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TRIM21-dependent target protein ubiquitination mediates cell-free Trim-Away. , Mevissen TET , Prasad AV , Walter JC ., Cell Rep. February 28, 2023; 42 (2): 112125.
The atypical mitogen-activated protein kinase ERK3 is essential for establishment of epithelial architecture. , Takahashi C , Miyatake K, Kusakabe M , Nishida E ., J Biol Chem. June 1, 2018; 293 (22): 8342-8361.
Efficient high-throughput sequencing of a laser microdissected chromosome arm. , Seifertova E, Zimmerman LB , Gilchrist MJ , Macha J, Kubickova S, Cernohorska H, Zarsky V, Owens ND, Sesay AK, Tlapakova T , Krylov V ., BMC Genomics. May 28, 2013; 14 357.
Implication of the SMN complex in the biogenesis and steady state level of the signal recognition particle. , Piazzon N, Schlotter F, Lefebvre S, Dodré M, Méreau A, Soret J, Besse A, Barkats M, Bordonné R, Branlant C, Massenet S., Nucleic Acids Res. January 1, 2013; 41 (2): 1255-72.
Selective regulation of maize plasma membrane aquaporin trafficking and activity by the SNARE SYP121. , Besserer A, Burnotte E, Bienert GP, Chevalier AS, Errachid A, Grefen C, Blatt MR, Chaumont F., Plant Cell. August 1, 2012; 24 (8): 3463-81.
A genetic map of Xenopus tropicalis. , Wells DE, Gutierrez L, Xu Z, Krylov V , Macha J , Blankenburg KP, Hitchens M, Bellot LJ, Spivey M, Stemple DL , Kowis A, Ye Y, Pasternak S, Owen J, Tran T, Slavikova R, Tumova L, Tlapakova T , Seifertova E, Scherer SE, Sater AK ., Dev Biol. June 1, 2011; 354 (1): 1-8.
Genome duplications within the Xenopodinae do not increase the multiplicity of antimicrobial peptides in Silurana paratropicalis and Xenopus andrei skin secretions. , Mechkarska M, Eman A, Coquet L, Jérôme L, Jouenne T, Vaudry H, King JD , Takada K, Conlon JM., Comp Biochem Physiol Part D Genomics Proteomics. June 1, 2011; 6 (2): 206-12.
Characterization of the PL-I-related SP2 protein from Xenopus. , Frehlick LJ, Prado A, Calestagne-Morelli A, Ausió J., Biochemistry. November 6, 2007; 46 (44): 12700-8.
Selective mobility and sensitivity to SNAREs is exhibited by the Arabidopsis KAT1 K+ channel at the plasma membrane. , Sutter JU, Campanoni P, Tyrrell M, Blatt MR., Plant Cell. April 1, 2006; 18 (4): 935-54.
The Xenopus B2 factor involved in TFIIIA gene regulation is closely related to Sp1 and interacts in a complex with USF. , Penberthy WT, Griffin D, Hall RK, Taylor WL ., Gene. February 27, 2003; 305 (2): 205-15.
Synergistic activation of ENaC by three membrane-bound channel-activating serine proteases (mCAP1, mCAP2, and mCAP3) and serum- and glucocorticoid-regulated kinase ( Sgk1) in Xenopus Oocytes. , Vuagniaux G, Vallet V, Jaeger NF, Hummler E, Rossier BC., J Gen Physiol. August 1, 2002; 120 (2): 191-201.
Gemin4. A novel component of the SMN complex that is found in both gems and nucleoli. , Charroux B, Pellizzoni L, Perkinson RA, Yong J, Shevchenko A, Mann M, Dreyfuss G., J Cell Biol. March 20, 2000; 148 (6): 1177-86.
Naturally occurring analogs of lysophosphatidic acid elicit different cellular responses through selective activation of multiple receptor subtypes. , Fischer DJ, Liliom K, Guo Z, Nusser N, Virág T, Murakami-Murofushi K, Kobayashi S, Erickson JR, Sun G , Miller DD, Tigyi G., Mol Pharmacol. December 1, 1998; 54 (6): 979-88.
Xenopus laevis sperm proteins, previously identified as surface proteins with egg coat binding capability, are indeed histone H4, histone H3, and sperm specific protein SP2. , Bernardini G, Donne ID, Norreri S, Negri A, Milzani A., J Exp Zool. August 15, 1992; 263 (2): 210-4.
Synthesis of sperm-specific basic nuclear proteins ( SPs) in cultured spermatids from Xenopus laevis. , Abé S, Hiyoshi H., Exp Cell Res. May 1, 1991; 194 (1): 90-4.
Nuclear Basic Proteins of Xenopus laevis Sperm: Their Characterization and Synthesis during Spermatogenesis: (Nuclear basic proteins/Cell separation/Spermatogenesis/Xenopus laevis). , Yokota T, Takamune K , Katagiri C., Dev Growth Differ. February 1, 1991; 33 (1): 9-17.
Monoclonal antibodies to mitotic cells. , Davis FM, Tsao TY, Fowler SK, Rao PN., Proc Natl Acad Sci U S A. May 1, 1983; 80 (10): 2926-30.