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Items: 14

1.

Genetic interaction between Gli3 and Ezh2 during limb pattern formation.

Deimling SJ, Lau K, Hui CC, Hopyan S.

Mech Dev. 2018 Jun;151:30-36. doi: 10.1016/j.mod.2018.05.002. Epub 2018 May 2.

2.

The expanding role of the Ehmt2/G9a complex in neurodevelopment.

Deimling SJ, Olsen JB, Tropepe V.

Neurogenesis (Austin). 2017 May 2;4(1):e1316888. doi: 10.1080/23262133.2017.1316888. eCollection 2017.

3.

G9a and ZNF644 Physically Associate to Suppress Progenitor Gene Expression during Neurogenesis.

Olsen JB, Wong L, Deimling S, Miles A, Guo H, Li Y, Zhang Z, Greenblatt JF, Emili A, Tropepe V.

Stem Cell Reports. 2016 Sep 13;7(3):454-470. doi: 10.1016/j.stemcr.2016.06.012. Epub 2016 Aug 18.

4.

Environmental impact of using specialty feed ingredients in swine and poultry production: A life cycle assessment.

Kebreab E, Liedke A, Caro D, Deimling S, Binder M, Finkbeiner M.

J Anim Sci. 2016 Jun;94(6):2664-81. doi: 10.2527/jas.2015-9036.

5.

Tibial hemimelia associated with GLI3 truncation.

Deimling S, Sotiropoulos C, Lau K, Chaudhry S, Sturgeon K, Kelley S, Narayanan U, Howard A, Hui CC, Hopyan S.

J Hum Genet. 2016 May;61(5):443-6. doi: 10.1038/jhg.2015.161. Epub 2016 Jan 21.

PMID:
26791356
6.

Anisotropic stress orients remodelling of mammalian limb bud ectoderm.

Lau K, Tao H, Liu H, Wen J, Sturgeon K, Sorfazlian N, Lazic S, Burrows JT, Wong MD, Li D, Deimling S, Ciruna B, Scott I, Simmons C, Henkelman RM, Williams T, Hadjantonakis AK, Fernandez-Gonzalez R, Sun Y, Hopyan S.

Nat Cell Biol. 2015 May;17(5):569-79. doi: 10.1038/ncb3156. Epub 2015 Apr 20.

7.

Understanding early organogenesis using a simplified in situ hybridization protocol in Xenopus.

Deimling SJ, Halabi RR, Grover SA, Wang JH, Drysdale TA.

J Vis Exp. 2015 Jan 12;(95):e51526. doi: 10.3791/51526.

8.

A switch from low to high Shh activity regulates establishment of limb progenitors and signaling centers.

Zhulyn O, Li D, Deimling S, Vakili NA, Mo R, Puviindran V, Chen MH, Chuang PT, Hopyan S, Hui CC.

Dev Cell. 2014 Apr 28;29(2):241-9. doi: 10.1016/j.devcel.2014.03.002. Epub 2014 Apr 10.

9.

Formation of proximal and anterior limb skeleton requires early function of Irx3 and Irx5 and is negatively regulated by Shh signaling.

Li D, Sakuma R, Vakili NA, Mo R, Puviindran V, Deimling S, Zhang X, Hopyan S, Hui CC.

Dev Cell. 2014 Apr 28;29(2):233-40. doi: 10.1016/j.devcel.2014.03.001. Epub 2014 Apr 10.

10.

Retinoic acid is a key regulatory switch determining the difference between lung and thyroid fates in Xenopus laevis.

Wang JH, Deimling SJ, D'Alessandro NE, Zhao L, Possmayer F, Drysdale TA.

BMC Dev Biol. 2011 Dec 20;11:75. doi: 10.1186/1471-213X-11-75.

11.

Fgf is required to regulate anterior-posterior patterning in the Xenopus lateral plate mesoderm.

Deimling SJ, Drysdale TA.

Mech Dev. 2011 Sep-Dec;128(7-10):327-41. doi: 10.1016/j.mod.2011.06.002. Epub 2011 Jul 8.

12.

Retinoic acid regulates anterior-posterior patterning within the lateral plate mesoderm of Xenopus.

Deimling SJ, Drysdale TA.

Mech Dev. 2009 Oct;126(10):913-23. doi: 10.1016/j.mod.2009.07.001. Epub 2009 Jul 10.

13.

Retinoic acid signaling is essential for formation of the heart tube in Xenopus.

Collop AH, Broomfield JA, Chandraratna RA, Yong Z, Deimling SJ, Kolker SJ, Weeks DL, Drysdale TA.

Dev Biol. 2006 Mar 1;291(1):96-109. Epub 2006 Jan 19.

14.

Methodical improvements in rye anther culture.

Flehinghaus T, Deimling S, Geiger HH.

Plant Cell Rep. 1991 Oct;10(8):397-400. doi: 10.1007/BF00232610.

PMID:
24221732

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