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Interaction of mammalian and plant H+/sucrose transporters with 14-3-3 proteins. , Vitavska O, Bartölke R, Tabke K, Heinisch JJ, Wieczorek H., Biochem J. October 22, 2018; 475 (20): 3239-3254.
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.
An analysis of MyoD-dependent transcription using CRISPR/Cas9 gene targeting in Xenopus tropicalis embryos. , McQueen C, Pownall ME ., Mech Dev. August 1, 2017; 146 1-9.
Conformational changes represent the rate-limiting step in the transport cycle of maize sucrose transporter1. , Derrer C, Wittek A, Bamberg E, Carpaneto A, Dreyer I, Geiger D., Plant Cell. August 1, 2013; 25 (8): 3010-21.
Transport and sorting of the solanum tuberosum sucrose transporter SUT1 is affected by posttranslational modification. , Krügel U, Veenhoff LM, Langbein J, Wiederhold E, Liesche J, Friedrich T, Grimm B, Martinoia E, Poolman B, Kühn C., Plant Cell. September 1, 2008; 20 (9): 2497-513.
The human renal sodium sulfate cotransporter ( SLC13A1; hNaSi-1) cDNA and gene: organization, chromosomal localization, and functional characterization. , Lee A, Beck L, Markovich D ., Genomics. December 15, 2000; 70 (3): 354-63.
Molecular cloning and functional analysis of SUT-1, a sulfate transporter from human high endothelial venules. , Girard JP, Baekkevold ES, Feliu J, Brandtzaeg P, Amalric F., Proc Natl Acad Sci U S A. October 26, 1999; 96 (22): 12772-7.