{"PubmedArticle":{"MedlineCitation":{"@attributes":{"Status":"MEDLINE","Owner":"NLM","IndexingMethod":"Manual"},"PMID":{"@attributes":{"Version":"1"},"@text":"20152183"},"DateCompleted":{"Year":"2010","Month":"03","Day":"19"},"DateRevised":{"Year":"2021","Month":"10","Day":"20"},"Article":{"@attributes":{"PubModel":"Print"},"Journal":{"ISSN":{"@attributes":{"IssnType":"Electronic"},"@text":"1878-1551"},"JournalIssue":{"@attributes":{"CitedMedium":"Internet"},"Volume":"18","Issue":"1","PubDate":{"Year":"2010","Month":"Jan","Day":"19"}},"Title":"Developmental cell","ISOAbbreviation":"Dev Cell"},"ArticleTitle":"dFezf\/Earmuff maintains the restricted developmental potential of intermediate neural progenitors in Drosophila.","Pagination":{"StartPage":"126","EndPage":"135","MedlinePgn":"126-35"},"ELocationID":[{"@attributes":{"EIdType":"doi","ValidYN":"Y"},"@text":"10.1016\/j.devcel.2009.12.007"}],"Abstract":{"AbstractText":["To ensure normal development and maintenance of homeostasis, the extensive developmental potential of stem cells must be functionally distinguished from the limited developmental potential of transit amplifying cells. Yet the mechanisms that restrict the developmental potential of transit amplifying cells are poorly understood. Here we show that the evolutionarily conserved transcription factor dFezf\/Earmuff (Erm) functions cell-autonomously to maintain the restricted developmental potential of the intermediate neural progenitors generated by type II neuroblasts in Drosophila larval brains. Although erm mutant intermediate neural progenitors are correctly specified and show normal apical-basal cortical polarity, they can dedifferentiate back into a neuroblast state, functionally indistinguishable from normal type II neuroblasts. Erm restricts the potential of intermediate neural progenitors by activating Prospero to limit proliferation and by antagonizing Notch signaling to prevent dedifferentiation. We conclude that Erm dependence functionally distinguishes intermediate neural progenitors from neuroblasts in the Drosophila larval brain, balancing neurogenesis with stem cell maintenance."],"CopyrightInformation":"(c) 2010 Elsevier Inc. All rights reserved."},"AuthorList":{"@attributes":{"CompleteYN":"Y"},"Author":[{"@attributes":{"ValidYN":"Y"},"LastName":"Weng","ForeName":"Mo","Initials":"M","AffiliationInfo":[{"Affiliation":"Department of Cell and Developmental Biology, University of Michigan Medical School, Ann Arbor, MI, USA."}]},{"@attributes":{"ValidYN":"Y"},"LastName":"Golden","ForeName":"Krista L","Initials":"KL"},{"@attributes":{"ValidYN":"Y"},"LastName":"Lee","ForeName":"Cheng-Yu","Initials":"CY"}]},"Language":["eng"],"GrantList":{"@attributes":{"CompleteYN":"Y"},"Grant":[{"GrantID":"R01 GM092818","Acronym":"GM","Agency":"NIGMS NIH HHS","Country":"United States"}]},"PublicationTypeList":{"PublicationType":[{"@attributes":{"UI":"D016428"},"@text":"Journal Article"},{"@attributes":{"UI":"D013485"},"@text":"Research Support, Non-U.S. Gov't"}]}},"MedlineJournalInfo":{"Country":"United States","MedlineTA":"Dev Cell","NlmUniqueID":"101120028","ISSNLinking":"1534-5807"},"ChemicalList":{"Chemical":[{"RegistryNumber":"0","NameOfSubstance":{"@attributes":{"UI":"D002352"},"@text":"Carrier Proteins"}},{"RegistryNumber":"0","NameOfSubstance":{"@attributes":{"UI":"D029721"},"@text":"Drosophila Proteins"}},{"RegistryNumber":"0","NameOfSubstance":{"@attributes":{"UI":"C497759"},"@text":"N protein, Drosophila"}},{"RegistryNumber":"0","NameOfSubstance":{"@attributes":{"UI":"D009419"},"@text":"Nerve Tissue Proteins"}},{"RegistryNumber":"0","NameOfSubstance":{"@attributes":{"UI":"D009687"},"@text":"Nuclear Proteins"}},{"RegistryNumber":"0","NameOfSubstance":{"@attributes":{"UI":"D051880"},"@text":"Receptors, Notch"}},{"RegistryNumber":"0","NameOfSubstance":{"@attributes":{"UI":"D014157"},"@text":"Transcription Factors"}},{"RegistryNumber":"0","NameOfSubstance":{"@attributes":{"UI":"D029961"},"@text":"Zebrafish Proteins"}},{"RegistryNumber":"0","NameOfSubstance":{"@attributes":{"UI":"C547809"},"@text":"erm protein, Drosophila"}},{"RegistryNumber":"0","NameOfSubstance":{"@attributes":{"UI":"C418489"},"@text":"fezf2 protein, zebrafish"}},{"RegistryNumber":"0","NameOfSubstance":{"@attributes":{"UI":"C073099"},"@text":"pros protein, Drosophila"}}]},"CitationSubset":["IM"],"MeshHeadingList":{"MeshHeading":[{"DescriptorName":{"@attributes":{"UI":"D000818","MajorTopicYN":"N"},"@text":"Animals"}},{"DescriptorName":{"@attributes":{"UI":"D002352","MajorTopicYN":"N"},"@text":"Carrier Proteins"},"QualifierName":[{"@attributes":{"UI":"Q000235","MajorTopicYN":"N"},"@text":"genetics"},{"@attributes":{"UI":"Q000378","MajorTopicYN":"N"},"@text":"metabolism"}]},{"DescriptorName":{"@attributes":{"UI":"D002454","MajorTopicYN":"N"},"@text":"Cell Differentiation"},"QualifierName":[{"@attributes":{"UI":"Q000502","MajorTopicYN":"N"},"@text":"physiology"}]},{"DescriptorName":{"@attributes":{"UI":"D019070","MajorTopicYN":"N"},"@text":"Cell Lineage"},"QualifierName":[{"@attributes":{"UI":"Q000502","MajorTopicYN":"N"},"@text":"physiology"}]},{"DescriptorName":{"@attributes":{"UI":"D016764","MajorTopicYN":"N"},"@text":"Cell Polarity"},"QualifierName":[{"@attributes":{"UI":"Q000502","MajorTopicYN":"N"},"@text":"physiology"}]},{"DescriptorName":{"@attributes":{"UI":"D049109","MajorTopicYN":"N"},"@text":"Cell Proliferation"}},{"DescriptorName":{"@attributes":{"UI":"D004330","MajorTopicYN":"N"},"@text":"Drosophila"},"QualifierName":[{"@attributes":{"UI":"Q000166","MajorTopicYN":"N"},"@text":"cytology"},{"@attributes":{"UI":"Q000196","MajorTopicYN":"Y"},"@text":"embryology"}]},{"DescriptorName":{"@attributes":{"UI":"D029721","MajorTopicYN":"N"},"@text":"Drosophila Proteins"},"QualifierName":[{"@attributes":{"UI":"Q000235","MajorTopicYN":"N"},"@text":"genetics"},{"@attributes":{"UI":"Q000378","MajorTopicYN":"Y"},"@text":"metabolism"}]},{"DescriptorName":{"@attributes":{"UI":"D018507","MajorTopicYN":"N"},"@text":"Gene Expression Regulation, Developmental"},"QualifierName":[{"@attributes":{"UI":"Q000502","MajorTopicYN":"N"},"@text":"physiology"}]},{"DescriptorName":{"@attributes":{"UI":"D007814","MajorTopicYN":"N"},"@text":"Larva"},"QualifierName":[{"@attributes":{"UI":"Q000166","MajorTopicYN":"N"},"@text":"cytology"},{"@attributes":{"UI":"Q000254","MajorTopicYN":"N"},"@text":"growth & development"}]},{"DescriptorName":{"@attributes":{"UI":"D009419","MajorTopicYN":"N"},"@text":"Nerve Tissue Proteins"},"QualifierName":[{"@attributes":{"UI":"Q000235","MajorTopicYN":"N"},"@text":"genetics"},{"@attributes":{"UI":"Q000378","MajorTopicYN":"N"},"@text":"metabolism"}]},{"DescriptorName":{"@attributes":{"UI":"D009420","MajorTopicYN":"N"},"@text":"Nervous System"},"QualifierName":[{"@attributes":{"UI":"Q000166","MajorTopicYN":"N"},"@text":"cytology"},{"@attributes":{"UI":"Q000196","MajorTopicYN":"Y"},"@text":"embryology"}]},{"DescriptorName":{"@attributes":{"UI":"D055495","MajorTopicYN":"N"},"@text":"Neurogenesis"},"QualifierName":[{"@attributes":{"UI":"Q000502","MajorTopicYN":"Y"},"@text":"physiology"}]},{"DescriptorName":{"@attributes":{"UI":"D009474","MajorTopicYN":"N"},"@text":"Neurons"},"QualifierName":[{"@attributes":{"UI":"Q000166","MajorTopicYN":"N"},"@text":"cytology"},{"@attributes":{"UI":"Q000378","MajorTopicYN":"Y"},"@text":"metabolism"}]},{"DescriptorName":{"@attributes":{"UI":"D009687","MajorTopicYN":"N"},"@text":"Nuclear Proteins"},"QualifierName":[{"@attributes":{"UI":"Q000235","MajorTopicYN":"N"},"@text":"genetics"},{"@attributes":{"UI":"Q000378","MajorTopicYN":"N"},"@text":"metabolism"}]},{"DescriptorName":{"@attributes":{"UI":"D051880","MajorTopicYN":"N"},"@text":"Receptors, Notch"},"QualifierName":[{"@attributes":{"UI":"Q000235","MajorTopicYN":"N"},"@text":"genetics"},{"@attributes":{"UI":"Q000378","MajorTopicYN":"N"},"@text":"metabolism"}]},{"DescriptorName":{"@attributes":{"UI":"D013234","MajorTopicYN":"N"},"@text":"Stem Cells"},"QualifierName":[{"@attributes":{"UI":"Q000166","MajorTopicYN":"N"},"@text":"cytology"},{"@attributes":{"UI":"Q000378","MajorTopicYN":"Y"},"@text":"metabolism"}]},{"DescriptorName":{"@attributes":{"UI":"D014157","MajorTopicYN":"N"},"@text":"Transcription Factors"},"QualifierName":[{"@attributes":{"UI":"Q000235","MajorTopicYN":"N"},"@text":"genetics"},{"@attributes":{"UI":"Q000378","MajorTopicYN":"Y"},"@text":"metabolism"}]},{"DescriptorName":{"@attributes":{"UI":"D029961","MajorTopicYN":"N"},"@text":"Zebrafish Proteins"},"QualifierName":[{"@attributes":{"UI":"Q000235","MajorTopicYN":"N"},"@text":"genetics"},{"@attributes":{"UI":"Q000378","MajorTopicYN":"N"},"@text":"metabolism"}]},{"DescriptorName":{"@attributes":{"UI":"D016335","MajorTopicYN":"N"},"@text":"Zinc Fingers"},"QualifierName":[{"@attributes":{"UI":"Q000235","MajorTopicYN":"N"},"@text":"genetics"}]}]}},"PubmedData":{"History":{"PubMedPubDate":[{"@attributes":{"PubStatus":"received"},"Year":"2009","Month":"3","Day":"27"},{"@attributes":{"PubStatus":"revised"},"Year":"2009","Month":"8","Day":"21"},{"@attributes":{"PubStatus":"accepted"},"Year":"2009","Month":"12","Day":"7"},{"@attributes":{"PubStatus":"entrez"},"Year":"2010","Month":"2","Day":"16","Hour":"6","Minute":"0"},{"@attributes":{"PubStatus":"pubmed"},"Year":"2010","Month":"2","Day":"16","Hour":"6","Minute":"0"},{"@attributes":{"PubStatus":"medline"},"Year":"2010","Month":"3","Day":"20","Hour":"6","Minute":"0"},{"@attributes":{"PubStatus":"pmc-release"},"Year":"2019","Month":"8","Day":"19"}]},"PublicationStatus":"ppublish","ArticleIdList":{"ArticleId":[{"@attributes":{"IdType":"pubmed"},"@text":"20152183"},{"@attributes":{"IdType":"mid"},"@text":"NIHMS877127"},{"@attributes":{"IdType":"pmc"},"@text":"PMC6699514"},{"@attributes":{"IdType":"doi"},"@text":"10.1016\/j.devcel.2009.12.007"},{"@attributes":{"IdType":"pii"},"@text":"S1534-5807(09)00524-3"}]},"ReferenceList":[{"Reference":[{"Citation":"Bello BC, Izergina N, Caussinus E, and Reichert H (2008). Amplification of neural stem cell proliferation by intermediate progenitor cells in Drosophila brain development. Neural Dev. 3, 5.","ArticleIdList":{"ArticleId":[{"@attributes":{"IdType":"pmc"},"@text":"PMC2265709"},{"@attributes":{"IdType":"pubmed"},"@text":"18284664"}]}},{"Citation":"Betschinger J, Mechtler K, and Knoblich JA (2006). Asymmetric segregation of the tumor suppressor Brat regulates self-renewal in Drosophila<\/i> neural stem cells. Cell\n124, 1241\u20131253.","ArticleIdList":{"ArticleId":[{"@attributes":{"IdType":"pubmed"},"@text":"16564014"}]}},{"Citation":"Boone JQ, and Doe CQ (2008). Identification of Drosophila type II neuroblast lineages containing transit amplifying ganglion mother cells. Dev. Neuro-biol 68, 1185\u20131195.","ArticleIdList":{"ArticleId":[{"@attributes":{"IdType":"pmc"},"@text":"PMC2804867"},{"@attributes":{"IdType":"pubmed"},"@text":"18548484"}]}},{"Citation":"Bowman SK, Rolland V, Betschinger J, Kinsey KA, Emery G, and Kno-blich JA (2008). The tumor suppressors Brat and Numb regulate transiamplifying neuroblast lineages in Drosophila<\/i>. Dev. Cell\n14, 535\u2013546.","ArticleIdList":{"ArticleId":[{"@attributes":{"IdType":"pmc"},"@text":"PMC2988195"},{"@attributes":{"IdType":"pubmed"},"@text":"18342578"}]}},{"Citation":"Brand AH, and Perrimon N (1993). Targeted gene expression as a means of altering cell fates and generating dominant phenotypes. Development 118, 401\u2013415.","ArticleIdList":{"ArticleId":[{"@attributes":{"IdType":"pubmed"},"@text":"8223268"}]}},{"Citation":"Chintapalli VR, Wang J, and Dow JAT (2007). Using FlyAtlas to identify better Drosophila models of human disease. Nat. Genet. 39, 715\u2013720.","ArticleIdList":{"ArticleId":[{"@attributes":{"IdType":"pubmed"},"@text":"17534367"}]}},{"Citation":"Choksi SP, Southall TD, Bossing T, Edoff K, deWit E, Fischer BE, van Steensel B, Micklem G, and Brand AH (2006). Prospero acts as a binary switch between self-renewal and differentiation in Drosophila<\/i> neural stem cells. Dev. Cell\n11, 775\u2013789.","ArticleIdList":{"ArticleId":[{"@attributes":{"IdType":"pubmed"},"@text":"17141154"}]}},{"Citation":"Cinnamon E, and Paroush Z (2008). Context-dependent regulation of Groucho\/TLE-mediated repression. Curr. Opin. Genet. Dev. 18, 435\u2013440.","ArticleIdList":{"ArticleId":[{"@attributes":{"IdType":"pubmed"},"@text":"18721877"}]}},{"Citation":"Copley RR (2005). The EH1 motif in metazoan transcription factors. BMC Genomics 6, 169.","ArticleIdList":{"ArticleId":[{"@attributes":{"IdType":"pmc"},"@text":"PMC1310626"},{"@attributes":{"IdType":"pubmed"},"@text":"16309560"}]}},{"Citation":"Doe CQ, Chu-LaGraff Q, Wright DM, and Scott MP (1991). The prospero<\/i> gene specifies cell fates in the Drosophila<\/i> central nervous system. Cell\n65, 451\u2013464.","ArticleIdList":{"ArticleId":[{"@attributes":{"IdType":"pubmed"},"@text":"1673362"}]}},{"Citation":"Farkas LM, Haffner C, Giger T, Khaitovich P, Nowick K, Birchmeier C, P\u00e4\u00e4bo S, and Huttner WB (2008). Insulinoma-associated 1 has a panneurogenic role and promotes the generation and expansion of basal progenitors in the developing mouse neocortex. Neuron 60, 40\u201355.","ArticleIdList":{"ArticleId":[{"@attributes":{"IdType":"pubmed"},"@text":"18940587"}]}},{"Citation":"Hashimoto H, Yabe T, Hirata T, Shimizu T, Bae Y, Yamanaka Y, Hirano T, and Hibi M (2000). Expression of the zinc finger gene fez-like<\/i> in zebrafish forebrain. Mech. Dev. 97, 191\u2013195.","ArticleIdList":{"ArticleId":[{"@attributes":{"IdType":"pubmed"},"@text":"11025224"}]}},{"Citation":"Hirata J, Nakagoshi H, Nabeshima Y, and Matsuzaki F (1995). Asymmetric segregation of the homeodomain protein Prospero during Drosophila development. Nature 377, 627\u2013630.","ArticleIdList":{"ArticleId":[{"@attributes":{"IdType":"pubmed"},"@text":"7566173"}]}},{"Citation":"Hodge RD, Kowalczyk TD, Wolf SA, Encinas JM, Rippey C, Enikolopov G, Kempermann G, and Hevner RF (2008). Intermediate progenitors in adult hippocampal neurogenesis: Tbr2 expression and coordinate regulation of neuronal output. J. Neurosci. 28, 3707\u20133717.","ArticleIdList":{"ArticleId":[{"@attributes":{"IdType":"pmc"},"@text":"PMC6671086"},{"@attributes":{"IdType":"pubmed"},"@text":"18385329"}]}},{"Citation":"Ikeshima-Kataoka H, Skeath JB, Nabeshima Y, Doe CQ, and Matsuzaki F (1997). Miranda directs Prospero to a daughter cell during Drosophila asymmetric divisions. Nature 390, 625\u2013629.","ArticleIdList":{"ArticleId":[{"@attributes":{"IdType":"pubmed"},"@text":"9403694"}]}},{"Citation":"Jeong JY, Einhorn Z, Mercurio S, Lee S, Lau B, Mione M, Wilson SW, and Guo S (2006). Neurogenin1 is a determinant of zebrafish basal forebrain dopaminergic neurons and is regulated by the conserved zinc finger protein Tof\/Fezl. Proc. Natl. Acad. Sci. USA 103, 5143\u20135148.","ArticleIdList":{"ArticleId":[{"@attributes":{"IdType":"pmc"},"@text":"PMC1458808"},{"@attributes":{"IdType":"pubmed"},"@text":"16549779"}]}},{"Citation":"Lee T, and Luo L (2001). Mosaic analysis with a repressible cell marker (MARCM) for Drosophila neural development. Trends Neurosci. 24, 251\u2013254.","ArticleIdList":{"ArticleId":[{"@attributes":{"IdType":"pubmed"},"@text":"11311363"}]}},{"Citation":"Lee CY, Andersen RO, Cabernard C, Manning L, Tran KD, Lanskey MJ, Bashirullah A, and Doe CQ (2006a). Drosophila Aurora-A kinase inhibits neuroblast self-renewal by regulating aPKC\/Numb cortical polarityand spindle orientation. Genes Dev. 20, 3464\u20133474.","ArticleIdList":{"ArticleId":[{"@attributes":{"IdType":"pmc"},"@text":"PMC1698452"},{"@attributes":{"IdType":"pubmed"},"@text":"17182871"}]}},{"Citation":"Lee CY, Robinson KJ, and Doe CQ (2006b). Lgl, Pins and aPKC regulate neuroblast self-renewal versus differentiation. Nature 439, 594\u2013598.","ArticleIdList":{"ArticleId":[{"@attributes":{"IdType":"pubmed"},"@text":"16357871"}]}},{"Citation":"Lee CY, Wilkinson BD, Siegrist SE, Wharton RP, and Doe CQ (2006c). Brat is a Miranda cargo protein that promotes neuronal differentiation and inhibits neuroblast self-renewal. Dev. Cell 10, 441\u2013449.","ArticleIdList":{"ArticleId":[{"@attributes":{"IdType":"pubmed"},"@text":"16549393"}]}},{"Citation":"Levkowitz G, Zeller J, Sirotkin HI, French D, Schilbach S, Hashimoto H, Hibi M, Talbot WS, and Rosenthal A (2003). Zinc finger protein too few controls the development of monoaminergic neurons. Nat. Neurosci. 6, 28\u201333.","ArticleIdList":{"ArticleId":[{"@attributes":{"IdType":"pubmed"},"@text":"12469125"}]}},{"Citation":"Matsuo-Takasaki M, Lim JH, Beanan MJ, Sato SM, and Sargent TD (2000). Cloning and expression of a novel zinc finger gene, Fez, transcribed in the forebrain of Xenopus and mouse embryos. Mech. Dev. 93, 201\u2013204.","ArticleIdList":{"ArticleId":[{"@attributes":{"IdType":"pubmed"},"@text":"10781957"}]}},{"Citation":"Maurange C, Cheng L, and Gould AP (2008). Temporal transcription factors and their targets schedule the end of neural proliferation in Drosophila<\/i>. Cell\n133, 891\u2013902.","ArticleIdList":{"ArticleId":[{"@attributes":{"IdType":"pubmed"},"@text":"18510932"}]}},{"Citation":"Morrison SJ, and Kimble J (2006). Asymmetric and symmetric stem-cell divisions in development and cancer. Nature 441, 1068\u20131074.","ArticleIdList":{"ArticleId":[{"@attributes":{"IdType":"pubmed"},"@text":"16810241"}]}},{"Citation":"Parks AL, Cook KR, Belvin M, Dompe NA, Fawcett R, Huppert K, Tan LR, Winter CG, Bogart KP, Deal JE, et al. (2004). Systematic generation of high-resolution deletion coverage of the Drosophila melanogaster genome. Nat. Genet. 36, 288\u2013292.","ArticleIdList":{"ArticleId":[{"@attributes":{"IdType":"pubmed"},"@text":"14981519"}]}},{"Citation":"Pereanu W, Shy D, and Hartenstein V (2005). Morphogenesis and proliferation of the larval brain glia in Drosophila. Dev. Biol. 283, 191\u2013203.","ArticleIdList":{"ArticleId":[{"@attributes":{"IdType":"pubmed"},"@text":"15907832"}]}},{"Citation":"Pfeiffer BD, Jenett A, Hammonds AS, Ngo TT, Misra S, Murphy C, Scully A, Carlson JW, Wan KH, Laverty TR, et al. (2008). Tools for neuroanatomy and neurogenetics in Drosophila. Proc. Natl. Acad. Sci. USA 105, 9715\u20139720.","ArticleIdList":{"ArticleId":[{"@attributes":{"IdType":"pmc"},"@text":"PMC2447866"},{"@attributes":{"IdType":"pubmed"},"@text":"18621688"}]}},{"Citation":"Pontious A, Kowalczyk T, Englund C, and Hevner RF (2008). Role of intermediate progenitor cells in cerebral cortex development. Dev. Neurosci. 30, 24\u201332.","ArticleIdList":{"ArticleId":[{"@attributes":{"IdType":"pubmed"},"@text":"18075251"}]}},{"Citation":"Sessa A, Mao CA, Hadjantonakis AK, Klein WH, and Broccoli V (2008). Tbr2 directs conversion of radial glia into basal precursors and guides neuronal amplification by indirect neurogenesis in the developing neocortex. Neuron 60, 56\u201369.","ArticleIdList":{"ArticleId":[{"@attributes":{"IdType":"pmc"},"@text":"PMC2887762"},{"@attributes":{"IdType":"pubmed"},"@text":"18940588"}]}},{"Citation":"Shen CP, Jan LY, and Jan YN (1997). Miranda is required for the asymmetric localization of Prospero during mitosis in Drosophila. Cell 90, 449\u2013458.","ArticleIdList":{"ArticleId":[{"@attributes":{"IdType":"pubmed"},"@text":"9267025"}]}},{"Citation":"Shimizu T, and Hibi M (2009). Formation and patterning of the forebrain and olfactory system by zinc-finger genes Fezf1 and Fezf2. Dev. Growth Differ. 51, 221\u2013231.","ArticleIdList":{"ArticleId":[{"@attributes":{"IdType":"pubmed"},"@text":"19222525"}]}},{"Citation":"Vescovi AL, Galli R, and Reynolds BA (2006). Brain tumour stem cells. Nat. Rev. Cancer 6, 425\u2013436.","ArticleIdList":{"ArticleId":[{"@attributes":{"IdType":"pubmed"},"@text":"16723989"}]}},{"Citation":"Wang H, Somers GW, Bashirullah A, Heberlein U, Yu F, and Chia W (2006). Aurora-A acts as a tumor suppressor and regulates self-renewal of Drosophila neuroblasts. Genes Dev. 20, 3453\u20133463.","ArticleIdList":{"ArticleId":[{"@attributes":{"IdType":"pmc"},"@text":"PMC1698451"},{"@attributes":{"IdType":"pubmed"},"@text":"17182870"}]}},{"Citation":"Zhu S, Lin S, Kao CF, Awasaki T, Chiang AS, and Lee T (2006). Gradients of the Drosophila<\/i> Chinmo BTB-zinc finger protein govern neuronal temporal identity. Cell\n127, 409\u2013422.","ArticleIdList":{"ArticleId":[{"@attributes":{"IdType":"pubmed"},"@text":"17055440"}]}}]}]}}}