mastermind

Ayoub, A. E., Dominguez, M. H., Benoit, J., Ortega, J. A., Radonjic, N., Zecevic, N. and Rakic, P. (2019). Coordination of neuron production in mouse and human cerebral cortex by the homolog of Drosophila Mastermind protein. Brain Behav Evol 93(2-3): 152-165. PubMed ID: 31416089

Bettler, D., Schmid, A. and Yedvobnick, B. (1991). Early ventral expression of the Drosophila neurogenic locus mastermind. Dev. Biol. 144(2): 436-9. PubMed Citation: 1901287

Bettler, D., Pearson, S. and Yedvobnick, B. (1996). The nuclear protein encoded by the Drosophila neurogenic gene mastermind is widely expressed and associates with specific chromosomal regions. Genetics 143(2): 859-875. PubMed Citation: 8725234

Brand, M. and Campos-Ortega, J.A. (1988). Two groups of interrelated genes regulate early neurogenesis in Drosophila melanogaster. Roux Arch. dev. Biol. 197: 457-470.

Buescher, M., et al. (1998). Binary sibling neuronal cell fate decisions in the Drosophila embryonic central nervous system are nonstochastic and require inscuteable-mediated asymmetry of ganglion mother cells. Genes Dev. 12(12): 1858-1870. PubMed Citation: 9637687

Cave, J. W., Loh, F., Surpris, J. W., Xia, L. and Caudy, M. A. (2005). A DNA transcription code for cell-specific gene activation by notch signaling. Curr. Biol. 15(2): 94-104. 15668164

Endo, K., Aoki, T., Yoda, Y., Kimura, K. and Hama, C. (2007). Notch signal organizes the Drosophila olfactory circuitry by diversifying the sensory neuronal lineages. Nat. Neurosci. 10(2): 153-60. Medline abstract: 17220884

Fortini, M.E. and Artavanis-Tsakonas, S. (1994). The suppressor of Hairless protein participates in Notch receptor signaling. Cell 79: 273-282. PubMed Citation: 7954795

Fryer, C. J., et al. (2002). Mastermind mediates chromatin-specific transcription and turnover of the Notch enhancer complex. Genes Dev. 16: 1397-1411. 12050117

Fryer, C. J., White, J. B. and Jones, K. A. (2004). Mastermind recruits CycC:CDK8 to phosphorylate the Notch ICD and coordinate activation with turnover. Mol. Cell 16: 509-520. PubMed Citation: 15546612

Galindo, K. A., Endicott, T. R., Avirneni-Vadlamudi, U. and Galindo, R. L. (2014). A rapid one-generation genetic screen in a Drosophila model to capture rhabdomyosarcoma effectors and therapeutic targets. G3 (Bethesda) 5(2):205-17. PubMed ID: 25491943

Gause, M., Eissenberg, J. C., Macrae, A. F., Dorsett, M., Misulovin, Z., Dorsett, D. (2006). Nipped-A, the Tra1/TRRAP subunit of the Drosophila SAGA and Tip60 complexes, has multiple roles in Notch signaling during wing development. Mol. Cell. Biol. 26(6): 2347-59. 16508010

Giraldez, A. J. Perez, L. and Cohen, S. M. (2002). A naturally occurring alternative product of the mastermind locus that represses Notch signaling. Mech. Dev. 115: 101-105. 12049771

Go, M. J. and Artavanis-Tsakonas, S. (1998). A genetic screen for novel components of the Notch signaling pathway during Drosophila bristle development. Genetics 150(1): 211-220. PubMed Citation: 9725840

Hartenstein, A.Y., Rugendorff, A., Tepass, U. and Hartenstein, V. (1992). The function of the neurogenic genes during epithelial development in the Drosophila embryo. Development 116(4): 1203-20. PubMed Citation: 1295737

Helms, W., et al. (1999). Engineered truncations in the Drosophila Mastermind protein disrupt Notch pathway function. Dev. Biol. 215(2): 358-374. PubMed Citation: 10545243

Jagla, T., et al. (1998). ladybird determines cell fate decisions during diversification of Drosophila somatic muscles. Development 125(18): 3699-3708. PubMed Citation: 9716535

Janody, F. and Treisman, J. E. (2011). Requirements for mediator complex subunits distinguish three classes of notch target genes at the Drosophila wing margin. Dev. Dyn. 240(9): 2051-9. PubMed Citation: 21793099

Kitagawa, M., et al. (2001). A human protein with sequence similarity to Drosophila mastermind coordinates the nuclear form of notch and a CSL protein to build a transcriptional activator complex on target promoters. Mol. Cell. Biol. 21(13): 4337-46. 11390662

Kovalick, G.E. and Beckingham, K. (1992). Calmodulin transcription is limited to the nervous system during Drosophila embryogenesis. Dev. Biol. 150(1): 33-46. PubMed Citation: 1537435

Lamar, E., et al. (2001). Nrarp is a novel intracellular component of the Notch signaling pathway. Genes Dev. 15: 1885-1899. 11485984

Lieber, T., et al. (1993). Antineurogenic phenotypes induced by truncated Notch proteins indicate a role in signal transduction and may point to a novel function for Notch in nuclei. Genes Dev. 7: 1949-1965. PubMed Citation: 8406001

Maier, D., Kurth, P., Schulz, A., Russell, A., Yuan, Z., Gruber, K., Kovall, R. A. and Preiss, A. (2011), Structural and functional analysis of the repressor complex in the Notch signaling pathway of Drosophila melanogaster. Mol. Biol. Cell 22(17): 3242-52. PubMed Citation: 21737682

Martin-Bermudo, M.D., Carmena, M. and Jimenez, F. (1995). Neurogenic genes control gene expression at the transcriptional level in early neurogenesis and in mesectoderm specification. Development 121: 219-224. PubMed Citation: 7867503

McElhinny, A. S., Li, J. L. and Wu, L. (2008). Mastermind-like transcriptional co-activators: emerging roles in regulating cross talk among multiple signaling pathways. Oncogene 27: 5138-5147. PubMed Citation: 18758483

Morcillo, P., Rosen, C. and Dorsett, D. (1996). Genes regulating the remote wing margin enhancer in the Drosophila cut locus. Genetics 144(3): 1143-1154. PubMed Citation: 8913756

Morcillo, P., et al. (1997). Chip, a widely expressed chromosomal protein required for segmentation and activity of a remote wing margin enhancer in Drosophila. Genes Dev. 11(20):2729-2740. PubMed Citation: 9334334

Muroyama, Y., Baba, A., Kitagawa, M. and Saito, T. (2016). Olfactory Sensory Neurons Control Dendritic Complexity of Mitral Cells via Notch Signaling. PLoS Genet 12(12): e1006514. PubMed ID: 28027303

Nam, Y., Sliz, P., Song, L., Aster, J. C. and Blacklow, S. C. (2006). Structural basis for cooperativity in recruitment of MAML coactivators to Notch transcription complexes. Cell 124(5): 973-83. 16530044

Nam, Y., et al. (2007). Cooperative assembly of higher-order Notch complexes functions as a switch to induce transcription. Proc. Natl. Acad. Sci. 104: 2103-2108. Medline abstract: 17284587

Newfeld, S.J., Smoller, D.A. and Yedvobnick, B. (1991). Interspecific comparison of the unusually repetitive Drosophila locus mastermind. J. Mol. Evol. 32(5): 415-20. PubMed Citation: 1904096

Nicholson, S. C., Nicolay, B. N., Frolov, M. V. and Moberg, K. H. (2011). Notch-dependent expression of the archipelago ubiquitin ligase subunit in the Drosophila eye. Development 138(2): 251-60. PubMed Citation: 21148181

Oyama, T., et al. (2011). Mastermind-like 1 (MamL1) and mastermind-like 3 (MamL3) are essential for Notch signaling in vivo. Development 138(23): 5235-46. PubMed Citation: 22069191

Peng, C.-Y., et al. (2007). Notch and MAML signaling drives Scl-dependent interneuron diversity in the spinal cord. Neuron 53: 813-827. Medline abstract: 17359917

Petcherski, A. G. and Kimble, J. (2000). Mastermind is a putative activator for Notch. Curr. Biol. 10: R471-R473. PubMed Citation: 10898989

Prout, M., et al. (1997). Autosomal mutations affecting adhesion between wing surfaces in Drosophila melanogaster. Genetics 146(1): 275-285. PubMed Citation: 9136017

Rusconi, J. C. and Corbin, V. (1999). A widespread and early requirement for a novel Notch function during Drosophila embryogenesis. Dev. Biol. 215(2): 388-398. PubMed Citation: 10545245

Schuldt, A. J. and Brand, A. H. (1999). Mastermind acts downstream of Notch to specify neuronal cell fates in the Drosophila central nervous system. Dev. Biol. 205(2): 287-295. PubMed Citation: 9917364

Skeath, J. B. and Doe, C. Q. (1998). Sanpodo and Notch act in opposition to Numb to distinguish sibling neuron fates in the Drosophila CNS. Development 125: 1857-1865. PubMed Citation: 9550718

Smoller, D.A., Friedel, C., Schmid, A., Bettler, D., Lam, L. and Yedvobnick, B. (1990). The Drosophila neurogenic locus mastermind encodes a nuclear protein unusually rich in amino acid homopolymers. Genes & Dev. 4(10): 1688-1700. PubMed Citation: 1701150

Udolph, G., Rath, P. and Chia, W. (2001). A requirement for Notch in the genesis of a subset of glial cells in the Drosophila embryonic central nervous system which arise through asymmetric divisions. Development 128: 1457-1466. 11262244

Vasquez-Del Carpio, R. et al. (2011). Assembly of a Notch transcriptional activation complex requires multimerization. Mol. Cell Biol. 31(7): 1396-408. PubMed Citation: 21245387

Vied, C. and Kalderon, D. (2009). Hedgehog-stimulated stem cells depend on non-canonical activity of the Notch co-activator Mastermind. Development 136(13): 2177-86. PubMed Citation: 19474148

Wilson, J. J. and Kovall, R. A. (2006). Crystal structure of the CSL-Notch-Mastermind ternary complex bound to DNA. Cell 124(5): 985-96. 16530045

Wu, L., et al. (2000). MAML1, a human homologue of Drosophila mastermind, is a transcriptional co-activator for NOTCH receptors. Nat. Genet. 26(4): 484-9. 11101851

Yedvobnick, B., et al. (2004). Differential effects of Drosophila Mastermind on asymmetric cell fate specification and neuroblast formation. Genetics 166: 1281-1289. 15082547

Zhang, Y., Wheatley, R., Fulkerson, E., Tapp, A. and Estes, P. A. (2011). Mastermind mutations generate a unique constellation of midline cells within the Drosophila CNS. PLoS One 6(10): e26197. PubMed Citation: 22046261

date revised: 20 February 2017

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