| scholarly article | Q13442814 |
| P50 | author | Paola Braghetta | Q57077971 |
| P2093 | author name string | Francesco Argenton | |
| Marino Bortolussi | |||
| Enrico Moro | |||
| Lara Gnügge | |||
| P2860 | cites work | Loss of Cdk4 expression causes insulin-deficient diabetes and Cdk4 activation results in beta-islet cell hyperplasia | Q28143642 |
| Function and regulation of zebrafish nkx2.2a during development of pancreatic islet and ducts | Q28291296 | ||
| Adult pancreatic beta-cells are formed by self-duplication rather than stem-cell differentiation | Q29614736 | ||
| Analysis of pancreatic development in living transgenic zebrafish embryos. | Q30671084 | ||
| All beta cells contribute equally to islet growth and maintenance | Q33286067 | ||
| Targeting of an inducible toxic phenotype in animal cells | Q33654882 | ||
| Formation of the digestive system in zebrafish. II. Pancreas morphogenesis. | Q34225514 | ||
| Factors controlling pancreatic cell differentiation and function. | Q34398818 | ||
| her5 expression reveals a pool of neural stem cells in the adult zebrafish midbrain | Q34573657 | ||
| Beta cells can be generated from endogenous progenitors in injured adult mouse pancreas | Q34744604 | ||
| Pituitary tumor transforming gene-null male mice exhibit impaired pancreatic beta cell proliferation and diabetes | Q34870283 | ||
| From endoderm formation to liver and pancreas development in zebrafish | Q35029643 | ||
| The pancreatic ductal epithelium serves as a potential pool of progenitor cells | Q35985286 | ||
| Growth factors and beta cell replication. | Q36259876 | ||
| Molecular control of cell cycle progression in the pancreatic beta-cell | Q36459964 | ||
| Are there pancreatic progenitor cells from which new islets form after birth? | Q36577005 | ||
| beta-cell failure in diabetes and preservation by clinical treatment | Q36757992 | ||
| Beta-cell replacement and regeneration: Strategies of cell-based therapy for type 1 diabetes mellitus. | Q36940215 | ||
| Carbonic anhydrase II-positive pancreatic cells are progenitors for both endocrine and exocrine pancreas after birth | Q37018928 | ||
| Weighing up beta-cell mass in mice and humans: self-renewal, progenitors or stem cells? | Q37152263 | ||
| Distinct delta and jagged genes control sequential segregation of pancreatic cell types from precursor pools in zebrafish. | Q38308266 | ||
| Intra-endodermal interactions are required for pancreatic beta cell induction. | Q38622943 | ||
| Graded levels of Ptf1a differentially regulate endocrine and exocrine fates in the developing pancreas. | Q38947817 | ||
| Beta cell replication is the primary mechanism for maintaining postnatal beta cell mass. | Q40051311 | ||
| Herpes simplex virus thymidine kinase-green fluorescent protein fusion gene: new tool for gene transfer studies and gene therapy | Q41035157 | ||
| Ganciclovir | Q41095563 | ||
| Targeted ablation of beta cells in the embryonic zebrafish pancreas using E. coli nitroreductase | Q41853648 | ||
| Recovery from diabetes in mice by beta cell regeneration | Q42408079 | ||
| Experimental autoimmune encephalomyelitis repressed by microglial paralysis. | Q45235066 | ||
| Conditional targeted cell ablation in zebrafish: a new tool for regeneration studies | Q46051134 | ||
| Very slow turnover of beta-cells in aged adult mice | Q46670100 | ||
| Cdx4 is required in the endoderm to localize the pancreas and limit beta-cell number | Q46782358 | ||
| Beta-cell differentiation from nonendocrine epithelial cells of the adult human pancreas. | Q46853965 | ||
| Evolutionary conserved role of ptf1a in the specification of exocrine pancreatic fates | Q47073386 | ||
| Zebrafish pdx1 morphant displays defects in pancreas development and digestive organ chirality, and potentially identifies a multipotent pancreas progenitor cell | Q47074102 | ||
| Pancreas development in zebrafish: early dispersed appearance of endocrine hormone expressing cells and their convergence to form the definitive islet | Q47074218 | ||
| Early appearance of pancreatic hormone-expressing cells in the zebrafish embryo | Q47926977 | ||
| Pancreatic islet progenitor cells in neurogenin 3-yellow fluorescent protein knock-add-on mice. | Q50994954 | ||
| Measurement of pancreatic islet cell proliferation by heavy water labeling. | Q53531769 | ||
| Growth and regeneration of adult beta cells does not involve specialized progenitors. | Q53554508 | ||
| Gap junctions: the "kiss of death" and the "kiss of life" | Q73635223 | ||
| Islet neogenesis: a potential therapeutic tool in type 1 diabetes | Q83139869 | ||
| P433 | issue | 2 | |
| P407 | language of work or name | English | Q1860 |
| P304 | page(s) | 299-308 | |
| P577 | publication date | 2009-06-03 | |
| P1433 | published in | Developmental Biology | Q3025402 |
| P1476 | title | Analysis of beta cell proliferation dynamics in zebrafish | |
| P478 | volume | 332 |
| Q28817498 | A conserved bacterial protein induces pancreatic beta cell expansion during zebrafish development |
| Q49952246 | Animal models of obesity and diabetes mellitus |
| Q33903065 | Blood sugar measurement in zebrafish reveals dynamics of glucose homeostasis |
| Q40803987 | Cell type and tissue specific function of islet genes in zebrafish pancreas development |
| Q41877467 | Characterization and regulation of the hb9/mnx1 beta-cell progenitor specific enhancer in zebrafish |
| Q47554062 | In vivo imaging of emerging endocrine cells reveals a requirement for PI3K-regulated motility in pancreatic islet morphogenesis. |
| Q50220575 | Monitoring Wnt Signaling in Zebrafish Using Fluorescent Biosensors. |
| Q36249707 | Nutrient excess stimulates β-cell neogenesis in zebrafish |
| Q39649368 | Pax2 regulates a fadd-dependent molecular switch that drives tissue fusion during eye development |
| Q34060685 | Requirement for Pdx1 in specification of latent endocrine progenitors in zebrafish |
| Q36905214 | Targeted overexpression of CKI-insensitive cyclin-dependent kinase 4 increases functional β-cell number through enhanced self-replication in zebrafish |
| Q41548418 | Tcf7l2 plays pleiotropic roles in the control of glucose homeostasis, pancreas morphology, vascularization and regeneration |
| Q34428926 | Two origins of blastemal progenitors define blastemal regeneration of zebrafish lower jaw. |
| Q64065305 | Vegfa/vegfr2 signaling is necessary for zebrafish islet vessel development, but is dispensable for beta-cell and alpha-cell formation |
| Q36835590 | sept7b is required for the differentiation of pancreatic endocrine progenitors. |
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