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Items: 1 to 50 of 57

1.

Chromosome Arm Locations of Barley Sucrose Transporter Gene in Transgenic Winter Wheat Lines.

Takenaka S, Weschke W, Brückner B, Murata M, Endo TR.

Front Plant Sci. 2019 Apr 30;10:548. doi: 10.3389/fpls.2019.00548. eCollection 2019.

2.

Grain number and grain yield distribution along the spike remain stable despite breeding for high yield in winter wheat.

Philipp N, Weichert H, Bohra U, Weschke W, Schulthess AW, Weber H.

PLoS One. 2018 Oct 10;13(10):e0205452. doi: 10.1371/journal.pone.0205452. eCollection 2018.

3.

Grain yield and quality responses of wheat expressing a barley sucrose transporter to combined climate change factors.

Weichert H, Högy P, Mora-Ramirez I, Fuchs J, Eggert K, Koehler P, Weschke W, Fangmeier A, Weber H.

J Exp Bot. 2017 Nov 28;68(20):5511-5525. doi: 10.1093/jxb/erx366.

4.

Down-regulation of the sucrose transporters HvSUT1 and HvSUT2 affects sucrose homeostasis along its delivery path in barley grains.

Radchuk V, Riewe D, Peukert M, Matros A, Strickert M, Radchuk R, Weier D, Steinbiß HH, Sreenivasulu N, Weschke W, Weber H.

J Exp Bot. 2017 Jul 20;68(16):4595-4612. doi: 10.1093/jxb/erx266.

5.

The utility of flow sorting to identify chromosomes carrying a single copy transgene in wheat.

Cápal P, Endo TR, Vrána J, Kubaláková M, Karafiátová M, Komínková E, Mora-Ramírez I, Weschke W, Doležel J.

Plant Methods. 2016 Apr 25;12:24. doi: 10.1186/s13007-016-0124-8. eCollection 2016.

6.

Label-free proteome profiling reveals developmental-dependent patterns in young barley grains.

Kaspar-Schoenefeld S, Merx K, Jozefowicz AM, Hartmann A, Seiffert U, Weschke W, Matros A, Mock HP.

J Proteomics. 2016 Jun 30;143:106-121. doi: 10.1016/j.jprot.2016.04.007. Epub 2016 Apr 14.

PMID:
27102496
7.

Increasing abscisic acid levels by immunomodulation in barley grains induces precocious maturation without changing grain composition.

Staroske N, Conrad U, Kumlehn J, Hensel G, Radchuk R, Erban A, Kopka J, Weschke W, Weber H.

J Exp Bot. 2016 Apr;67(9):2675-87. doi: 10.1093/jxb/erw102. Epub 2016 Mar 7.

8.

Spatiotemporal Dynamics of Oligofructan Metabolism and Suggested Functions in Developing Cereal Grains.

Peukert M, Thiel J, Mock HP, Marko D, Weschke W, Matros A.

Front Plant Sci. 2016 Jan 19;6:1245. doi: 10.3389/fpls.2015.01245. eCollection 2015. Review.

9.

Hormone-mediated growth dynamics of the barley pericarp as revealed by magnetic resonance imaging and transcript profiling.

Pielot R, Kohl S, Manz B, Rutten T, Weier D, Tarkowská D, Rolčík J, Strnad M, Volke F, Weber H, Weschke W.

J Exp Bot. 2015 Nov;66(21):6927-43. doi: 10.1093/jxb/erv397. Epub 2015 Aug 14.

10.

Metabolic and transcriptional transitions in barley glumes reveal a role as transitory resource buffers during endosperm filling.

Kohl S, Hollmann J, Erban A, Kopka J, Riewe D, Weschke W, Weber H.

J Exp Bot. 2015 Mar;66(5):1397-411. doi: 10.1093/jxb/eru492. Epub 2015 Jan 22.

11.

Spatio-temporal dynamics of fructan metabolism in developing barley grains.

Peukert M, Thiel J, Peshev D, Weschke W, Van den Ende W, Mock HP, Matros A.

Plant Cell. 2014 Sep;26(9):3728-44. doi: 10.1105/tpc.114.130211. Epub 2014 Sep 30.

12.

Gibberellin-to-abscisic acid balances govern development and differentiation of the nucellar projection of barley grains.

Weier D, Thiel J, Kohl S, Tarkowská D, Strnad M, Schaarschmidt S, Weschke W, Weber H, Hause B.

J Exp Bot. 2014 Oct;65(18):5291-304. doi: 10.1093/jxb/eru289. Epub 2014 Jul 14.

13.

Diverse accumulation and distribution of nutrient elements in developing wheat grain studied by laser ablation inductively coupled plasma mass spectrometry imaging.

Wu B, Andersch F, Weschke W, Weber H, Becker JS.

Metallomics. 2013 Sep;5(9):1276-84. doi: 10.1039/c3mt00071k.

PMID:
23877092
14.

A putative role for amino acid permeases in sink-source communication of barley tissues uncovered by RNA-seq.

Kohl S, Hollmann J, Blattner FR, Radchuk V, Andersch F, Steuernagel B, Schmutzer T, Scholz U, Krupinska K, Weber H, Weschke W.

BMC Plant Biol. 2012 Aug 30;12:154. doi: 10.1186/1471-2229-12-154.

15.

A somaclonal line SE7 of finger millet (Eleusine coracana) exhibits modified cytokinin homeostasis and increased grain yield.

Radchuk V, Radchuk R, Pirko Y, Vankova R, Gaudinova A, Korkhovoy V, Yemets A, Weber H, Weschke W, Blume YB.

J Exp Bot. 2012 Sep;63(15):5497-506. doi: 10.1093/jxb/ers200. Epub 2012 Aug 9.

16.

454 Transcriptome sequencing suggests a role for two-component signalling in cellularization and differentiation of barley endosperm transfer cells.

Thiel J, Hollmann J, Rutten T, Weber H, Scholz U, Weschke W.

PLoS One. 2012;7(7):e41867. doi: 10.1371/journal.pone.0041867. Epub 2012 Jul 25.

17.

Differentiation of endosperm transfer cells of barley: a comprehensive analysis at the micro-scale.

Thiel J, Riewe D, Rutten T, Melzer M, Friedel S, Bollenbeck F, Weschke W, Weber H.

Plant J. 2012 Aug;71(4):639-55. doi: 10.1111/j.1365-313X.2012.05018.x. Epub 2012 Jun 20.

18.

Subcellular analysis of starch metabolism in developing barley seeds using a non-aqueous fractionation method.

Tiessen A, Nerlich A, Faix B, Hümmer C, Fox S, Trafford K, Weber H, Weschke W, Geigenberger P.

J Exp Bot. 2012 Mar;63(5):2071-87. doi: 10.1093/jxb/err408. Epub 2011 Dec 26.

19.

Barley grains, deficient in cytosolic small subunit of ADP-glucose pyrophosphorylase, reveal coordinate adjustment of C:N metabolism mediated by an overlapping metabolic-hormonal control.

Faix B, Radchuk V, Nerlich A, Hümmer C, Radchuk R, Emery RJ, Keller H, Götz KP, Weschke W, Geigenberger P, Weber H.

Plant J. 2012 Mar;69(6):1077-93. doi: 10.1111/j.1365-313X.2011.04857.x. Epub 2012 Jan 10.

20.

Laser-capture microdissection of developing barley seeds and cDNA array analysis of selected tissues.

Thiel J, Weier D, Weschke W.

Methods Mol Biol. 2011;755:461-75. doi: 10.1007/978-1-61779-163-5_39.

PMID:
21761328
21.

Hybrid embryos of Vicia faba develop enhanced sink strength, which is established during early development.

Meitzel T, Radchuk R, Nunes-Nesi A, Fernie AR, Link W, Weschke W, Weber H.

Plant J. 2011 Feb;65(4):517-31. doi: 10.1111/j.1365-313X.2010.04450.x. Epub 2011 Jan 14.

22.

Abscisic acid deficiency of developing pea embryos achieved by immunomodulation attenuates developmental phase transition and storage metabolism.

Radchuk R, Conrad U, Saalbach I, Giersberg M, Emery RJ, Küster H, Nunes-Nesi A, Fernie AR, Weschke W, Weber H.

Plant J. 2010 Dec;64(5):715-30. doi: 10.1111/j.1365-313X.2010.04376.x. Epub 2010 Nov 4.

23.

Development of maternal seed tissue in barley is mediated by regulated cell expansion and cell disintegration and coordinated with endosperm growth.

Radchuk V, Weier D, Radchuk R, Weschke W, Weber H.

J Exp Bot. 2011 Jan;62(3):1217-27. doi: 10.1093/jxb/erq348. Epub 2010 Nov 8.

24.

De-regulation of abscisic acid contents causes abnormal endosperm development in the barley mutant seg8.

Sreenivasulu N, Radchuk V, Alawady A, Borisjuk L, Weier D, Staroske N, Fuchs J, Miersch O, Strickert M, Usadel B, Wobus U, Grimm B, Weber H, Weschke W.

Plant J. 2010 Nov;64(4):589-603. doi: 10.1111/j.1365-313X.2010.04350.x. Epub 2010 Oct 5.

25.

Protein analysis of laser capture micro-dissected tissues revealed cell-type specific biological functions in developing barley grains.

Kaspar S, Weier D, Weschke W, Mock HP, Matros A.

Anal Bioanal Chem. 2010 Dec;398(7-8):2883-93. doi: 10.1007/s00216-010-4120-y. Epub 2010 Aug 27.

PMID:
20798931
26.

Barley grain development toward an integrative view.

Sreenivasulu N, Borisjuk L, Junker BH, Mock HP, Rolletschek H, Seiffert U, Weschke W, Wobus U.

Int Rev Cell Mol Biol. 2010;281:49-89. doi: 10.1016/S1937-6448(10)81002-0. Review.

PMID:
20460183
27.

Increasing sucrose uptake capacity of wheat grains stimulates storage protein synthesis.

Weichert N, Saalbach I, Weichert H, Kohl S, Erban A, Kopka J, Hause B, Varshney A, Sreenivasulu N, Strickert M, Kumlehn J, Weschke W, Weber H.

Plant Physiol. 2010 Feb;152(2):698-710. doi: 10.1104/pp.109.150854. Epub 2009 Dec 14.

28.

Sucrose non-fermenting kinase 1 (SnRK1) coordinates metabolic and hormonal signals during pea cotyledon growth and differentiation.

Radchuk R, Emery RJ, Weier D, Vigeolas H, Geigenberger P, Lunn JE, Feil R, Weschke W, Weber H.

Plant J. 2010 Jan;61(2):324-38. doi: 10.1111/j.1365-313X.2009.04057.x. Epub 2009 Oct 20.

29.

The 2-oxoglutarate/malate translocator mediates amino acid and storage protein biosynthesis in pea embryos.

Riebeseel E, Häusler RE, Radchuk R, Meitzel T, Hajirezaei MR, Emery RJ, Küster H, Nunes-Nesi A, Fernie AR, Weschke W, Weber H.

Plant J. 2010 Jan;61(2):350-63. doi: 10.1111/j.1365-313X.2009.04058.x. Epub 2009 Oct 20.

30.

Amino acid metabolism at the maternal-filial boundary of young barley seeds: a microdissection-based study.

Thiel J, Müller M, Weschke W, Weber H.

Planta. 2009 Jun;230(1):205-13. doi: 10.1007/s00425-009-0935-1. Epub 2009 May 5.

PMID:
19415324
31.

Spatiotemporal profiling of starch biosynthesis and degradation in the developing barley grain.

Radchuk VV, Borisjuk L, Sreenivasulu N, Merx K, Mock HP, Rolletschek H, Wobus U, Weschke W.

Plant Physiol. 2009 May;150(1):190-204. doi: 10.1104/pp.108.133520. Epub 2009 Mar 25.

32.

Different hormonal regulation of cellular differentiation and function in nucellar projection and endosperm transfer cells: a microdissection-based transcriptome study of young barley grains.

Thiel J, Weier D, Sreenivasulu N, Strickert M, Weichert N, Melzer M, Czauderna T, Wobus U, Weber H, Weschke W.

Plant Physiol. 2008 Nov;148(3):1436-52. doi: 10.1104/pp.108.127001. Epub 2008 Sep 10.

33.

Barley grain maturation and germination: metabolic pathway and regulatory network commonalities and differences highlighted by new MapMan/PageMan profiling tools.

Sreenivasulu N, Usadel B, Winter A, Radchuk V, Scholz U, Stein N, Weschke W, Strickert M, Close TJ, Stitt M, Graner A, Wobus U.

Plant Physiol. 2008 Apr;146(4):1738-58. doi: 10.1104/pp.107.111781. Epub 2008 Feb 15.

34.

Distinct tubulin genes are differentially expressed during barley grain development.

Radchuk VV, Sreenivasulu N, Blume Y, Weschke W.

Physiol Plant. 2007 Dec;131(4):571-80. doi: 10.1111/j.1399-3054.2007.00976.x.

PMID:
18251848
35.

Cloning and expression of the tubulin genes in barley.

Radchuk V, Sreenivasulu N, Blume Y, Weschke W.

Cell Biol Int. 2008 May;32(5):557-9. Epub 2007 Nov 21.

PMID:
18158258
36.

Analysis of barley (Hordeum vulgare) grain development using three-dimensional digital models.

Gubatz S, Dercksen VJ, Brüss C, Weschke W, Wobus U.

Plant J. 2007 Nov;52(4):779-90. Epub 2007 Sep 6.

37.

Ectopic expression of phosphoenolpyruvate carboxylase in Vicia narbonensis seeds: effects of improved nutrient status on seed maturation and transcriptional regulatory networks.

Radchuk R, Radchuk V, Götz KP, Weichert H, Richter A, Emery RJ, Weschke W, Weber H.

Plant J. 2007 Sep;51(5):819-39. Epub 2007 Aug 13.

38.

Multiparametric high-resolution imaging of barley embryos by multiphoton microscopy and magnetic resonance micro-imaging.

Stark M, Manz B, Ehlers A, Küppers M, Riemann I, Volke F, Siebert U, Weschke W, König K.

Microsc Res Tech. 2007 May;70(5):426-32.

PMID:
17380495
39.

Molecular mapping of the shrunken endosperm genes seg8 and sex1 in barley (Hordeum vulgare L.).

Röder MS, Kaiser C, Weschke W.

Genome. 2006 Oct;49(10):1209-14.

PMID:
17213902
40.

Gene expression patterns reveal tissue-specific signaling networks controlling programmed cell death and ABA- regulated maturation in developing barley seeds.

Sreenivasulu N, Radchuk V, Strickert M, Miersch O, Weschke W, Wobus U.

Plant J. 2006 Jul;47(2):310-27. Epub 2006 Jun 8. Erratum in: Plant J. 2006 Sep;47(6):987.

41.

Identification of a vacuolar sucrose transporter in barley and Arabidopsis mesophyll cells by a tonoplast proteomic approach.

Endler A, Meyer S, Schelbert S, Schneider T, Weschke W, Peters SW, Keller F, Baginsky S, Martinoia E, Schmidt UG.

Plant Physiol. 2006 May;141(1):196-207. Epub 2006 Mar 31.

42.
43.

The methylation cycle and its possible functions in barley endosperm development.

Radchuk VV, Sreenivasulu N, Radchuk RI, Wobus U, Weschke W.

Plant Mol Biol. 2005 Sep;59(2):289-307.

PMID:
16247558
44.

Large-scale analysis of the barley transcriptome based on expressed sequence tags.

Zhang H, Sreenivasulu N, Weschke W, Stein N, Rudd S, Radchuk V, Potokina E, Scholz U, Schweizer P, Zierold U, Langridge P, Varshney RK, Wobus U, Graner A.

Plant J. 2004 Oct;40(2):276-90.

45.

Identification of barley CK2alpha targets by using the protein microarray technology.

Kramer A, Feilner T, Possling A, Radchuk V, Weschke W, Bürkle L, Kersten B.

Phytochemistry. 2004 Jun;65(12):1777-84.

PMID:
15276436
46.

Seed development and differentiation: a role for metabolic regulation.

Borisjuk L, Rolletschek H, Radchuk R, Weschke W, Wobus U, Weber H.

Plant Biol (Stuttg). 2004 Jul;6(4):375-86. Review.

PMID:
15248120
47.
48.

Energy state and its control on seed development: starch accumulation is associated with high ATP and steep oxygen gradients within barley grains.

Rolletschek H, Weschke W, Weber H, Wobus U, Borisjuk L.

J Exp Bot. 2004 Jun;55(401):1351-9. Epub 2004 Apr 8.

PMID:
15073213
49.

Transcript profiles and deduced changes of metabolic pathways in maternal and filial tissues of developing barley grains.

Sreenivasulu N, Altschmied L, Radchuk V, Gubatz S, Wobus U, Weschke W.

Plant J. 2004 Feb;37(4):539-53.

50.

Comparison of Al-induced gene expression in sensitive and tolerant soybean cultivars.

Ermolayev V, Weschke W, Manteuffel R.

J Exp Bot. 2003 Dec;54(393):2745-56.

PMID:
14623943

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