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( Denotes literature images)
Xenopus embryos to study fetal alcohol syndrome, a model for environmental teratogenesis.
Fainsod A, Kot-Leibovich H.
Biochem Cell Biol. April 1, 2018; 96 (2): 77-87.

Xenopus laevis macrophage-like cells produce XCL-1, an intelectin family serum lectin that recognizes bacteria.
Nagata S.
Immunol Cell Biol. March 31, 2018;

Xenbase: a genomic, epigenomic and transcriptomic model organism database.
Karimi K, Fortriede JD, Lotay VS, Burns KA, Wang DZ, Fisher ME, Pells TJ, James-Zorn C, Wang Y, Ponferrada VG, Chu S, Chaturvedi P, Zorn AM, Vize PD.
Nucleic Acids Res. January 4, 2018; 46 (D1): D861-D868.

Xenopus-derived glucagon-like peptide-1 and polyethylene-glycosylated glucagon-like peptide-1 receptor agonists: long-acting hypoglycaemic and insulinotropic activities with potential therapeutic utilities.
Han J, Fei Y, Zhou F, Chen X, Zhang Y, Liu L, Fu J.
Br J Pharmacol. January 1, 2018; 175 (3): 544-557.

Xenopus: An alternative model system for identifying muco-active agents.
Sim HJ, Kim SH, Myung KJ, Kwon T, Lee HS, Park TJ.
PLoS One. January 1, 2018; 13 (2): e0193310.

Xenopus metamorphosis as a model to study thyroid hormone receptor function during vertebrate developmental transitions.
Buchholz DR.
Mol Cell Endocrinol. December 25, 2017; 459 64-70.

Xenopus and the art of oxygen maintenance.
Tattersall GJ, Burggren WW.
J Exp Biol. November 15, 2017; 220 (Pt 22): 4084-4087.

Xenopus Tadpole Tissue Harvest.
Patmann MD, Shewade LH, Schneider KA, Buchholz DR.
Cold Spring Harb Protoc. November 1, 2017; 2017 (11): pdb.prot097675.

Xenopus pitx3 target genes lhx1 and xnr5 are identified using a novel three-fluor flow cytometry-based analysis of promoter activation and repression.
Hooker LN, Smoczer C, Abbott S, Fakhereddin M, Hudson JW, Crawford MJ.
Dev Dyn. September 23, 2017;

Xenopus egg extract: A powerful tool to study genome maintenance mechanisms.
Hoogenboom WS, Klein Douwel D, Knipscheer P.
Dev Biol. August 15, 2017; 428 (2): 300-309.

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