Genetic manipulation of AML1-ETO-induced expansion of hematopoietic precursors in a Drosophila model
about
Drosophila blood as a model system for stress sensing mechanismsGenetic dissection of leukemia-associated IDH1 and IDH2 mutants and D-2-hydroxyglutarate in Drosophila.Oxidative stress in the haematopoietic niche regulates the cellular immune response in Drosophila.Myeloid leukemia factor is a conserved regulator of RUNX transcription factor activity involved in hematopoiesis.Normal Hematopoietic Progenitor Subsets Have Distinct Reactive Oxygen Species, BCL2 and Cell-Cycle Profiles That Are Decoupled from Maturation in Acute Myeloid LeukemiaRUNX1 and RUNX1-ETO: roles in hematopoiesis and leukemogenesis.Macrophages and cellular immunity in Drosophila melanogasterDrosophila as a model for the two myeloid blood cell systems in vertebrates.Drosophila as a model to study the role of blood cells in inflammation, innate immunity and cancer.Variation of NimC1 expression in Drosophila stocks and transgenic strains.Molecular pathogenesis of core binding factor leukemia: current knowledge and future prospects.Drosophila: a model for studying genetic and molecular aspects of haematopoiesis and associated leukaemiasCell lines.Drosophila hematopoiesis: Markers and methods for molecular genetic analysis.Pontin is a critical regulator for AML1-ETO-induced leukemia.Importance of gene dosage in controlling dendritic arbor formation during development.Drosophila hematopoiesis under normal conditions and in response to immune stress.Antihematotoxic Role of Bunium persicum Seed Differential Extracts in Animal Model: Reactive Oxygen Species Might Be a Contributor.Acute myeloid leukemia with the t(8;21) translocation: clinical consequences and biological implications.ETV6/RUNX1 induces reactive oxygen species and drives the accumulation of DNA damage in B cells.Notch cooperates with Lozenge/Runx to lock haemocytes into a differentiation programme.Old and new prognostic factors in acute myeloid leukemia with deranged core-binding factor beta.RUNX1-ETO Leukemia.
P2860
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
P248
Q26827120-86A2ABFA-410B-4C22-AA97-14F773042809Q34876800-E641415E-D618-4B70-9C85-B7FC49197465Q35634677-857D4DB8-6E58-4B19-8602-81937A30982CQ35882592-D055B818-A875-4003-BD29-7AFBB668DFD2Q36144842-6F3A2FF8-990B-4740-AD7C-43923F54A7C5Q36206674-9DF6BE32-188E-4E0C-A978-4597B6D055C4Q37234530-454B3C55-7830-407E-A474-353AF2F6AF56Q37235632-450CE4D2-D167-4117-BCD1-5168555266B6Q37453657-308511B9-E32E-4FD8-A591-4489EBE3DB22Q37496227-A1DB1708-ED44-4B40-A286-F0A09FE942C7Q37871413-7989B7A5-AF8E-4A2C-B0BC-F8DE16524024Q37888956-70073F5B-DAA3-42C6-B169-4D794147A8ABQ38179201-E611606B-A953-4B60-AB90-5B98E33D371DQ38194816-FF44EBFB-08A1-4A2A-A45C-9C8FDBBD53C7Q38310344-E84342F9-8929-440C-AC79-065B527672F6Q38537122-9B53A45B-5D46-47DB-8152-4E3ABD2C4775Q38907838-3347BE6C-AAB5-4E0F-BC31-D7BA792738C9Q41850802-ED359C20-8534-4B57-8F20-906B7B97D052Q41973082-8709BC09-BE52-49DB-84B7-46FE02788AA0Q42821539-AFC4F479-6E1D-4005-A071-1AC6273DFBC4Q43055867-C0F70CB8-6031-4405-8A44-D8B42C921CFCQ51039848-ACE42F0D-89CC-4E8B-AE89-E633DF710426Q51097627-1579A8B3-64D0-4946-B5C6-F9E69E10240F
P2860
Genetic manipulation of AML1-ETO-induced expansion of hematopoietic precursors in a Drosophila model
description
2010 nî lūn-bûn
@nan
2010 թուականի Օգոստոսին հրատարակուած գիտական յօդուած
@hyw
2010 թվականի օգոստոսին հրատարակված գիտական հոդված
@hy
2010年の論文
@ja
2010年論文
@yue
2010年論文
@zh-hant
2010年論文
@zh-hk
2010年論文
@zh-mo
2010年論文
@zh-tw
2010年论文
@wuu
name
Genetic manipulation of AML1-E ...... ecursors in a Drosophila model
@ast
Genetic manipulation of AML1-E ...... ecursors in a Drosophila model
@en
Genetic manipulation of AML1-E ...... ecursors in a Drosophila model
@nl
type
label
Genetic manipulation of AML1-E ...... ecursors in a Drosophila model
@ast
Genetic manipulation of AML1-E ...... ecursors in a Drosophila model
@en
Genetic manipulation of AML1-E ...... ecursors in a Drosophila model
@nl
prefLabel
Genetic manipulation of AML1-E ...... ecursors in a Drosophila model
@ast
Genetic manipulation of AML1-E ...... ecursors in a Drosophila model
@en
Genetic manipulation of AML1-E ...... ecursors in a Drosophila model
@nl
P2093
P2860
P1433
P1476
Genetic manipulation of AML1-E ...... ecursors in a Drosophila model
@en
P2093
Nancy A Speck
Quynh-Minh Tran
Sohrab Sidhu
Tatiana Moroz
Utpal Banerjee
P2860
P304
P356
10.1182/BLOOD-2010-03-276998
P407
P577
2010-08-05T00:00:00Z