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Items: 18

1.

Conditional mutagenesis by oligonucleotide-mediated integration of loxP sites in zebrafish.

Burg L, Palmer N, Kikhi K, Miroshnik ES, Rueckert H, Gaddy E, MacPherson Cunningham C, Mattonet K, Lai SL, Marín-Juez R, Waring RB, Stainier DYR, Balciunas D.

PLoS Genet. 2018 Nov 14;14(11):e1007754. doi: 10.1371/journal.pgen.1007754. [Epub ahead of print]

2.

Characterization of zebrafish (Danio rerio) muscle ankyrin repeat proteins reveals their conserved response to endurance exercise.

Boskovic S, Marín-Juez R, Jasnic J, Reischauer S, El Sammak H, Kojic A, Faulkner G, Radojkovic D, Stainier DYR, Kojic S.

PLoS One. 2018 Sep 25;13(9):e0204312. doi: 10.1371/journal.pone.0204312. eCollection 2018.

3.

HHEX is a transcriptional regulator of the VEGFC/FLT4/PROX1 signaling axis during vascular development.

Gauvrit S, Villasenor A, Strilic B, Kitchen P, Collins MM, Marín-Juez R, Guenther S, Maischein HM, Fukuda N, Canham MA, Brickman JM, Bogue CW, Jayaraman PS, Stainier DYR.

Nat Commun. 2018 Jul 13;9(1):2704. doi: 10.1038/s41467-018-05039-1.

4.

Reciprocal analyses in zebrafish and medaka reveal that harnessing the immune response promotes cardiac regeneration.

Lai SL, Marín-Juez R, Moura PL, Kuenne C, Lai JKH, Tsedeke AT, Guenther S, Looso M, Stainier DY.

Elife. 2017 Jun 20;6. pii: e25605. doi: 10.7554/eLife.25605.

5.

Hif-1α regulates macrophage-endothelial interactions during blood vessel development in zebrafish.

Gerri C, Marín-Juez R, Marass M, Marks A, Maischein HM, Stainier DYR.

Nat Commun. 2017 May 19;8:15492. doi: 10.1038/ncomms15492.

6.

Fast revascularization of the injured area is essential to support zebrafish heart regeneration.

Marín-Juez R, Marass M, Gauvrit S, Rossi A, Lai SL, Materna SC, Black BL, Stainier DY.

Proc Natl Acad Sci U S A. 2016 Oct 4;113(40):11237-11242. Epub 2016 Sep 19.

7.

Common and specific downstream signaling targets controlled by Tlr2 and Tlr5 innate immune signaling in zebrafish.

Yang S, Marín-Juez R, Meijer AH, Spaink HP.

BMC Genomics. 2015 Jul 25;16:547. doi: 10.1186/s12864-015-1740-9.

8.

GLUT12 deficiency during early development results in heart failure and a diabetic phenotype in zebrafish.

Jiménez-Amilburu V, Jong-Raadsen S, Bakkers J, Spaink HP, Marín-Juez R.

J Endocrinol. 2015 Jan;224(1):1-15. doi: 10.1530/JOE-14-0539. Epub 2014 Oct 17.

PMID:
25326603
9.

GLUT2-mediated glucose uptake and availability are required for embryonic brain development in zebrafish.

Marín-Juez R, Rovira M, Crespo D, van der Vaart M, Spaink HP, Planas JV.

J Cereb Blood Flow Metab. 2015 Jan;35(1):74-85. doi: 10.1038/jcbfm.2014.171. Epub 2014 Oct 8.

10.

Establishment and optimization of a high throughput setup to study Staphylococcus epidermidis and Mycobacterium marinum infection as a model for drug discovery.

Veneman WJ, Marín-Juez R, de Sonneville J, Ordas A, Jong-Raadsen S, Meijer AH, Spaink HP.

J Vis Exp. 2014 Jun 26;(88):e51649. doi: 10.3791/51649.

11.

Hyperinsulinemia induces insulin resistance and immune suppression via Ptpn6/Shp1 in zebrafish.

Marín-Juez R, Jong-Raadsen S, Yang S, Spaink HP.

J Endocrinol. 2014 Aug;222(2):229-41. doi: 10.1530/JOE-14-0178. Epub 2014 Jun 5.

PMID:
24904114
12.

Correction: Mechanisms Regulating GLUT4 Transcription in Skeletal Muscle Cells Are Highly Conserved across Vertebrates.

Marín-Juez R, Diaz M, Morata J, Planas JV.

PLoS One. 2014 Jan 7;9(1). doi: 10.1371/annotation/93141e7a-61f3-48bd-87bd-216b030d773d. eCollection 2014.

13.

Mechanisms regulating GLUT4 transcription in skeletal muscle cells are highly conserved across vertebrates.

Marín-Juez R, Diaz M, Morata J, Planas JV.

PLoS One. 2013 Nov 18;8(11):e80628. doi: 10.1371/journal.pone.0080628. eCollection 2013. Erratum in: PLoS One. 2014 Jan 7;9(1):.

14.

Robotic injection of zebrafish embryos for high-throughput screening in disease models.

Spaink HP, Cui C, Wiweger MI, Jansen HJ, Veneman WJ, Marín-Juez R, de Sonneville J, Ordas A, Torraca V, van der Ent W, Leenders WP, Meijer AH, Snaar-Jagalska BE, Dirks RP.

Methods. 2013 Aug 15;62(3):246-54. doi: 10.1016/j.ymeth.2013.06.002. Epub 2013 Jun 11.

15.

Stage-specific gene expression during spermatogenesis in the Senegalese sole (Solea senegalensis), a fish with semi-cystic type of spermatogenesis, as assessed by laser capture microdissection and absolute quantitative PCR.

Marín-Juez R, Viñas J, Mechaly AS, Planas JV, Piferrer F.

Gen Comp Endocrinol. 2013 Jul 1;188:242-50. doi: 10.1016/j.ygcen.2013.04.015. Epub 2013 Apr 28.

PMID:
23631904
16.

Transcriptional regulation of the gilthead seabream (Sparus aurata) interleukin-6 gene promoter.

Castellana B, Marín-Juez R, Planas JV.

Fish Shellfish Immunol. 2013 Jul;35(1):71-8. doi: 10.1016/j.fsi.2013.04.012. Epub 2013 Apr 18.

PMID:
23602849
17.

Transcriptional and proteomic profiling of flatfish (Solea senegalensis) spermatogenesis.

Forné I, Castellana B, Marín-Juez R, Cerdà J, Abián J, Planas JV.

Proteomics. 2011 Jun;11(11):2195-211. doi: 10.1002/pmic.201000296. Epub 2011 May 2.

PMID:
21538881
18.

Molecular identification of genes involved in testicular steroid synthesis and characterization of the response to gonadotropic stimulation in the Senegalese sole (Solea senegalensis) testis.

Marín-Juez R, Castellana B, Manchado M, Planas JV.

Gen Comp Endocrinol. 2011 May 15;172(1):130-9. doi: 10.1016/j.ygcen.2011.02.003. Epub 2011 Feb 16.

PMID:
21310154

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