Publications
Found 31 results
Author Title [ Type] Year Filters: First Letter Of Last Name is M [Clear All Filters]
The zinc finger protein DIE-1 is required for late events during epithelial cell rearrangement in C. elegans.. Dev Biol. 236(1):165-80.
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2001. The Wnt effector POP-1 and the PAL-1/Caudal homeoprotein collaborate with SKN-1 to activate C. elegans endoderm development.. Dev Biol. 285(2):510-23.
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2005. The TBP-like factor CeTLF is required to activate RNA polymerase II transcription during C. elegans embryogenesis.. Mol Cell. 6(3):705-13.
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2000. Restriction of mesendoderm to a single blastomere by the combined action of SKN-1 and a GSK-3beta homolog is mediated by MED-1 and -2 in C. elegans.. Mol Cell. 7(3):475-85.
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2001. Restriction of mesendoderm to a single blastomere by the combined action of SKN-1 and a GSK-3beta homolog is mediated by MED-1 and -2 in C. elegans.. Mol Cell. 7(3):475-85.
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2001. Reprogramming of early embryonic blastomeres into endodermal progenitors by a Caenorhabditis elegans GATA factor.. Genes Dev. 12(24):3809-14.
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1998. Repression of cell-cell fusion by components of the C. elegans vacuolar ATPase complex.. Dev Cell. 8(5):787-94.
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2005. Quantitating transcription factor redundancy: The relative roles of the ELT-2 and ELT-7 GATA factors in the C. elegans endoderm.. Dev Biol. 435(2):150-161.
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2018. The potential to differentiate epidermis is unequally distributed in the AB lineage during early embryonic development in C. elegans.. Dev Biol. 166(2):770-81.
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1994. The noncanonical binding site of the MED-1 GATA factor defines differentially regulated target genes in the C. elegans mesendoderm.. Dev Cell. 8(3):427-33.
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2005. Nitrilase and Fhit homologs are encoded as fusion proteins in Drosophila melanogaster and Caenorhabditis elegans.. Proc Natl Acad Sci U S A. 95(15):8744-9.
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1998. Maternal deployment of the embryonic SKN-1-->MED-1,2 cell specification pathway in C. elegans.. Dev Biol. 301(2):590-601.
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2007. Maternal deployment of the embryonic SKN-1-->MED-1,2 cell specification pathway in C. elegans.. Dev Biol. 301(2):590-601.
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2007. Making worm guts: the gene regulatory network of the Caenorhabditis elegans endoderm.. Dev Biol. 246(1):68-85.
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2002. lin-12 and glp-1 are required zygotically for early embryonic cellular interactions and are regulated by maternal GLP-1 signaling in Caenorhabditis elegans.. Development. 122(12):4105-17.
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1996. Interstellar space biology via Project Starlight. Acta Astronautica. 190:261–272.
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2022. Interstellar space biology via Project Starlight. Acta Astronautica. 190:261–272.
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2022. Improving Academic Performance, Belonging, and Retention through Increasing Structure of an Introductory Biology Course.. CBE Life Sci Educ.. 18(4):ar53.
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2019. Genetic redundancy in endoderm specification within the genus Caenorhabditis.. Dev Biol. 284(2):509-22.
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2005. Feedforward regulatory logic controls the specification-to-differentiation transition and terminal cell fate during Caenorhabditis elegans endoderm development.. Development. 149(12)
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2022. .
2019. Endoderm development in Caenorhabditis elegans: the synergistic action of ELT-2 and -7 mediates the specification→differentiation transition.. Dev Biol. 347(1):154-66.
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2010. Early C. elegans embryos modulate cell division timing to compensate for, and survive, the discordant conditions of a severe temperature gradient. BioRxiv. (https://doi.org/10.1101/2020.06.02.128694)
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2020. Dynamics of a developmental switch: recursive intracellular and intranuclear redistribution of Caenorhabditis elegans POP-1 parallels Wnt-inhibited transcriptional repression.. Dev Biol. 248(1):128-42.
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2002. Cytokinesis and midzone microtubule organization in Caenorhabditis elegans require the kinesin-like protein ZEN-4.. Mol Biol Cell. 9(8):2037-49.
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