally distinct from recurrent missense mutations |
Q41470840 | Nucleocytoplasmic shuttling of SOX14A and SOX14B transcription factors |
Q33721392 | Nucleosome eviction along with H3K9ac deposition enhances Sox2 binding during human neuroectodermal commitment |
Q42153591 | Oncogenic activity of SOX1 in glioblastoma |
Q99548635 | Organotypic Culture of Acinar Cells for the Study of Pancreatic Cancer Initiation |
Q36772053 | Oxidative stress induces the acquisition of cancer stem-like phenotype in breast cancer detectable by using a Sox2 regulatory region-2 (SRR2) reporter |
Q98155024 | PAK5 promotes the cell stemness ability by phosphorylating SOX2 in lung squamous cell carcinomas |
Q90841057 | PHF20L1 antagonizes SOX2 proteolysis triggered by the MLL1/WDR5 complexes |
Q58708128 | PR-LncRNA signature regulates glioma cell activity through expression of SOX factors |
Q42362093 | Patient-derived osteosarcoma cells are resistant to methotrexate. |
Q41854138 | Pattern of Neurogenesis and Identification of Neuronal Progenitor Subtypes during Pallial Development in Xenopus laevis |
Q38959990 | Pcgf6, a polycomb group protein, regulates mesodermal lineage differentiation in murine ESCs and functions in iPS reprogramming |
Q38892190 | Personalized and targeted therapy of esophageal squamous cell carcinoma: an update |
Q37616736 | Pharmacological targeting of the transcription factor SOX18 delays breast cancer in mice. |
Q27301172 | Placental mesenchymal stromal cells rescue ambulation in ovine myelomeningocele. |
Q36142170 | Plumbagin suppresses epithelial to mesenchymal transition and stemness via inhibiting Nrf2-mediated signaling pathway in human tongue squamous cell carcinoma cells |
Q38637870 | Pluripotency transcription factors in lung cancer-a review. |
Q38390837 | Pluripotency transcription factors in the pathogenesis of colorectal cancer and implications for prognosis |
Q57698394 | Positional specificity of different transcription factor classes within enhancers |
Q37599778 | Positive feedback loop between Sox2 and Sox6 inhibits neuronal differentiation in the developing central nervous system |
Q90191288 | Post-translational modification of SOX family proteins: Key biochemical targets in cancer? |
Q57153312 | Potential Strategies Overcoming the Temozolomide Resistance for Glioblastoma |
Q39107981 | Potential therapeutic targets of epithelial-mesenchymal transition in melanoma |
Q35000680 | Profiling gene promoter occupancy of Sox2 in two phenotypically distinct breast cancer cell subsets using chromatin immunoprecipitation and genome-wide promoter microarrays |
Q35854187 | Prognostic significance of SOX-1 expression in human hepatocelluar cancer. |
Q40668131 | Prognostic value of Sox2 expression in digestive tract cancers: A meta-analysis |
Q27009513 | Progress and renewal in gustation: new insights into taste bud development |
Q93159741 | Proteolysis of methylated SOX2 protein is regulated by L3MBTL3 and CRL4DCAF5 ubiquitin ligase |
Q34028448 | QKI impairs self-renewal and tumorigenicity of oral cancer cells via repression of SOX2 |
Q48385582 | RIT1 GTPase Regulates Sox2 Transcriptional Activity and Hippocampal Neurogenesis. |
Q90381449 | Reciprocal Regulation of TRPS1 and miR-221 in Intervertebral Disc Cells |
Q64062687 | Recursive Motif Analyses Identify Brain Epigenetic Transcription Regulatory Modules |
Q55338777 | Reduction of Movement in Neurological Diseases: Effects on Neural Stem Cells Characteristics. |
Q30740000 | Regeneration of Xenopus laevis spinal cord requires Sox2/3 expressing cells |
Q41967111 | Regulatory factor X transcription factors control Musashi1 transcription in mouse neural stem/progenitor cells |
Q26853155 | Reprogramming cells with synthetic proteins |
Q52806036 | Reprogramming to resist. |
Q26860974 | Role of SOX family of transcription factors in central nervous system tumors |
Q92560045 | Roles and regulation of SOX transcription factors in skeletogenesis |
Q28077896 | Roles of N-Myc and STAT interactor in cancer: From initiation to dissemination |
Q48501628 | Roles of Two Sox9 Genes during Gonadal Development in Japanese Flounder: Sex Differentiation, Spermatogenesis and Gonadal Function Maintenance. |
Q61799611 | SIX1 represses senescence and promotes SOX2-mediated cellular plasticity during tumorigenesis |
Q36014328 | SOX-2, but not Oct4, is highly expressed in early-stage endometrial adenocarcinoma and is related to tumour grading |
Q35079337 | SOX1 down-regulates β-catenin and reverses malignant phenotype in nasopharyngeal carcinoma |
Q94550391 | SOX1 promotes differentiation of nasopharyngeal carcinoma cells by activating retinoid metabolic pathway |
Q34786506 | SOX10, a novel HMG-box-containing tumor suppressor, inhibits growth and metastasis of digestive cancers by suppressing the Wnt/β-catenin pathway |
Q47411086 | SOX10-positive cells emerge in the rat pituitary gland during late embryogenesis and start to express S100β. |
Q48132953 | SOX10/keratin dual-color immunohistochemistry: An effective first-line test for the workup of epithelioid malignant neoplasms in FNA and small biopsy specimens. |
Q64987827 | SOX11: friend or foe in tumor prevention and carcinogenesis? |
Q64106662 | SOX12 promotes colorectal cancer cell proliferation and metastasis by regulating asparagine synthesis |
Q92433227 | SOX12 promotes the growth of multiple myeloma cells by enhancing Wnt/β-catenin signaling |
Q89948388 | SOX13 promotes colorectal cancer metastasis by transactivating SNAI2 and c-MET |
Q43083428 | SOX15 and other SOX family members are important mediators of tumorigenesis in multiple cancer types |
Q57793556 | SOX17 regulates uterine epithelial-stromal cross-talk acting via a distal enhancer upstream of Ihh |
Q38632090 | SOX2 Is a Marker for Stem-like Tumor Cells in Bladder Cancer |
Q90475646 | SOX2 Regulates P63 and Stem/Progenitor Cell State in the Corneal Epithelium |
Q38239137 | SOX2 and cancer: current research and its implications in the clinic |
Q37680006 | SOX2 and p63 colocalize at genetic loci in squamous cell carcinomas |
Q40134764 | SOX2 as a New Regulator of HPV16 Transcription. |
Q35833703 | SOX2 boosts major tumor progression genes in prostate cancer and is a functional biomarker of lymph node metastasis. |
Q50454918 | SOX2 controls tumour initiation and cancer stem-cell functions in squamous-cell carcinoma. |
Q36076413 | SOX2 expression is associated with a cancer stem cell state and down-regulation of CDX2 in colorectal cancer |
Q33882664 | SOX2 expression is regulated by BRAF and contributes to poor patient prognosis in colorectal cancer |
Q60924945 | SOX2 haploinsufficiency promotes impaired vision at advanced age |
Q38373829 | SOX2 immunity and tissue resident memory in children and young adults with glioma |
Q34396696 | SOX2 is a cancer-specific regulator of tumour initiating potential in cutaneous squamous cell carcinoma. |
Q33607622 | SOX2 is required to maintain cancer stem cells in ovarian cancer. |
Q58779082 | SOX2 recruits KLF4 to regulate nasopharyngeal carcinoma proliferation via PI3K/AKT signaling |
Q50062529 | SOX2 regulates common and specific stem cell features in the CNS and endoderm derived organs. |
Q58562769 | SOX2 regulates radioresistance in cervical cancer via the hedgehog signaling pathway |
Q38947301 | SOX2 regulates self-renewal and tumorigenicity of stem-like cells of head and neck squamous cell carcinoma |
Q35623883 | SOX2 reprograms resident astrocytes into neural progenitors in the adult brain |
Q58709738 | SOX4 can redirect TGF-β-mediated SMAD3-transcriptional output in a context-dependent manner to promote tumorigenesis |
Q34517496 | SOX4 inhibits GBM cell growth and induces G0/G1 cell cycle arrest through Akt-p53 axis |
Q52655063 | SOX5 predicts poor prognosis in lung adenocarcinoma and promotes tumor metastasis through epithelial-mesenchymal transition. |
Q42376306 | SOX7 Is Required for Muscle Satellite Cell Development and Maintenance. |
Q55287245 | SOX7 Target Genes and Their Contribution to Its Tumor Suppressive Function. |
Q39605234 | SOX7-enforced expression promotes the expansion of adult blood progenitors and blocks B-cell development |
Q64095213 | SOX9 Stem-Cell Factor: Clinical and Functional Relevance in Cancer |
Q92668907 | SOX9 promotes tumor progression through the axis BMI1-p21CIP |
Q37608199 | SOX9: a stem cell transcriptional regulator of secreted niche signaling factors |
Q36669685 | SOXC Genes and the Control of Skeletogenesis |
Q35651336 | SOXE transcription factors form selective dimers on non-compact DNA motifs through multifaceted interactions between dimerization and high-mobility group domains |
Q55412924 | SOXF factors regulate murine satellite cell self-renewal and function through inhibition of β-catenin activity. |
Q34920765 | SRY interference of normal regulation of the RET gene suggests a potential role of the Y-chromosome gene in sexual dimorphism in Hirschsprung disease. |
Q47727544 | Screening the expression characteristics of several miRNAs in G93A-SOD1 transgenic mouse: altered expression of miRNA-124 is associated with astrocyte differentiation by targeting Sox2 and Sox9. |
Q36144932 | Serine Protease Activation Essential for Endothelial-Mesenchymal Transition in Vascular Calcification. |
Q90357657 | Sex-determining region Y box-containing genes: regulators and biomarkers in gynecological cancers |
Q92574568 | Skip is essential for Notch signaling to induce Sox2 in cerebral arteriovenous malformations |
Q27320285 | Sox10 Regulates Stem/Progenitor and Mesenchymal Cell States in Mammary Epithelial Cells |
Q89595502 | Sox100B Regulates Progenitor-Specific Gene Expression and Cell Differentiation in the Adult Drosophila Intestine |
Q48228658 | Sox11 Expression Promotes Regeneration of Some Retinal Ganglion Cell Types but Kills Others |
Q86958106 | Sox2 as a servant of two masters |
Q41260832 | Sox2 cooperates with inflammation-mediated Stat3 activation in the malignant transformation of foregut basal progenitor cells |
Q40934365 | Sox2 function as a negative regulator to control HAMP expression |
Q41456346 | Sox2 functions as a sequence-specific DNA sensor in neutrophils to initiate innate immunity against microbial infection |
Q54678218 | Sox2 in the adult rat sensory nervous system. |
Q59792939 | Sox2 is associated with cancer stem-like properties in colorectal cancer |
Q51075741 | Sox2 is dispensable for primary melanoma and metastasis formation. |
Q51075761 | Sox2 is not required for melanomagenesis, melanoma growth and melanoma metastasis in vivo. |
Q47138957 | Sox2 modulates motility and enhances progression of colorectal cancer via the Rho-ROCK signaling pathway |
Q33891224 | Sox2 promotes malignancy in glioblastoma by regulating plasticity and astrocytic differentiation |
Q27021641 | Sox2 transcription network acts as a molecular switch to regulate properties of neural stem cells |
Q48519185 | Sox21 deletion in mice causes postnatal growth deficiency without physiological disruption of hypothalamic-pituitary endocrine axes. |
Q38845654 | Sox2: regulation of expression and contribution to brain tumors |
Q64124379 | Sox30 initiates transcription of haploid genes during late meiosis and spermiogenesis in mouse testes |
Q90585665 | Sox4 Promotes Atoh1-Independent Intestinal Secretory Differentiation Toward Tuft and Enteroendocrine Fates |
Q34997327 | Sox6 up-regulation by macrophage migration inhibitory factor promotes survival and maintenance of mouse neural stem/progenitor cells |
Q52883380 | Sox9 regulates self-renewal and tumorigenicity by promoting symmetrical cell division of cancer stem cells in hepatocellular carcinoma. |
Q34972366 | Sox9: a master regulator of the pancreatic program |
Q42680572 | SoxB, cell cycle and neurogenesis |
Q26739989 | SoxD Transcription Factors: Multifaceted Players of Neural Development |
Q38940310 | Specification and epigenetic programming of the human germ line |
Q47657636 | Spinal Cord Cells from Pre-metamorphic Stages Differentiate into Neurons and Promote Axon Growth and Regeneration after Transplantation into the Injured Spinal Cord of Non-regenerative Xenopus laevis Froglets |
Q38113992 | Spinal cord regeneration: lessons for mammals from non-mammalian vertebrates |
Q35776368 | Sry-type HMG box 18 contributes to the differentiation of bone marrow-derived mesenchymal stem cells to endothelial cells |
Q60953089 | Stem-like Human Breast Cancer Cells Initiate Vasculogenic Mimicry on Matrigel |
Q37336266 | Stem/progenitor cells in the developing human cerebellum: an immunohistochemical study |
Q34552512 | Structure-function relationships in human testis-determining factor SRY: an aromatic buttress underlies the specific DNA-bending surface of a high mobility group (HMG) box. |
Q42464662 | Symmetrical and asymmetrical division analysis provides evidence for a hierarchy of prostate epithelial cell lineages |
Q42550899 | Systematic variation in the pattern of gene paralog retention between the teleost superorders Ostariophysi and Acanthopterygii |
Q28079501 | Targeting SOX2 as a Therapeutic Strategy in Glioblastoma |
Q38798880 | The Adult Ventricular-Subventricular Zone (V-SVZ) and Olfactory Bulb (OB) Neurogenesis |
Q90240183 | The FBXW2-MSX2-SOX2 axis regulates stem cell property and drug resistance of cancer cells |
Q24337113 | The PRKCI and SOX2 oncogenes are coamplified and cooperate to activate Hedgehog signaling in lung squamous cell carcinoma |
Q97074390 | The Relevance of Transcription Factors in Gastric and Colorectal Cancer Stem Cells Identification and Eradication |
Q92410942 | The Role of RB in Prostate Cancer Progression |
Q38359533 | The Roles of the Stem Cell-Controlling Sox2 Transcription Factor: from Neuroectoderm Development to Alzheimer's Disease? |
Q36115146 | The Sox transcriptional factors: Functions during intestinal development in vertebrates |
Q90366123 | The acquisition of positional information across the radial axis of the cochlea |
Q38733504 | The dark side of SOX2: cancer - a comprehensive overview |
Q34460364 | The evolving cancer stem cell paradigm: implications in veterinary oncology |
Q38909845 | The future of iPS cells in advancing regenerative medicine. |
Q90641451 | The great escape: tumour cell plasticity in resistance to targeted therapy |
Q40211236 | The influence of rAAV2-mediated SOX2 delivery into neonatal and adult human RPE cells; a comparative study |
Q46275180 | The maternal-zygotic transition and zygotic activation of the Mnemiopsis leidyi genome occurs within the first three cleavage cycles |
Q26785448 | The network of pluripotency, epithelial-mesenchymal transition, and prognosis of breast cancer |
Q50981882 | The pleiotrophin-ALK axis is required for tumorigenicity of glioblastoma stem cells. |
Q35828678 | The prognostic value of the stem-like group in colorectal cancer using a panel of immunohistochemistry markers |
Q26768676 | The role of pluripotency factors to drive stemness in gastrointestinal cancer |
Q27003938 | The structure, function and evolution of proteins that bind DNA and RNA |
Q27015644 | Thyroid tumor-initiating cells: increasing evidence and opportunities for anticancer therapy (review) |
Q58695226 | Towards precision medicine: linking genetic and cellular heterogeneity in gastric cancer |
Q55642025 | Transcription factor profiling identifies Sox9 as regulator of proliferation and differentiation in corneal epithelial stem/progenitor cells. |
Q88035347 | Transcriptional and Epigenetic Control of Mammalian Olfactory Epithelium Development |
Q36264232 | Transcriptional regulation of human sperm-associated antigen 16 gene by S-SOX5 |
Q31056690 | Transcriptome analysis reveals differentially expressed genes associated with germ cell and gonad development in the Southern bluefin tuna (Thunnus maccoyii). |
Q64273377 | Transcriptome analysis reveals differentially expressed genes between human primary bone marrow mesenchymal stem cells and human primary dermal fibroblasts |
Q33858412 | Transforming growth factor-beta signaling network regulates plasticity and lineage commitment of lung cancer cells |
Q37237114 | Triple negative breast cancer initiating cell subsets differ in functional and molecular characteristics and in γ-secretase inhibitor drug responses |
Q35833007 | Triple negative breast cancers comprise a highly tumorigenic cell subpopulation detectable by its high responsiveness to a Sox2 regulatory region 2 (SRR2) reporter |
Q37353994 | Ube2s regulates Sox2 stability and mouse ES cell maintenance |
Q90087095 | Up-regulation of microRNA-200c-3p inhibits invasion and migration of renal cell carcinoma cells via the SOX2-dependent Wnt/β-catenin signaling pathway |
Q37311518 | Upregulation of SOX9 in osteosarcoma and its association with tumor progression and patients' prognosis |
Q99233800 | VDR-SOX2 signaling promotes colorectal cancer stemness and malignancy in an acidic microenvironment |
Q36095539 | Validation and comparison of instruments to identify frail patientes in primary care settings: Study protocol. |
Q98576948 | Y chromosome in health and diseases |
Q38901912 | YAP1 Regulates OCT4 Activity and SOX2 Expression to Facilitate Self-Renewal and Vascular Mimicry of Stem-Like Cells |
Q33628528 | YB-1 regulates Sox2 to coordinately sustain stemness and tumorigenic properties in a phenotypically distinct subset of breast cancer cells |
Q93346841 | [Development and homeostasis of taste buds in mammals] |
Q38794065 | mTOR inhibition decreases SOX2-SOX9 mediated glioma stem cell activity and temozolomide resistance. |
Q37535463 | miR-126 functions as a tumor suppressor in osteosarcoma by targeting Sox2. |
Q34096085 | miR-21 promotes the differentiation of hair follicle-derived neural crest stem cells into Schwann cells |
Q28828459 | miR-30 Family Controls Proliferation and Differentiation of Intestinal Epithelial Cell Models by Directing a Broad Gene Expression Program That Includes SOX9 and the Ubiquitin Ligase Pathway |
Q99241288 | miR-425-5p, a SOX2 target, regulates the expression of FOXJ3 and RAB31 and promotes the survival of GSCs |
Q34501859 | miRNA-124 down-regulates SOX8 expression and suppresses cell proliferation in non-small cell lung cancer |
Q53648897 | miRNA-124 down-regulates SOX8 expression and suppresses cell proliferation in non-small cell lung cancer. |
Q48451281 | nNOS Translocates into the Nucleus and Interacts with Sox2 to Protect Neurons Against Early Excitotoxicity via Promotion of Shh Transcription. |
Q36835178 | β-catenin and Kras/Foxm1 signaling pathway are critical to restrict Sox9 in basal cells during pulmonary branching morphogenesis |
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