Publications

Found 20 results
Author Title [ Type(Asc)] Year
Filters: Keyword is Transcription Factors  [Clear All Filters]
Journal Article
Heid PJ, Raich WB, Smith R, Mohler WA, Simokat K, Gendreau SB, Rothman JH, Hardin J.  2001.  The zinc finger protein DIE-1 is required for late events during epithelial cell rearrangement in C. elegans.. Dev Biol. 236(1):165-80.
Maduro MF, Kasmir JJ, Zhu J, Rothman JH.  2005.  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.
Kaltenbach L, Horner MA, Rothman JH, Mango SE.  2000.  The TBP-like factor CeTLF is required to activate RNA polymerase II transcription during C. elegans embryogenesis.. Mol Cell. 6(3):705-13.
Ferguson KC, Heid PJ, Rothman JH.  1996.  The SL1 trans-spliced leader RNA performs an essential embryonic function in Caenorhabditis elegans that can also be supplied by SL2 RNA.. Genes Dev. 10(12):1543-56.
Maduro MF, Meneghini MD, Bowerman B, Broitman-Maduro G, Rothman JH.  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.
Zhu J, Fukushige T, McGhee JD, Rothman JH.  1998.  Reprogramming of early embryonic blastomeres into endodermal progenitors by a Caenorhabditis elegans GATA factor.. Genes Dev. 12(24):3809-14.
Broitman-Maduro G, Maduro MF, Rothman JH.  2005.  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.
Ewe CKiang, Cleuren YNTorres, Flowers SE, Alok G, Snell RG, Rothman JH.  2020.  Natural cryptic variation in epigenetic modulation of an embryonic gene regulatory network.. Proc Natl Acad Sci U S A. 117(24):13637-13646.
Spickard EA, Joshi PM, Rothman JH.  2018.  The multipotency-to-commitment transition in Caenorhabditis elegans-implications for reprogramming from cells to organs.. FEBS Lett. 592(6):838-851.
Maduro MF, Broitman-Maduro G, Mengarelli I, Rothman JH.  2007.  Maternal deployment of the embryonic SKN-1-->MED-1,2 cell specification pathway in C. elegans.. Dev Biol. 301(2):590-601.
Maduro MF, Hill RJ, Heid PJ, Newman-Smith ED, Zhu J, Priess JR, Rothman JH.  2005.  Genetic redundancy in endoderm specification within the genus Caenorhabditis.. Dev Biol. 284(2):509-22.
Ewe CKiang, Sommermann EM, Kenchel J, Flowers SE, Maduro MF, Joshi PM, Rothman JH.  2022.  Feedforward regulatory logic controls the specification-to-differentiation transition and terminal cell fate during Caenorhabditis elegans endoderm development.. Development. 149(12)
Cleuren YNTorres, Ewe CKiang, Chipman KC, Mears ER, Wood CG, Al-Alami CEmma Alma, Alcorn MR, Turner TL, Joshi PM, Snell RG et al..  2019.  Extensive intraspecies cryptic variation in an ancient embryonic gene regulatory network.. Elife. 8
Zhu J, Hill RJ, Heid PJ, Fukuyama M, Sugimoto A, Priess JR, Rothman JH.  1997.  end-1 encodes an apparent GATA factor that specifies the endoderm precursor in Caenorhabditis elegans embryos.. Genes Dev. 11(21):2883-96.
Koh K, Rothman JH.  2001.  ELT-5 and ELT-6 are required continuously to regulate epidermal seam cell differentiation and cell fusion in C. elegans.. Development. 128(15):2867-80.
Maduro MF, Lin R, Rothman JH.  2002.  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.
Walker AK, Rothman JH, Shi Y, Blackwell TK.  2001.  Distinct requirements for C.elegans TAF(II)s in early embryonic transcription.. EMBO J. 20(18):5269-79.
Koh K, Peyrot SM, Wood CG, Wagmaister JA, Maduro MF, Eisenmann DM, Rothman JH.  2002.  Cell fates and fusion in the C. elegans vulval primordium are regulated by the EGL-18 and ELT-6 GATA factors -- apparent direct targets of the LIN-39 Hox protein.. Development. 129(22):5171-80.
Witze ES, Field ED, Hunt DF, Rothman JH.  2009.  C. elegans pur alpha, an activator of end-1, synergizes with the Wnt pathway to specify endoderm.. Dev Biol. 327(1):12-23.
Shoichet SA, Malik TH, Rothman JH, Shivdasani RA.  2000.  Action of the Caenorhabditis elegans GATA factor END-1 in Xenopus suggests that similar mechanisms initiate endoderm development in ecdysozoa and vertebrates.. Proc Natl Acad Sci U S A. 97(8):4076-81.