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Germ plasm dynamics during oogenesis and early embryonic development in Xenopus and zebrafish. , Divyanshi, Yang J ., Mol Reprod Dev. December 21, 2023;
Solubility phase transition of maternal RNAs during vertebrate oocyte-to- embryo transition. , Hwang H, Chen S, Ma M, Divyanshi, Fan HC, Borwick E, Böke E , Mei W, Yang J ., Dev Cell. December 4, 2023; 58 (23): 2776-2788.e5.
RNA localization during early development of the axolotl. , Šimková K, Naraine R, Vintr J, Soukup V, Šindelka R., Front Cell Dev Biol. January 1, 2023; 11 1260795.
Maternal Wnt11b regulates cortical rotation during Xenopus axis formation: analysis of maternal-effect wnt11b mutants. , Houston DW , Elliott KL, Coppenrath K , Wlizla M , Horb ME ., Development. September 1, 2022; 149 (17):
Normal Table of Xenopus development: a new graphical resource. , Zahn N , James-Zorn C , Ponferrada VG , Adams DS , Grzymkowski J, Buchholz DR , Nascone-Yoder NM , Horb M , Moody SA , Vize PD , Zorn AM ., Development. July 15, 2022; 149 (14):
Spatio-temporal mRNA tracking in the early zebrafish embryo. , Holler K, Neuschulz A, Drewe-Boß P, Mintcheva J, Spanjaard B, Arsiè R, Ohler U, Landthaler M, Junker JP., Nat Commun. June 7, 2021; 12 (1): 3358.
Primordial Germ Cell Specification in Vertebrate Embryos: Phylogenetic Distribution and Conserved Molecular Features of Preformation and Induction. , Hansen CL , Pelegri F., Front Cell Dev Biol. January 1, 2021; 9 730332.
Novel functions of the ubiquitin-independent proteasome system in regulating Xenopus germline development. , Hwang H, Jin Z, Krishnamurthy VV, Saha A, Klein PS , Garcia B, Mei W, King ML , Zhang K, Yang J ., Development. April 23, 2019; 146 (8):
Combined functions of two RRMs in Dead-end1 mimic helicase activity to promote nanos1 translation in the germline. , Aguero T , Jin Z, Owens D , Malhotra A, Newman K, Yang J , King ML ., Mol Reprod Dev. December 1, 2018; 85 (12): 896-908.
Asymmetric distribution of biomolecules of maternal origin in the Xenopus laevis egg and their impact on the developmental plan. , Sindelka R , Abaffy P, Qu Y, Tomankova S, Sidova M, Naraine R, Kolar M, Peuchen E , Sun L, Dovichi N , Kubista M., Sci Rep. May 29, 2018; 8 (1): 8315.
Nanos3 of the frog Rana rugosa: Molecular cloning and characterization. , Kodama M, Yoshida M, Endo M, Kobayashi T, Oike A, Yasumasu S, Nakamura M., Dev Growth Differ. February 1, 2018; 60 (2): 112-120.
Maternal Dead-end 1 promotes translation of nanos1 by binding the eIF3 complex. , Aguero T , Jin Z, Chorghade S, Kalsotra A, King ML , Yang J ., Development. October 15, 2017; 144 (20): 3755-3765.
High-throughput analysis reveals novel maternal germline RNAs crucial for primordial germ cell preservation and proper migration. , Owens DA , Butler AM, Aguero TH , Newman KM, Van Booven D, King ML ., Development. January 15, 2017; 144 (2): 292-304.
Mitochondrial trafficking through Rhot1 is involved in the aggregation of germinal granule components during primordial germ cell formation in Xenopus embryos. , Tada H, Taira Y, Morichika K, Kinoshita T., Dev Growth Differ. October 1, 2016; 58 (8): 641-650.
Hermes (Rbpms) is a Critical Component of RNP Complexes that Sequester Germline RNAs during Oogenesis. , Aguero T , Zhou Y, Kloc M , Chang P, Houliston E , King ML ., J Dev Biol. March 1, 2016; 4 (1):
Maternal Dead-End1 is required for vegetal cortical microtubule assembly during Xenopus axis specification. , Mei W, Jin Z, Lai F , Schwend T , Houston DW , King ML , Yang J ., Development. June 1, 2013; 140 (11): 2334-44.
Localisation of RNAs into the germ plasm of vitellogenic Xenopus oocytes. , Nijjar S, Woodland HR ., PLoS One. January 1, 2013; 8 (4): e61847.
Protein interactions in Xenopus germ plasm RNP particles. , Nijjar S, Woodland HR ., PLoS One. January 1, 2013; 8 (11): e80077.
The many functions of mRNA localization during normal development and disease: from pillar to post. , Cody NA, Iampietro C, Lécuyer E., Wiley Interdiscip Rev Dev Biol. January 1, 2013; 2 (6): 781-96.
Analysis of localization and reorganization of germ plasm in Xenopus transgenic line with fluorescence-labeled mitochondria. , Taguchi A, Takii M, Motoishi M, Orii H, Mochii M , Watanabe K ., Dev Growth Differ. October 1, 2012; 54 (8): 767-76.
Xenopus Nanos1 is required to prevent endoderm gene expression and apoptosis in primordial germ cells. , Lai F , Singh A, King ML ., Development. April 1, 2012; 139 (8): 1476-86.
Endothelial nitric oxide synthase in the amphibian, Xenopus tropicalis. , Trajanovska S, Donald JA., Comp Biochem Physiol B Biochem Mol Biol. April 1, 2011; 158 (4): 274-81.
Xenopus germline nanos1 is translationally repressed by a novel structure-based mechanism. , Luo X, Nerlick S, An W, King ML ., Development. February 1, 2011; 138 (3): 589-98.
Nanos1 functions as a translational repressor in the Xenopus germline. , Lai F , Zhou Y, Luo X, Fox J, King ML ., Mech Dev. January 1, 2011; 128 (1-2): 153-63.
Elr-type proteins protect Xenopus Dead end mRNA from miR-18-mediated clearance in the soma. , Koebernick K, Loeber J, Arthur PK, Tarbashevich K, Pieler T ., Proc Natl Acad Sci U S A. September 14, 2010; 107 (37): 16148-53.
Identification of germ plasm-associated transcripts by microarray analysis of Xenopus vegetal cortex RNA. , Cuykendall TN , Houston DW ., Dev Dyn. June 1, 2010; 239 (6): 1838-48.
Repression of zygotic gene expression in the Xenopus germline. , Venkatarama T, Lai F , Luo X, Zhou Y, Newman K, King ML ., Development. February 1, 2010; 137 (4): 651-60.
Interactions of 40LoVe within the ribonucleoprotein complex that forms on the localization element of Xenopus Vg1 mRNA. , Kroll TT , Swenson LB, Hartland EI, Snedden DD, Goodson HV, Huber PW ., Mech Dev. July 1, 2009; 126 (7): 523-38.
Differential subcellular sequestration of proapoptotic and antiapoptotic proteins and colocalization of Bcl-x(L) with the germ plasm, in Xenopus laevis oocytes. , Kloc M , Shirato Y, Bilinski S , Browder LW , Johnston J ., Genesis. August 1, 2007; 45 (8): 523-31.
Hermes RNA-binding protein targets RNAs-encoding proteins involved in meiotic maturation, early cleavage, and germline development. , Song HW, Cauffman K, Chan AP, Zhou Y, King ML , Etkin LD , Kloc M ., Differentiation. July 1, 2007; 75 (6): 519-28.
Spatiotemporal localization of germ plasm RNAs during zebrafish oogenesis. , Kosaka K, Kawakami K, Sakamoto H, Inoue K., Mech Dev. April 1, 2007; 124 (4): 279-89.
Transition from non-motile behaviour to directed migration during early PGC development in zebrafish. , Blaser H, Eisenbeiss S, Neumann M, Reichman-Fried M, Thisse B, Thisse C, Raz E., J Cell Sci. September 1, 2005; 118 (Pt 17): 4027-38.
Delivery of germinal granules and localized RNAs via the messenger transport organizer pathway to the vegetal cortex of Xenopus oocytes occurs through directional expansion of the mitochondrial cloud. , Wilk K, Bilinski S , Dougherty MT, Kloc M ., Int J Dev Biol. January 1, 2005; 49 (1): 17-21.
Localization of RNAs to the mitochondrial cloud in Xenopus oocytes through entrapment and association with endoplasmic reticulum. , Chang P, Torres J, Lewis RA, Mowry KL , Houliston E , King ML ., Mol Biol Cell. October 1, 2004; 15 (10): 4669-81.
Sm proteins, the constituents of the spliceosome, are components of nuage and mitochondrial cement in Xenopus oocytes. , Bilinski SM , Jaglarz MK, Szymanska B, Etkin LD , Kloc M ., Exp Cell Res. September 10, 2004; 299 (1): 171-8.
A homolog of FBP2/ KSRP binds to localized mRNAs in Xenopus oocytes. , Kroll TT , Zhao WM , Jiang C, Huber PW ., Development. December 1, 2002; 129 (24): 5609-19.
A ubiquitous and conserved signal for RNA localization in chordates. , Betley JN, Frith MC, Graber JH , Choo S, Deshler JO., Curr Biol. October 15, 2002; 12 (20): 1756-61.
Three-dimensional ultrastructural analysis of RNA distribution within germinal granules of Xenopus. , Kloc M , Dougherty MT, Bilinski S , Chan AP, Brey E, King ML , Patrick CW, Etkin LD ., Dev Biol. January 1, 2002; 241 (1): 79-93.
Vegetal localization of maternal mRNAs is disrupted by VegT depletion. , Heasman J , Wessely O , Langland R, Craig EJ, Kessler DS ., Dev Biol. December 15, 2001; 240 (2): 377-86.
Biochemical identification of Xenopus Pumilio as a sequence-specific cyclin B1 mRNA-binding protein that physically interacts with a Nanos homolog, Xcat-2, and a cytoplasmic polyadenylation element-binding protein. , Nakahata S, Katsu Y, Mita K, Inoue K, Nagahama Y, Yamashita M ., J Biol Chem. June 15, 2001; 276 (24): 20945-53.
Balbiani bodies in cricket oocytes: development, ultrastructure, and presence of localized RNAs. , Bradley JT, Kloc M , Wolfe KG, Estridge BH, Bilinski SM ., Differentiation. June 1, 2001; 67 (4-5): 117-27.
Mitochondrial ribosomal RNA in the germinal granules in Xenopus embryos revisited. , Kloc M , Bilinski S , Chan AP, Etkin LD ., Differentiation. March 1, 2001; 67 (3): 80-3.
RNA localization and germ cell determination in Xenopus. , Kloc M , Bilinski S , Chan AP, Allen LH, Zearfoss NR, Etkin LD ., Int Rev Cytol. January 1, 2001; 203 63-91.
The targeting of Xcat2 mRNA to the germinal granules depends on a cis-acting germinal granule localization element within the 3'UTR. , Kloc M , Bilinski S , Pui-Yee Chan A, Etkin LD ., Dev Biol. January 15, 2000; 217 (2): 221-9.
fatvg encodes a new localized RNA that uses a 25-nucleotide element (FVLE1) to localize to the vegetal cortex of Xenopus oocytes. , Chan AP, Kloc M , Etkin LD ., Development. November 1, 1999; 126 (22): 4943-53.
Xcat2 RNA is a translationally sequestered germ plasm component in Xenopus. , MacArthur H, Bubunenko M, Houston DW , King ML ., Mech Dev. June 1, 1999; 84 (1-2): 75-88.
Contribution of METRO pathway localized molecules to the organization of the germ cell lineage. , Kloc M , Larabell C, Chan AP, Etkin LD ., Mech Dev. July 1, 1998; 75 (1-2): 81-93.
Apparent continuity between the messenger transport organizer and late RNA localization pathways during oogenesis in Xenopus. , Kloc M , Etkin LD ., Mech Dev. April 1, 1998; 73 (1): 95-106.
Expeditions to the pole: RNA localization in Xenopus and Drosophila. , Gavis ER., Trends Cell Biol. December 1, 1997; 7 (12): 485-92.
Dorsal determinants in the Xenopus egg are firmly associated with the vegetal cortex and behave like activators of the Wnt pathway. , Marikawa Y, Li Y, Elinson RP ., Dev Biol. November 1, 1997; 191 (1): 69-79.