| scholarly article | Q13442814 |
| P2093 | author name string | B L Hogan | |
| N R Dunn | |||
| K S Zaret | |||
| J M Rossi | |||
| P2860 | cites work | The Spemann organizer signal noggin binds and inactivates bone morphogenetic protein 4 | Q24315313 |
| Bone morphogenetic proteins induce cardiomyocyte differentiation through the mitogen-activated protein kinase kinase kinase TAK1 and cardiac transcription factors Csx/Nkx-2.5 and GATA-4 | Q24554412 | ||
| BMP4 is essential for lens induction in the mouse embryo | Q24595509 | ||
| Mouse GATA-4: a retinoic acid-inducible GATA-binding transcription factor expressed in endodermally derived tissues and heart | Q24606117 | ||
| Bmp4 is required for the generation of primordial germ cells in the mouse embryo | Q24608134 | ||
| Bone morphogenetic protein-4 is required for mesoderm formation and patterning in the mouse | Q28296363 | ||
| Early embryonic lethality in Bmp5;Bmp7 double mutant mice suggests functional redundancy within the 60A subgroup | Q28506935 | ||
| Antagonistic interactions between FGF and BMP signaling pathways: a mechanism for positioning the sites of tooth formation | Q28506952 | ||
| Identification of BMP-4 as a signal mediating secondary induction between epithelial and mesenchymal tissues during early tooth development | Q28512639 | ||
| Mice deficient for BMP2 are nonviable and have defects in amnion/chorion and cardiac development | Q28513337 | ||
| GATA4 transcription factor is required for ventral morphogenesis and heart tube formation | Q28586495 | ||
| Haploinsufficient phenotypes in Bmp4 heterozygous null mice and modification by mutations in Gli3 and Alx4 | Q28587988 | ||
| Requirement of the transcription factor GATA4 for heart tube formation and ventral morphogenesis | Q28592331 | ||
| PDX-1 is required for pancreatic outgrowth and differentiation of the rostral duodenum | Q29618151 | ||
| Insulin-promoter-factor 1 is required for pancreas development in mice | Q29619695 | ||
| Developmental competence of the gut endoderm: genetic potentiation by GATA and HNF3/fork head proteins | Q33597105 | ||
| Vertebrate endoderm development | Q33804330 | ||
| Positive and negative regulatory elements in the mouse albumin enhancer | Q33840270 | ||
| Liver specification and early morphogenesis | Q33855384 | ||
| Hepatic induction in the avian embryo: specificity of reactive endoderm and inductive mesoderm | Q34284367 | ||
| An experimental analysis of liver development | Q34303760 | ||
| Interaction between FGF and BMP signaling pathways regulates development of metanephric mesenchyme | Q35199256 | ||
| Functional intertwining of Dpp and EGFR signaling during Drosophila endoderm induction | Q35204526 | ||
| Extracellular signals that regulate liver transcription factors during hepatic differentiation in vitro | Q36683946 | ||
| Morphogenesis of digits in the avian limb is controlled by FGFs, TGFbetas, and noggin through BMP signaling | Q39472922 | ||
| FGF-4 and BMP-2 have opposite effects on limb growth. | Q40869516 | ||
| Involvement of Bone Morphogenetic Protein-4 (BMP-4) and Vgr-1 in morphogenesis and neurogenesis in the mouse | Q41161285 | ||
| Expression cloning of noggin, a new dorsalizing factor localized to the Spemann organizer in Xenopus embryos | Q44061010 | ||
| Neural induction by the secreted polypeptide noggin | Q44628705 | ||
| Induction across germ layers in Drosophila mediated by a genetic cascade | Q44630114 | ||
| Msg1 and Mrg1, founding members of a gene family, show distinct patterns of gene expression during mouse embryogenesis. | Q48038317 | ||
| GATA-4/5/6, a subfamily of three transcription factors transcribed in developing heart and gut. | Q48079082 | ||
| GATA transcription factors as potentiators of gut endoderm differentiation. | Q51093618 | ||
| Expression of murine STF-1, a putative insulin gene transcription factor, in beta cells of pancreas, duodenal epithelium and pancreatic exocrine and endocrine progenitors during ontogeny. | Q51128200 | ||
| A bipotential precursor population for pancreas and liver within the embryonic endoderm. | Q52139265 | ||
| Repressive and restrictive mesodermal interactions with gut endoderm: possible relation to Meckel's Diverticulum. | Q52163903 | ||
| Shh, Bmp-2, Bmp-4 and Fgf-8 are associated with initiation and patterning of mouse tongue papillae. | Q52177124 | ||
| Morphogenesis. | Q52179410 | ||
| BMP-2 induces ectopic expression of cardiac lineage markers and interferes with somite formation in chicken embryos. | Q52189748 | ||
| Wild-type endoderm abrogates the ventral developmental defects associated with GATA-4 deficiency in the mouse. | Q52192779 | ||
| Differential expression of BMP receptors in early mouse development. | Q52193152 | ||
| The role of BMP-4 and GATA-2 in the induction and differentiation of hematopoietic mesoderm in Xenopus laevis. | Q52199809 | ||
| Hepatic specification of the gut endoderm in vitro: cell signaling and transcriptional control. | Q52200970 | ||
| Bmpr encodes a type I bone morphogenetic protein receptor that is essential for gastrulation during mouse embryogenesis. | Q52204129 | ||
| A Drosophila growth factor homolog, decapentaplegic, regulates homeotic gene expression within and across germ layers during midgut morphogenesis. | Q52447977 | ||
| Hepatocyte differentiation initiates during endodermal-mesenchymal interactions prior to liver formation. | Q54075246 | ||
| Tissue interaction in chick liver development: a reevaluation. II. Parenchymal differentiation: mesenchymal influence and morphogenetic independence | Q67512840 | ||
| Patterns of expression of murine Vgr-1 and BMP-2a RNA suggest that transforming growth factor-beta-like genes coordinately regulate aspects of embryonic development | Q69123971 | ||
| Differentiation of the mouse hepatic primordium. I. An analysis of tissue interactions in hepatocyte differentiation | Q71394127 | ||
| Bone morphogenetic protein-9 binds to liver cells and stimulates proliferation | Q72034641 | ||
| Activin-A and FGF-2 mimic the inductive effects of anterior endoderm on terminal cardiac myogenesis in vitro | Q72189395 | ||
| Requirement for BMP and FGF signaling during cardiogenic induction in non-precardiac mesoderm is specific, transient, and cooperative | Q73864458 | ||
| Antagonistic effects of FGF4 on BMP induction of apoptosis and chondrogenesis in the chick limb bud | Q74326349 | ||
| FGFs and BMP4 induce both Msx1-independent and Msx1-dependent signaling pathways in early tooth development | Q77350796 | ||
| Promotion of the osteogenetic activity of recombinant human bone morphogenetic protein by basic fibroblast growth factor | Q77760884 | ||
| Initiation of mammalian liver development from endoderm by fibroblast growth factors | Q77894646 | ||
| P433 | issue | 15 | |
| P407 | language of work or name | English | Q1860 |
| P304 | page(s) | 1998-2009 | |
| P577 | publication date | 2001-08-01 | |
| P1433 | published in | Genes & Development | Q1524533 |
| P1476 | title | Distinct mesodermal signals, including BMPs from the septum transversum mesenchyme, are required in combination for hepatogenesis from the endoderm | |
| P478 | volume | 15 |
| Q37057121 | A Case of Gastrointestinal Stromal Tumor That Underwent Endoscopic Ultrasound-Guided Aspiration with a 25-Gauge Biopsy Needle |
| Q38895292 | A Paracrine Mechanism Accelerating Expansion of Human Induced Pluripotent Stem Cell-Derived Hepatic Progenitor-Like Cells |
| Q50422444 | A Roadmap for Human Liver Differentiation from Pluripotent Stem Cells. |
| Q42994112 | A circuit of paracrine signals between liver sinusoid endothelial cells and hepatocytes regulates hepatitis C virus replication |
| Q42505309 | A correlative study of the allantois in pig and rabbit highlighting the diversity of extraembryonic tissues in four mammalian species, including mouse and man. |
| Q36022695 | A crucial role of bone morphogenetic protein signaling in the wound healing response in acute liver injury induced by carbon tetrachloride |
| Q42125470 | A novel chemically directed route for the generation of definitive endoderm from human embryonic stem cells based on inhibition of GSK-3. |
| Q48343445 | A small-molecule screen reveals that HSP90β promotes the conversion of induced pluripotent stem cell-derived endoderm to a hepatic fate and regulates HNF4A turnover |
| Q37696081 | Activation of GATA4 gene expression at the early stage of cardiac specification |
| Q37407147 | Activin A-induced differentiation of embryonic stem cells into endoderm and pancreatic progenitors-the influence of differentiation factors and culture conditions |
| Q92643993 | Adult and iPS-derived non-parenchymal cells regulate liver organoid development through differential modulation of Wnt and TGF-β |
| Q26769989 | Advances in Liver Regeneration: Revisiting Hepatic Stem/Progenitor Cells and Their Origin |
| Q36166139 | An Abbreviated Protocol for In Vitro Generation of Functional Human Embryonic Stem Cell-Derived Beta-Like Cells |
| Q47073552 | An antiapoptotic role of sorting nexin 7 is required for liver development in zebrafish |
| Q34197939 | An endothelial cell niche induces hepatic specification through dual repression of Wnt and Notch signaling |
| Q28534882 | An in vitro expansion system for generation of human iPS cell-derived hepatic progenitor-like cells exhibiting a bipotent differentiation potential |
| Q89514362 | Angiocrine endothelium: from physiology to cancer |
| Q34518370 | Antagonistic interactions of hedgehog, Bmp and retinoic acid signals control zebrafish endocrine pancreas development |
| Q39684977 | Anterior-Posterior Patterning of Definitive Endoderm Generated from Human Embryonic Stem Cells Depends on the Differential Signaling of Retinoic Acid, Wnt-, and BMP-Signaling |
| Q52018698 | BMP is an important regulator of proepicardial identity in the chick embryo. |
| Q40211716 | BMP-4 is required for hepatic specification of mouse embryonic stem cell-derived definitive endoderm |
| Q52114639 | BMP4 modulates fibroblast growth factor-mediated induction of proximal and distal lung differentiation in mouse embryonic tracheal epithelium in mesenchyme-free culture. |
| Q84465271 | BMP7 can promote osteogenic differentiation of human periosteal cells in vitro |
| Q38837502 | BMP9-Induced Survival Effect in Liver Tumor Cells Requires p38MAPK Activation |
| Q38088672 | Beta cell dynamics: beta cell replenishment, beta cell compensation and diabetes. |
| Q34165885 | Beta-catenin signaling in hepatic development and progenitors: which way does the WNT blow? |
| Q36510510 | Biological principles for ex vivo adult stem cell expansion |
| Q38872219 | Blood vessel crosstalk during organogenesis-focus on pancreas and endothelial cells |
| Q38700736 | Bmp Signaling Governs Biliary-Driven Liver Regeneration in Zebrafish via Tbx2b and Id2a |
| Q43217501 | Bmp2 signaling regulates the hepatic versus pancreatic fate decision. |
| Q28510349 | Bmp4 is required for tracheal formation: a novel mouse model for tracheal agenesis |
| Q40195822 | Bone morphogenetic protein-2 is a negative regulator of hepatocyte proliferation downregulated in the regenerating liver |
| Q51459998 | Bone morphogenetic protein-4 modulates proliferation and terminal differentiation of fetal hepatic stem/progenitor cells. |
| Q42044082 | C/EBPalpha and C/EBPbeta are markers of early liver development |
| Q36793453 | Cancer stem cells in the development of liver cancer |
| Q41216714 | Cancer stem cells: repair gone awry? |
| Q47376146 | Cell Expansion During Directed Differentiation of Stem Cells Toward the Hepatic Lineage |
| Q30887216 | Cell-autonomous and signal-dependent expression of liver and intestine marker genes in pluripotent precursor cells from Xenopus embryos |
| Q26776328 | Cell-based therapies of liver diseases: age-related challenges |
| Q28750658 | Cell-cell signaling drives the evolution of complex traits: introduction-lung evo-devo |
| Q38110522 | Cellular and molecular basis of liver development. |
| Q37709553 | Cellular plasticity within the pancreas--lessons learned from development |
| Q36736868 | Characterization of the mid-foregut transcriptome identifies genes regulated during lung bud induction |
| Q38007360 | Chromatin "pre-pattern" and epigenetic modulation in the cell fate choice of liver over pancreas in the endoderm |
| Q24297341 | Cited2, a coactivator of HNF4alpha, is essential for liver development |
| Q40068198 | Clonal, cultured, murine fetal liver hepatoblasts maintain liver specification in chimeric mice |
| Q92641939 | Collagen vitrigel promotes hepatocytic differentiation of induced pluripotent stem cells into functional hepatocyte-like cells |
| Q37355381 | Compensatory growth mechanisms regulated by BMP and FGF signaling mediate liver regeneration in zebrafish after partial hepatectomy |
| Q41885314 | Concurrent course of transient neonatal diabetes with cholestasis and paucity of interlobular bile ducts: a case report. |
| Q36903950 | Contribution of endothelial cells to organogenesis: a modern reappraisal of an old Aristotelian concept |
| Q33595592 | Contribution of hepatic lineage stage-specific donor memory to the differential potential of induced mouse pluripotent stem cells |
| Q37621220 | Converting human pluripotent stem cells into beta-cells: recent advances and future challenges |
| Q34991828 | Cytokine regulation of liver development |
| Q35140965 | Deletion of Adam10 in endothelial cells leads to defects in organ-specific vascular structures |
| Q38243677 | Derivation of Endodermal Progenitors From Pluripotent Stem Cells |
| Q34747011 | Development and diseases of the pancreas |
| Q37975904 | Development of the bile ducts: essentials for the clinical hepatologist |
| Q33282471 | Development of the mammalian liver and ventral pancreas is dependent on GATA4. |
| Q51902544 | Developmental Changes of Cell Adhesion Molecule Expression in the Fetal Mouse Liver |
| Q89599753 | Different approaches for transformation of mesenchymal stem cells into hepatocyte-like cells |
| Q42177511 | Differential expression of natural antisense transcripts during liver development in embryonic mice |
| Q37853848 | Differentiating stem cells into liver. |
| Q37729855 | Differentiation of embryonic stem cells into hepatocytes that coexpress coagulation factors VIII and IX |
| Q41944061 | Differentiation of hepatocytes from pluripotent stem cells |
| Q34775617 | Differentiation of human embryonic stem cells along a hepatic lineage |
| Q52095740 | Differentiation of mouse embryonic stem cells into pancreatic and hepatic cells. |
| Q50471228 | Differentiation of nonhuman primate embryonic stem cells into hepatocyte-like cells. |
| Q43037453 | Directed differentiation of human embryonic stem cells into functional hepatic cells |
| Q37862139 | Directed hepatic differentiation from embryonic stem cells |
| Q28485172 | Directed pancreatic acinar differentiation of mouse embryonic stem cells via embryonic signalling molecules and exocrine transcription factors |
| Q30977229 | Discovery of chicken microRNAs associated with lipogenesis and cell proliferation. |
| Q28586260 | Distinct roles for retinoic acid receptors alpha and beta in early lung morphogenesis |
| Q61448531 | Distinct roles of Dlk1 isoforms in bi-potential differentiation of hepatic stem cells |
| Q21146042 | Dorsoventral patterning in hemichordates: insights into early chordate evolution |
| Q42607239 | Dynamic signaling network for the specification of embryonic pancreas and liver progenitors |
| Q39038105 | Efficient generation of hepatic cells from multipotent adult mouse germ-line stem cells using an OP9 co-culture system |
| Q36102674 | Embryonic development of the liver |
| Q101216937 | Embryonic liver developmental trajectory revealed by single-cell RNA sequencing in the Foxa2eGFP mouse |
| Q38160150 | Endodermal and mesenchymal cross talk: a crossroad for the maturation of foregut organs |
| Q36889821 | Engraftment potential of spheroid-forming hepatic endoderm derived from human embryonic stem cells |
| Q35179363 | Enhanced differentiation of adult bone marrow-derived stem cells to liver lineage in aggregate culture |
| Q36432520 | Enhancement of hepatocyte differentiation from human embryonic stem cells by Chinese medicine Fuzhenghuayu |
| Q37272360 | Epigenomic profiling indicates a role for DNA methylation in early postnatal liver development |
| Q33785831 | Essential role of BMPs in FGF-induced secondary lens fiber differentiation. |
| Q41856466 | Essential roles of zebrafish bmp2a, fgf10, and fgf24 in the specification of the ventral pancreas |
| Q36234228 | Establishment of a chick embryo model for analyzing liver development and a search for candidate genes |
| Q35417888 | Ethanol negatively regulates hepatic differentiation of hESC by inhibition of the MAPK/ERK signaling pathway in vitro |
| Q38844070 | Expression kinetics of hepatic progenitor markers in cellular models of human liver development recapitulating hepatocyte and biliary cell fate commitment |
| Q36397956 | Extensive genetic variation in somatic human tissues |
| Q41592312 | Extracellular matrix microarrays to study inductive signaling for endoderm specification |
| Q64059879 | FGF signal is not required for hepatoblast differentiation of human iPS cells |
| Q46399626 | FGF signaling segregates biliary cell-lineage from chick hepatoblasts cooperatively with BMP4 and ECM components in vitro. |
| Q36406406 | FGF2 mediates hepatic progenitor cell formation during human pluripotent stem cell differentiation by inducing the WNT antagonist NKD1. |
| Q34236560 | Factors from human embryonic stem cell-derived fibroblast-like cells promote topology-dependent hepatic differentiation in primate embryonic and induced pluripotent stem cells |
| Q35098326 | Fibroblast growth factor enriches the embryonic liver cultures for hepatic progenitors |
| Q46047037 | Formation of the digestive system in zebrafish. I. Liver morphogenesis |
| Q35914420 | Four and a Half LIM Domains 1b (Fhl1b) Is Essential for Regulating the Liver versus Pancreas Fate Decision and for β-Cell Regeneration |
| Q30485544 | Four-dimensional realistic modeling of pancreatic organogenesis |
| Q35029643 | From endoderm formation to liver and pancreas development in zebrafish |
| Q90577023 | Function of BMP4 in the Formation of Vasculogenic Mimicry in Hepatocellular Carcinoma |
| Q33355646 | GATA4 and GATA5 are essential for heart and liver development in Xenopus embryos |
| Q28594766 | GATA4 is essential for formation of the proepicardium and regulates cardiogenesis |
| Q28508819 | GATA6 is essential for embryonic development of the liver but dispensable for early heart formation |
| Q38020117 | Generating cells of the gastrointestinal system: current approaches and applications for the differentiation of human pluripotent stem cells |
| Q37756278 | Generating hepatic cell lineages from pluripotent stem cells for drug toxicity screening |
| Q37341344 | Generation and regeneration of cells of the liver and pancreas |
| Q82478083 | Generation of Adipose Stromal Cell-Derived Hepatic Cells |
| Q38023060 | Generation of beta cells from human pluripotent stem cells: Potential for regenerative medicine |
| Q38264448 | Generation of functional hepatic cells from pluripotent stem cells |
| Q50500746 | Generation of functional hepatocyte-like cells from human deciduous periodontal ligament stem cells. |
| Q43243201 | Generation of homogeneous PDX1(+) pancreatic progenitors from human ES cell-derived endoderm cells |
| Q90639886 | Generation of qualified clinical-grade functional hepatocytes from human embryonic stem cells in chemically defined conditions |
| Q33938401 | Genetic interaction between Bmp2 and Bmp4 reveals shared functions during multiple aspects of mouse organogenesis |
| Q34768753 | Genetic programming of liver and pancreas progenitors: lessons for stem-cell differentiation |
| Q42775802 | Genomic integration of Wnt/β-catenin and BMP/Smad1 signaling coordinates foregut and hindgut transcriptional programs. |
| Q33239134 | Global gene expression analyses of hematopoietic stem cell-like cell lines with inducible Lhx2 expression. |
| Q45950325 | Hedgehog signal activation coordinates proliferation and differentiation of fetal liver progenitor cells. |
| Q36967679 | Hedgehog signaling in development and homeostasis of the gastrointestinal tract |
| Q39255426 | Hepatic differentiation of human embryonic stem cells on growth factor-containing surfaces |
| Q34088893 | Hepatocyte differentiation: from the endoderm and beyond |
| Q36972087 | Hepatocyte polarity |
| Q28505706 | Hex homeobox gene controls the transition of the endoderm to a pseudostratified, cell emergent epithelium for liver bud development |
| Q35192045 | High efficient differentiation of functional hepatocytes from porcine induced pluripotent stem cells |
| Q34157222 | Highly efficient generation of human hepatocyte-like cells from induced pluripotent stem cells |
| Q36376016 | Histology atlas of the developing mouse hepatobiliary system with emphasis on embryonic days 9.5-18.5. |
| Q33658734 | Human embryonic and rat adult stem cells with primitive endoderm-like phenotype can be fated to definitive endoderm, and finally hepatocyte-like cells |
| Q52658323 | Human pluripotent stem cell derived HLC transcriptome data enables molecular dissection of hepatogenesis. |
| Q33856252 | Hypoxia-inducible factor 2 alpha is essential for hepatic outgrowth and functions via the regulation of leg1 transcription in the zebrafish embryo |
| Q40891867 | Id2a is required for hepatic outgrowth during liver development in zebrafish. |
| Q39832111 | Identification of an ancient Bmp4 mesoderm enhancer located 46 kb from the promoter |
| Q41694163 | Identification of hub genes involved in the development of hepatocellular carcinoma by transcriptome sequencing |
| Q81344210 | Immunohistochemical analyses of cell-cell interactions during hepatic organoid formation from fetal mouse liver cells cultured in vitro |
| Q44462975 | Immunohistochemical localization of nanog and Oct4 in stem cell compartments of human sacrococcygeal teratomas |
| Q42467548 | Immunolocalization of extracellular matrix components and integrins during mouse liver development |
| Q44547162 | Impaired differentiation of fetal hepatocytes in homozygous jumonji mice |
| Q38062883 | Implication of hepatic stem cells in functional liver repopulation |
| Q75209471 | In vitro differentiation of embryonic stem cells into hepatocytes |
| Q37790656 | Inducing the liver: Understanding the signals that promote murine liver budding |
| Q39106301 | Induction of Pax3 gene expression impedes cardiac differentiation. |
| Q52101039 | Induction of hepatic differentiation in embryonic stem cells by co-culture with embryonic cardiac mesoderm. |
| Q90685529 | Intriguing Roles for Endothelial ADAM10/Notch Signaling in the Development of Organ-Specific Vascular Beds |
| Q38291493 | Iterative use of nuclear receptor Nr5a2 regulates multiple stages of liver and pancreas development |
| Q81319033 | Kinetics of albumin- and alpha-fetoprotein-production during rat liver development |
| Q64062739 | Liver Specification in the Absence of Cardiac Differentiation Revealed by Differential Sensitivity to Wnt/β Catenin Pathway Activation |
| Q37524738 | Liver development in zebrafish (Danio rerio). |
| Q37695098 | Liver development, regeneration, and carcinogenesis |
| Q91841337 | Liver diseases in the dish: iPSC and organoids as a new approach to modeling liver diseases |
| Q37358938 | Liver stem cells and hepatocellular carcinoma |
| Q43148137 | Liver stem cells and molecular signaling pathways in hepatocellular carcinoma |
| Q36382298 | Liver stem cells and prospects for liver reconstitution by transplanted cells |
| Q37827017 | Liver stem/progenitor cells: their characteristics and regulatory mechanisms |
| Q35930935 | Liver-Enriched Gene 1, a Glycosylated Secretory Protein, Binds to FGFR and Mediates an Anti-stress Pathway to Protect Liver Development in Zebrafish |
| Q39196881 | Making It New Again: Insight Into Liver Development, Regeneration, and Disease From Zebrafish Research |
| Q33518508 | Maternal and zygotic aldh1a2 activity is required for pancreas development in zebrafish |
| Q39151720 | Mechanisms of embryonic stomach development |
| Q43811728 | Mesenchymal progenitor cells in mouse foetal liver regulate differentiation and proliferation of hepatoblasts |
| Q45995605 | Mesodermal Wnt2b signalling positively regulates liver specification. |
| Q38038648 | MicroRNAs in pancreas development |
| Q33932547 | Microarray comparison of the gene expression profiles in the adult vs. embryonic day 14 rat liver |
| Q104130449 | Midline morphogenesis of zebrafish foregut endoderm is dependent on Hoxb5b |
| Q28585145 | Mind bomb 1 is required for pancreatic β-cell formation |
| Q37676601 | Model systems and experimental conditions that lead to effective repopulation of the liver by transplanted cells |
| Q36787582 | Molecular mechanism of liver development and regeneration |
| Q38116918 | Molecular mechanisms of liver and bile duct development |
| Q38022406 | Molecular pathways controlling pancreas induction |
| Q91854141 | Molecular regulation of mammalian hepatic architecture |
| Q38553312 | Morphogen-related therapeutic targets for liver fibrosis |
| Q43102632 | Morphogenesis of chicken liver: identification of localized growth zones and the role of beta-catenin/Wnt in size regulation |
| Q28591482 | Mouse Mix gene is activated early during differentiation of ES and F9 stem cells and induces endoderm in frog embryos |
| Q36730975 | Multiple roles for Med12 in vertebrate endoderm development. |
| Q28585515 | Myocardin-related transcription factor B is required for normal mouse vascular development and smooth muscle gene expression |
| Q91203079 | Mypt1 regulates Bmp signaling to promote embryonic exocrine pancreas growth in zebrafish |
| Q41542898 | Mypt1-mediated spatial positioning of Bmp2-producing cells is essential for liver organogenesis |
| Q37366907 | NFAT4 deficiency results in incomplete liver regeneration following partial hepatectomy |
| Q30499859 | Neuron navigator 3a regulates liver organogenesis during zebrafish embryogenesis. |
| Q40131672 | Neurturin-GFRalpha2 signaling controls liver bud migration along the ductus venosus in the chick embryo. |
| Q53509563 | New primary culture systems to study the differentiation and proliferation of mouse fetal hepatoblasts. |
| Q34998404 | New school in liver development: lessons from zebrafish |
| Q92542959 | Next-Generation Liver Medicine Using Organoid Models |
| Q37234161 | On the origin of the beta cell |
| Q37986563 | Ontogenesis of hepatic and pancreatic stem cells |
| Q35791195 | Orchestrating liver development |
| Q38197503 | Orchestration of hepatocellular carcinoma development by diverse liver cancer stem cells |
| Q38882518 | Organoids from adult liver and pancreas: Stem cell biology and biomedical utility |
| Q37596305 | Pancreas cell fate |
| Q37845287 | Pancreas organogenesis: from bud to plexus to gland |
| Q38843538 | Paracrine signals from liver sinusoidal endothelium regulate hepatitis C virus replication |
| Q47218053 | Patterning of the hepato-pancreatobiliary boundary by BMP reveals heterogeneity within the murine liver bud. |
| Q34850028 | Pediatric liver tumors and hepatic ontogenesis: common and distinctive pathways |
| Q37333323 | Pioneer factors, genetic competence, and inductive signaling: programming liver and pancreas progenitors from the endoderm |
| Q51843012 | Precocious expression of cardiac troponin T in early chick embryos is independent of bone morphogenetic protein signaling. |
| Q39640477 | Production of Functional Glucagon-Secreting α-Cells From Human Embryonic Stem Cells |
| Q35018029 | Progenitor cells of the biliary epithelial cell lineage |
| Q51852702 | Progress in stem cell biology in regenerative medicine for liver disease. |
| Q34417663 | Prolonged FGF signaling is necessary for lung and liver induction in Xenopus |
| Q41529199 | Proper BMP Signaling Levels Are Essential for 3D Assembly of Hepatic Cords from Hepatoblasts and Mesenchymal Cells. |
| Q51953700 | Prospero-related homeobox 1 and liver receptor homolog 1 coordinately regulate long-term proliferation of murine fetal hepatoblasts. |
| Q37735157 | Prostaglandin E2 regulates liver versus pancreas cell-fate decisions and endodermal outgrowth. |
| Q44154968 | Prox1 is an early specific marker for the developing liver and pancreas in the mammalian foregut endoderm |
| Q36969132 | Rargb regulates organ laterality in a zebrafish model of right atrial isomerism. |
| Q50628619 | Real time monitoring of BMP Smads transcriptional activity during mouse development. |
| Q37878871 | Recent advances in stem cell research for the treatment of diabetes |
| Q26825664 | Recent developments in β-cell differentiation of pluripotent stem cells induced by small and large molecules |
| Q39136966 | Regenerative Medicine and the Biliary Tree |
| Q47824547 | Regulation of Hex gene expression and initial stages of avian hepatogenesis by Bmp and Fgf signaling. |
| Q24307591 | Regulation of Hex gene expression by a Smads-dependent signaling pathway |
| Q34718150 | Regulatory phases of early liver development: paradigms of organogenesis |
| Q42073503 | Restriction of hepatic competence by Fgf signaling |
| Q28511721 | Retinoic acid regulates morphogenesis and patterning of posterior foregut derivatives |
| Q45029443 | Retinoic acid selectively regulates Fgf10 expression and maintains cell identity in the prospective lung field of the developing foregut |
| Q44936362 | Retinoic acid signaling is essential for pancreas development and promotes endocrine at the expense of exocrine cell differentiation in Xenopus |
| Q33466026 | Retinoic acid signaling organizes endodermal organ specification along the entire antero-posterior axis |
| Q44408462 | Role for growth factors and extracellular matrix in controlling differentiation of prospectively isolated hepatic stem cells |
| Q92542899 | Role of FGF10/FGFR2b Signaling in Mouse Digestive Tract Development, Repair and Regeneration Following Injury |
| Q35029661 | Role of endothelial cells in early pancreas and liver development |
| Q50788157 | Simulated microgravity promoted differentiation of bipotential murine oval liver stem cells by modulating BMP4/Notch1 signaling. |
| Q90671502 | Single-cell transcriptomic analyses reveal distinct dorsal/ventral pancreatic programs |
| Q39556581 | Sizzled-tolloid interactions maintain foregut progenitors by regulating fibronectin-dependent BMP signaling |
| Q37764509 | Smooth muscle differentiation and patterning in the urinary bladder |
| Q39602274 | Stage-specific signaling through TGFβ family members and WNT regulates patterning and pancreatic specification of human pluripotent stem cells. |
| Q34626511 | Stem cells in the adult pancreas and liver |
| Q33801245 | Stem cells, cell transplantation and liver repopulation |
| Q33666887 | Suppression of Alk8-mediated Bmp signaling cell-autonomously induces pancreatic beta-cells in zebrafish |
| Q26821978 | Targeting the Wnt pathways for therapies |
| Q51891763 | The "self-similarity logic" applied to the development of the vascular system. |
| Q37677914 | The Fox genes in the liver: from organogenesis to functional integration |
| Q34723542 | The GATA family (vertebrates and invertebrates). |
| Q28513470 | The Onecut transcription factors HNF-6/OC-1 and OC-2 regulate early liver expansion by controlling hepatoblast migration |
| Q28066412 | The Role of Mesothelial Cells in Liver Development, Injury, and Regeneration |
| Q50559743 | The advancement of human pluripotent stem cell-derived therapies into the clinic. |
| Q34287984 | The existence of multipotent stem cells with epithelial-mesenchymal transition features in the human liver bud. |
| Q48275367 | The fate of the vitelline and umbilical veins during the development of the human liver |
| Q39753807 | The homeobox gene Hex regulates hepatocyte differentiation from embryonic stem cell-derived endoderm |
| Q33967786 | The mitochondrial import gene tomm22 is specifically required for hepatocyte survival and provides a liver regeneration model |
| Q36234233 | The molecular basis and prospects in pancreatic development |
| Q38140492 | The road to regenerative liver therapies: the triumphs, trials and tribulations |
| Q37769458 | The role of mesodermal signals during liver organogenesis in zebrafish |
| Q34565292 | The role of progenitor cells in repair of liver injury and in liver transplantation |
| Q42175777 | The septum transversum mesenchyme induces gall bladder development |
| Q57150366 | The use of human pluripotent stem cells for modelling liver development and disease |
| Q51987715 | Tim2 is expressed in mouse fetal hepatocytes and regulates their differentiation. |
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