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Items: 14

1.

Molecular Framework of a Regulatory Circuit Initiating Two-Dimensional Spatial Patterning of Stomatal Lineage.

Horst RJ, Fujita H, Lee JS, Rychel AL, Garrick JM, Kawaguchi M, Peterson KM, Torii KU.

PLoS Genet. 2015 Jul 23;11(7):e1005374. doi: 10.1371/journal.pgen.1005374. eCollection 2015 Jul.

2.

Plasma vitamin D metabolites and C-reactive protein in stage-stop racing endurance sled dogs.

Spoo JW, Downey RL, Griffitts C, Horst RJ, Levine CB, Childs RM, Wakshlag JJ.

J Vet Intern Med. 2015 Mar-Apr;29(2):519-25. doi: 10.1111/jvim.12546.

3.

Arabidopsis homeodomain-leucine zipper IV proteins promote stomatal development and ectopically induce stomata beyond the epidermis.

Peterson KM, Shyu C, Burr CA, Horst RJ, Kanaoka MM, Omae M, Sato Y, Torii KU.

Development. 2013 May;140(9):1924-35. doi: 10.1242/dev.090209. Epub 2013 Mar 20.

4.

Reduced carbohydrate availability enhances the susceptibility of Arabidopsis toward Colletotrichum higginsianum.

Engelsdorf T, Horst RJ, Pröls R, Pröschel M, Dietz F, Hückelhoven R, Voll LM.

Plant Physiol. 2013 May;162(1):225-38. doi: 10.1104/pp.112.209676. Epub 2013 Mar 13.

5.

Regulation of inflorescence architecture by intertissue layer ligand-receptor communication between endodermis and phloem.

Uchida N, Lee JS, Horst RJ, Lai HH, Kajita R, Kakimoto T, Tasaka M, Torii KU.

Proc Natl Acad Sci U S A. 2012 Apr 17;109(16):6337-42. doi: 10.1073/pnas.1117537109. Epub 2012 Apr 2.

6.

The Ustilago maydis Nit2 homolog regulates nitrogen utilization and is required for efficient induction of filamentous growth.

Horst RJ, Zeh C, Saur A, Sonnewald S, Sonnewald U, Voll LM.

Eukaryot Cell. 2012 Mar;11(3):368-80. doi: 10.1128/EC.05191-11. Epub 2012 Jan 13.

7.

Molecular profiling of stomatal meristemoids reveals new component of asymmetric cell division and commonalities among stem cell populations in Arabidopsis.

Pillitteri LJ, Peterson KM, Horst RJ, Torii KU.

Plant Cell. 2011 Sep;23(9):3260-75. doi: 10.1105/tpc.111.088583. Epub 2011 Sep 30.

8.

Common Motifs in the Response of Cereal Primary Metabolism to Fungal Pathogens are not Based on Similar Transcriptional Reprogramming.

Voll LM, Horst RJ, Voitsik AM, Zajic D, Samans B, Pons-Kühnemann J, Doehlemann G, Münch S, Wahl R, Molitor A, Hofmann J, Schmiedl A, Waller F, Deising HB, Kahmann R, Kämper J, Kogel KH, Sonnewald U.

Front Plant Sci. 2011 Aug 22;2:39. doi: 10.3389/fpls.2011.00039. eCollection 2011.

9.

A model of Ustilago maydis leaf tumor metabolism.

Horst RJ, Doehlemann G, Wahl R, Hofmann J, Schmiedl A, Kahmann R, Kämper J, Voll LM.

Plant Signal Behav. 2010 Nov;5(11):1446-9. doi: 10.1104/pp.109.147702. Epub 2010 Nov 1.

10.

Stimulation of nonselective amino acid export by glutamine dumper proteins.

Pratelli R, Voll LM, Horst RJ, Frommer WB, Pilot G.

Plant Physiol. 2010 Feb;152(2):762-73. doi: 10.1104/pp.109.151746. Epub 2009 Dec 16.

11.

Ustilago maydis infection strongly alters organic nitrogen allocation in maize and stimulates productivity of systemic source leaves.

Horst RJ, Doehlemann G, Wahl R, Hofmann J, Schmiedl A, Kahmann R, Kämper J, Sonnewald U, Voll LM.

Plant Physiol. 2010 Jan;152(1):293-308. doi: 10.1104/pp.109.147702. Epub 2009 Nov 18.

12.

Reprogramming a maize plant: transcriptional and metabolic changes induced by the fungal biotroph Ustilago maydis.

Doehlemann G, Wahl R, Horst RJ, Voll LM, Usadel B, Poree F, Stitt M, Pons-Kühnemann J, Sonnewald U, Kahmann R, Kämper J.

Plant J. 2008 Oct;56(2):181-195. doi: 10.1111/j.1365-313X.2008.03590.x. Epub 2008 Jun 28.

13.

Infection of maize leaves with Ustilago maydis prevents establishment of C4 photosynthesis.

Horst RJ, Engelsdorf T, Sonnewald U, Voll LM.

J Plant Physiol. 2008 Jan;165(1):19-28. Epub 2007 Aug 8.

PMID:
17689830
14.

Metabolism and metabolomics of eukaryotes living under extreme conditions.

Weber AP, Horst RJ, Barbier GG, Oesterhelt C.

Int Rev Cytol. 2007;256:1-34. Review.

PMID:
17241903

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