中央研究院生命科學圖書館 -- 生命組研究成果

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生命組研究成果

植物暨微生物學研究所 - 施臥虎 Schmidt, Wolfgang

期刊 120

Vélez-Bermúdez Isabel Cristina, Jain Dharmesh, Ravindran Arya, Chen Chin-Wen, Hsu Chuan-Chih, Schmidt Wolfgang. Tandem Mass Tag-Based Phosphoproteomics in Plants. Methods in Molecular Biology. , 2022-11-23. [JCR]
Tsai HH, Schmidt W. The Enigma of Environmental pH Sensing in Plants. NATURE PLANTS. , 2021. [JCR]　[WOS]
Buoso Sara, Musetti Rita, Marroni Fabio, Calderan Alberto, Schmidt Wolfgang, Santi Simonetta. Infection by phloem-limited phytoplasma affects mineral nutrient homeostasis in tomato leaf tissues. Journal of Plant Physiology. 271, 153659, 2022-04. [JCR]　[WOS]
Yang Chiu-Ling, Huang Yu-Ting, Schmidt Wolfgang, Klein Patricia, Chan Ming-Tsair, Pan I-Chun. Ethylene Response Factor109 Attunes Immunity, Photosynthesis, and Iron Homeostasis in Arabidopsis Leaves. Frontiers in Plant Science. 13, 492, 2022-03. [JCR]　[WOS]
Wu Qingyu, Schmidt Wolfgang, Aalen Reidunn Birgitta, Xu Cao, Takahashi Fuminori. Editorial: Peptide Signaling in Plants. Frontiers in Plant Science. 13, 242, 2022-02. [JCR]　[WOS]
Hsieh En-Jung, Lin Wen-Dar, Schmidt Wolfgang. Genomically Hardwired Regulation of Gene Activity Orchestrates Cellular Iron Homeostasis in Arabidopsis. RNA Biology. 19(1), 143-161, 2022-01. [JCR]　[WOS]
Gautam Chandan, Tsai Hueu-, Schmidt Wolfgang. A Quick Method to Quantify Iron in Arabidopsis Seedlings. BIO-PROTOCOL. 12(3), e4342-e4342, 2022. [JCR]　[WOS]
Vélez-Bermúdez Isabel Cristina, Schmidt Wolfgang. How Plants Recalibrate Cellular Iron Homeostasis. Plant and Cell Physiology. 63(2), 154-162, 2021-11-20. [JCR]　[WOS]
Vélez-Bermúdez Isabel Cristina, Schmidt Wolfgang. Chromatin enrichment for proteomics in plants (ChEP-P) implicates the histone reader ALFIN-LIKE 6 in jasmonate signalling. BMC Genomics. 22(1), 845, 2021. [JCR]　[WOS]
Gautam Chandan Kumar, Tsai Huei-Hsuan, Schmidt Wolfgang. IRONMAN tunes responses to iron deficiency in concert with environmental pH. Plant Physiology. 187(3), 1728-1745, 2021. [JCR]　[WOS]
Tsai HH, Schmidt W. pH-Dependent Transcriptional Profile Changes in Iron-Deficient Arabidopsis Roots. BMC Genomics. 21(1), 694, 2020-05-22. [JCR]　[WOS]
Vanholme R, Sundin L, Seetso KC, Kim H, Liu X, Li J, De Meester B, Hoengenaert L, Goeminne G, Morreel K, Haustraete J, Tsai HH, (Schmidt W), Vanholme B, Ralph J, Boerjan W. COSY catalyses trans-cis isomerization and lactonization in the biosynthesis of coumarins. Nature Plants. 5(10), 1066-1075, 2019-10. [JCR]　[WOS]
Grillet L, (Schmidt W*). Iron acquisition strategies in land plants: not so different after all. The New Phytologist. 224(1), 11-18, 2019-10. [JCR]　[WOS]
Buoso S, Pagliari L, Musetti R, Martini M, Marroni F, (Schmidt W), Santi S. Candidatus Phytoplasma solani' interferes with the distribution and uptake of iron in tomato. BMC Genomics. 20(1), 703, 2019-09. [JCR]　[WOS]
(Schmidt W*). The Yin and Yang of Iron in Plants and Beyond: 19th International Symposium on Iron Nutrition and Interactions in Plants (ISINIP) in Taiwan. Plant & Cell Physiology. 60(7), 1401-1404, 2019-07. [JCR]　[WOS]
Salazar-Henao JE, Mokkapati G, Khor EHX, Chou YC, Jane WN, (Schmidt W*). Characterization of Root Epidermal Cell Patterning and Differentiation in Arabidopsis. Methods in molecular biology (Clifton, N.J.). 1761, 85-93, 2018.
Grillet L, Lan P, Li W, Mokkapati G, (Schmidt W*). IRON MAN is a ubiquitous family of peptides that control iron transport in plants. Nature Plants. 4(11), 953-963, 2018. [JCR]　[WOS]
Suen DF, (Schmidt W*). OTU5 tunes environmental responses by sustaining chromatin structure. Plant Signaling & Behavior. 13(4), e1435963, 2018. [JCR]　[WOS]
Suen DF, Tsai YH, Cheng YT, Radjacommare R, Ahirwar RN, Fu H, (Schmidt W*). The Deubiquitinase OTU5 Regulates Root Responses to Phosphate Starvation. Plant Physiology. 176(3), 2441-2455, 2018. [JCR]　[WOS]
Yen MR, Suen DF, Hsu FM, Tsai YH, Fu H, (Schmidt W), Chen PY. Deubiquitinating Enzyme OTU5 Contributes to DNA Methylation Patterns and Is Critical for Phosphate Nutrition Signals. Plant Physiology. 175(4), 1826-1838, 2017. [JCR]　[WOS]
Huang J, Xue C, Wang H, Wang L, (Schmidt W), Shen R, Lan P. Genes of ACYL CARRIER PROTEIN Family Show Different Expression Profiles and Overexpression of ACYL CARRIER PROTEIN 5 Modulates Fatty Acid Composition and Enhances Salt Stress Tolerance in Arabidopsis. Frontiers in Plant Science. 8, 987, 2017. [JCR]　[WOS]
Tsai HH, (Schmidt W*). Mobilization of Iron by Plant-Borne Coumarins. Trends in Plant Science. 22(6), 538-548, 2017. [JCR]　[WOS]
Tsai HH, (Schmidt W*). One way. Or another? Iron uptake in plants. The New Phytologist. 214(2), 500-505, 2017. [JCR]　[WOS]
Grillet L, (Schmidt W*). The multiple facets of root iron reduction. Journal of Experimental Botany. 68(18), 5021-5027, 2017. [JCR]　[WOS]
JE Salazar-Henao, W Schmidt. An inventory of nutrient-responsive genes in Arabidopsis root hairs. Frontiers in plant science. 7, 237, 2016-07. [JCR]　[WOS]
JE Salazar-Henao, WD Lin, W Schmidt. Discriminative gene co-expression network analysis uncovers novel modules involved in the formation of phosphate deficiency-induced root hairs in Arabidopsis. SCIENTIFIC REPORTS. 6, 26820, 2016-05. [JCR]　[WOS]
Velez-Bermudez IC, Wen TN, Lan P, Schmidt W. Isobaric Tag for Relative and Absolute Quantitation (iTRAQ)-Based Protein Profiling in Plants. Methods in molecular biology (Clifton, N.J.). 1450, 213-21, 2016. [JCR]
Rodriguez-Celma J, Tsai YH, Wen TN, Wu YC, Curie C, Schmidt W. Systems-wide analysis of manganese deficiency-induced changes in gene activity of Arabidopsis roots. Scientific reports. 6, 35846, 2016. [JCR]　[WOS]
Salazar-Henao JE, Velez-Bermudez IC, Schmidt W. The regulation and plasticity of root hair patterning and morphogenesis. Development (Cambridge, England). 143(11), 1848-58, 2016. [JCR]　[WOS]
Vélez-Bermúdez I-C, Salazar-Henao JE, Fornalé S, López-Vidriero I, Franco-Zorrilla J-M, Grotewold E, Gray J, Solano R, Schmidt W, Pagés M, Riera M, Caparros-Ruiz D. A MYB/ZML complex regulates wound-induced lignin genes in maize. PLANT CELL. 27(11), 3245-3259, 2015-11. [JCR]　[WOS]
Pan IC, Tsai HH, Cheng YT, Wen TN, Buckhout T, (Schmidt W.)*. Post-Transcriptional Coordination of the Arabidopsis Iron Deficiency Response is Partially Dependent on the E3 Ligases RING DOMAIN LIGASE1 (RGLG1) and RING DOMAIN LIGASE2 (RGLG2). Molecular and Cellular Proteomics. 14(10), 2733-2752, 2015-10. [JCR]　[WOS]
Schmidt W.*. Root development: Pulse control. Nature Plants. 1, 15148, 2015-10. [JCR]　[WOS]
Chen C-Y, Wu K, (Schmidt, W.)*. The histone deacetylase HDA19 controls root cell elongation and modulates a subset of phosphate starvation responses in Arabidopsis. Scientific Reports. Scientific Reports. 5, 15708, 2015-10. [JCR]　[WOS]
Luo M, Tai R, Yu CW, Yang S, Chen C, Lin WD, (Schmidt W), Wu K*. Regulation of flowering time by the histone deacetylase HDA5 in Arabidopsis. PLANT JOURNAL. 82(6), 925-936, 2015-06. [JCR]　[WOS]
Chen CY, (Schmidt W.)*. The paralogous R3 MYB proteins CAPRICE, TRIPTYCHON and ENHANCER OF TRY AND CPC 1 play pleiotropic and partly non-redundant roles in the phosphate starvation response of Arabidopsis roots. . JOURNAL OF EXPERIMENTAL BOTANY. 66(15), 4821-4834, 2015-05. [JCR]　[WOS]
Lan P, Li W, (Schmidt W.)*. 'Omics' Approaches Towards Understanding Plant Phosphorus Acquisition and Use. Annual Plant Reviews. 48, 65-97, 2015-04. [JCR]
Vélez-Bermúdez IC and Schmidt W. The conundrum of discordant protein and mRNA expression. Are plants special?. Frontiers in Plant Science. 5, 619, 2014-11. [JCR]　[WOS]
Gollhofer J, Timofeev R, Lan P, Schmidt W, Buckhout TJ. Vacuolar-Iron-Transporter1-Like Proteins Mediate Iron Homeostasis in Arabidopsis. PLoS One. 9(10), e110468, 2014-10. [JCR]　[WOS]
Pan I-C and Schmid W. Functional implications of K63-linked ubiquitination in the iron deficiency response of Arabidopsis roots. Frontiers in Plant Science. 4, 542, 2014-01. [JCR]　[WOS]
Grillet L, Mari S and Schmidt W*. Iron in seeds – loading pathways and subcellular localization. Frontiers in Plant Science. 4, 535, 2014-01. [JCR]　[WOS]
Wang J, Lan P, Gao H, Zheng L, Li W, Schmidt W. Expression changes of ribosomal proteins in phosphate- and iron-deficient Arabidopsis roots predict stress-specific alterations in ribosome composition. BMC GENOMICS. 14, 783, 2013-11. [JCR]　[WOS]
Savage N, Yang TJ, Chen CY, Lin KL, Monk NA, Schmidt W. Positional Signaling and Expression of ENHANCER OF TRY AND CPC1 are Tuned to Increase Root Hair Density in Response to Phosphate Deficiency in Arabidopsis thaliana. . PLoS One. 8(10), e75452, 2013-10. [JCR]　[WOS]
Rodriguez-Celma J, Schmidt W. Reduction-based iron uptake revisited: on the role of secreted iron-binding compounds. Plant Signaling & Behavior. 8(11), e26116, 2013-08. [JCR]
Li, WF ; Lin, WD ; Ray, P ; Lan, P ; Schmidt, W. Genome-Wide Detection of Condition-Sensitive Alternative Splicing in Arabidopsis Roots. PLANT PHYSIOLOGY. 162(3), 1750-1763, 2013-07. [JCR]　[WOS]
Lan P, Li WF, Schmidt W*. A digital compendium of genes mediating the reversible phosphorylation of proteins in Fe-deficient Arabidopsis roots. Frontiers in Plant Science. 4, 173, 2013-06. [JCR]　[WOS]
Lan P, Li W, Lin WD, Santi S, Schmidt W. Mapping gene activity of Arabidopsis root hairs. GENOME BIOLOGY. 14(6), R67, 2013-06. [JCR]　[WOS]
Rodriguez-Celma J, Pan IC, Li W, Lan P, Buckhout TJ, Schmidt W. The transcriptional response of Arabidopsis leaves to Fe deficiency. Frontiers in Plant Science. 4, 276, 2013-06. [JCR]　[WOS]
Lan P*, Li WF, Schmidt W. Genome-wide co-expression analysis predicts protein kinases as important regulators of phosphate deficiency-induced root hair remodeling in Arabidopsis. . BMC GENOMICS. 14, 210, 2013-04. [JCR]　[WOS]
Chandrika NN, Sundaravelpandian K, Schmidt W. A PHD in histone language On the role of histone methylation in plant responses to phosphate deficiency. Plant Signaling & Behavior. 8(6), e24381, 2013-03. [JCR]
Sundaravelpandian K, Chandrika N, Tsai YH, Schmidt W*. PFT1-controlled ROS balance is critical for multiple stages of root hair development in Arabidopsis. Plant Signaling & Behavior. 8(5), e24066, 2013-03. [JCR]
Nulu Naga Prafulla Chandrika, Kalaipandian Sundaravelpandian, Su-May Yu,Wolfgang Schmidt*. ALFIN-LIKE 6 is involved in root hair elongation during phosphate deficiency in Arabidopsis. New Phytologist. 198(3), 709-720, 2013-02. [JCR]　[WOS]
Kalaipandian Sundaravelpandian, Nulu Naga Prafulla Chandrika, [Wolfgang Schmidt*]. PFT1, a transcriptional Mediator complex subunit, controls root hair differentiation through reactive oxygen species (ROS) distribution in Arabidopsis. New Phytologist. 197(1), 151-161, 2013-01. [JCR]　[WOS]
Lan P, Li W, [Schmidt W*]. Complementary Proteome and Transcriptome Profiling in Phosphate-Deficient Arabidopsis Roots Reveals Multiple Levels of Gene Regulation. . Molecular and Cellular Proteomics. 11(11), 1156-1166, 2012-07. [JCR]　[WOS]
Lan P, Li W, Schmidt W. Complementary Proteome and Transcriptome Profiling in Phosphate-Deficient Arabidopsis Roots Reveals Multiple Levels of Gene Regulation. . Molecular and Cellular Proteomics. 11(11), 1156-1166, 2012-07. [JCR]　[WOS]
Lan P, Li W, Wen TN, [Schmidt W*]. Quantitative phosphoproteome profiling of iron-deficient Arabidopsis roots. PLANT PHYSIOLOGY. 159(1), 403-417, 2012-03. [JCR]　[WOS]
Liao YY, Buckhout TJ, (Schmidt W).* . Phosphate deficiency-induced cell wall remodeling – linking gene networks with polysaccharide meshworks. Plant Signaling & Behavior. 6(5), 700-702, 2011-05. [JCR]
Lan P, (Schmidt W).*. The enigma of eIF5A in the iron deficiency response of Arabidopsis. Plant Signaling & Behavior. 6(4), 528-530, 2011-04. [JCR]
Lin W, Liao YY, Yang JW, Pan CY, Buckhout T, (Schmidt W).*. Coexpression-based Clustering of Arabidopsis Root Genes Predicts Functional Modules in Early Phosphate Deficiency Signaling. Plant Physiology. 155(3), 1383-1402, 2011-03. [JCR]　[WOS]
Ping Lan, Wenfeng Li, Tuan-Nan Wen, Jeng-Yuan Shiau, Yu-Ching Wu, Wendar Lin, and (Wolfgang Schmidt).*. iTRAQ protein profile analysis of Arabidopsis roots reveals new aspects critical for Fe homeostasis. Plant Physiology. 155(2), 821-834, 2011-02. [JCR]　[WOS]
(Schmidt W)*, Buckhout T. A hitchhiker's guide to the Arabidopsis ferrome. Plant Physiology and Biochemistry. 49(5), 462-470, 2011. [JCR]　[WOS]
Gollhofer J, Schläwicke C, (Schmidt W), Buckhout TJ.* . Members of a small family of nodulin-like genes are regulated under iron deficiency in roots of Arabidopsis thaliana. Plant Physiology and Biochemistry. 49(5), 462-470, 2011. [JCR]　[WOS]
Li W, Schmidt W. A Lysine 63-Linked Ubiquitin Chain Forming Conjugase, UBC13, Promotes the Developmental Responses to Iron Deficiency in Arabidopsis Roots. Plant Journal. 62, 330-343, 2010-02. [JCR]　[WOS]
Li W, Perry P, Prafulla N, (Schmidt W)*. Ubiquitin-specific protease 14 (UBP14) is involved in root responses to phosphate deficiency in Arabidopsis. . MOLECULAR PLANT. 3, 212-223, 2010-01. [JCR]　[WOS]
Li W, Schmidt W. Non-proteolytic Protein Ubiquitination is Crucial for Iron Deficiency Signaling. Plant Signaling & Behavior. 5(5), 561-563, 2010. [JCR]
Sorgonà A, Cacco G, Di Dio L, (Schmidt W), Perry PJ, Abenavoli MR. . Spatial and temporal patterns of net nitrate uptake regulation and kinetics along the tap root of Citrus aurantium. . ACTA PHYSIOLOGIAE PLANTARUM. 32(4), 683-693, 2010. [JCR]　[WOS]
Yang JW, Lin W, Schmidt W. Transcriptional Profiling of the Arabidopsis Iron Deficiency Response Reveals Conserved Transition Metal Homeostasis Networks. . Plant Physiol. 152, 2130-2141, 2010. [JCR]　[WOS]
Santi S, (Schmidt W)*. Dissecting iron deficiency-induced proton extrusion in Arabidopsis roots. NEW PHYTOLOGIST. 183, 1072-1084, 2009-06. [JCR]　[WOS]
Buckhout T, Yang T, (Schmidt W)*. Early iron-deficiency-induced transcriptional changes in Arabidopsis roots as revealed by microarray analyses. BMC Genomics. 10, 147, 2009-04. [JCR]　[WOS]
J. W. Yang, P. J. Perry, S. Pandian, S. Ciani and (W. Schmidt)*. Manganese deficiency alters the patterning and development of root hairs in Arabidopsis. JOURNAL OF EXPERIMENTAL BOTANY. 59(12), 3453-3464, 2008-07. [JCR]　[WOS]
W. Schmidt. Inner voices meet outer signals: the plasticity of rhizodermic cells. PLANT SCIENCE. 174, 239-245, 2008-03. [JCR]　[WOS]
N. Savage and (W. Schmidt)*. From Priming to plasticity: the changing fate of rhizodermic cells. BIOESSAYS. 30, 75-81, 2008. [JCR]　[WOS]
S. Santi and (W. Schmidt)*. Laser microdissection-assisted analysis of the functional fate of iron deficiency-induced root hairs in cucumber. Journal of Experimental Botany. 59(3), 697-704, 2008. [JCR]　[WOS]
W. Schmidt, S. Santi, R. Pinton and Z. Varannini. Water-extractable humic substances alter root development and epidermal cell pattern in Arabidopsis. PLANT AND SOIL. 300, 259-267, 2007-11. [JCR]　[WOS]
P. Perry, W. Schmidt and B. Linke. Reprogramming of root epidermal cells in response to nutrient deficiency. BIOCHEMICAL SOCIETY TRANSACTIONS. 35, 161-163, 2007-02. [JCR]　[WOS]
A. Schikora, O. Thimm, B. Linke, T. Buckhout, M. Müller and W. Schmidt. Expression, localization, and regulation of the iron transporter LeIRT1 in tomato roots (Lycopersicon esculentum L.). PLANT AND SOIL. 284, 101-108, 2006. [JCR]　[WOS]
W. Schmidt. Iron stress responses in roots of strategy I plants. Iron Nutrition in Plants and Rhizoshere Microorganisms. 229-250, 2006.
P. Parolin,O. De Simone,K. Haase,D. Waldhoff, S. Rottenberger, U. Kuhn,J. Kesselmeier,B. Kleiss, W. Schmidt, M.T.F. Piedade and W. J. Junk. Central Amazonian Floodplain Forests: Tree Adaptations in a Pulsing System. BOTANICAL REVIEW. 70, 357-380, 2004. [JCR]　[WOS]
M. Muller, W. Schmidt. Environmentally induced plasticity of root hair development inArabidopsis. PLANT PHYSIOLOGY. 134, 409-419, 2004. [JCR]　[WOS]
W. Schmidt. Minor Nutrients. ENCYCLOPEDIA OF PLANT AND CROP SCIENCE. 726-728, 2004.
W. Schmidt, M. Müller. Plasticity of Root Architecture: Developmental and nutritional aspects. ENCYCLOPEDIA OF PLANT AND CROP SCIENCE. 1-4, 2004.
O. De Simone, K, Haase, E. Muller, W. J. Junk, K. Hartmann, L. Schreiber and W. Schmidt. Apoplasmic barriers and oxygen transport properties of hypodermal cellwalls in roots from four amazonian tree species. PLANT PHYSIOLOGY. 132, 206-217, 2003. [JCR]　[WOS]
O. De Simone, W. J. Junk and W. Schmidt. Central Amazon Floodplain Forests: Root Adaptations to Prolonged Flooding. RUSSIAN JOURNAL OF PLANT PHYSIOLOGY. 50, 848-856, 2003. [JCR]　[WOS]
K. Haase, O. De Simone, W. J. Junk and W. Schmidt. Internal oxygen transport in cuttings from flood-adapted varzea treespecies. TREE PHYSIOLOGY. 23, 1069-76, 2003. [JCR]　[WOS]
O. De Simone, E. Müller, W. J. Junk, K. Richau and W. Schmidt. Iron distribution in three central Amazon tree species from whitewater-inundation areas (várzea) subjected to different iron regimes. TREE PHYSIOLOGY. 17, 535-541, 2003. [JCR]　[WOS]
W. Schmidt. Iron Homeostasis in Plants: Sensing and Signaling Pathways. J PLANT NUTR. 26, 2211-2230, 2003. [JCR]　[WOS]
W. Schmidt. Iron solutions: acquisition strategies and signaling pathways in plant. TRENDS IN PLANT SCIENCE. 8, 188-193, 2003. [JCR]　[WOS]
W. Schmidt, W. Michalke and A. Schikora. Proton pumping by tomato roots. Effect of Fe deficiency and hormones on the activity and distribution of plasma membrane H+-ATPase in rhizodermal cells. PLANT CELL AND ENVIRONMENT. 26, 361-370, 2003. [JCR]　[WOS]
O. De Simone, E. Müller, W. J. Junk and W. Schmidt. Adaptations of Central Amazon tree species to prolonged flooding: root morphology and leaf-longevity. PLANT BIOLOGY. 4, 515-522, 2002. [JCR]　[WOS]
A. Gut, M. Scheibe, S. Rottenberger, U. Rummel, C. Ammann, U. Kuhn, F. X. Meixner, J. Kesselmeier, B. E. Lehmann, W. Schmidt, E. M?ller and M.T.F. Piedade. Exchange fluxes of NO2 and O3 at soil and leaf surfaces in an Amazonian rain forest. J GEOPHYS RES. 107(D20), 8060, 2002. [JCR]　[WOS]
A. Schikora and W. Schmidt. Formation of transfer cells and H+-ATPase expression in tomato roots under P and Fe deficiency. PLANTA. 215, 304-311, 2002. [JCR]　[WOS]
O. De Simone, K. Haase, E. Müller, W. J. Junk, G. Gonsior and W. Schmidt. Impact of root morphology on metabolism and oxygen distribution in roots and rhizosphere from two Central Amazon floodplain tree species. FUNCTIONAL PLANT BIOLOGY. 29, 1025-1035, 2002. [JCR]　[WOS]
A. Schikora, W. Schmidt. Modulation of the root epidermal phenotype by hormones, inhibitors and iron regime. PLANT SOIL. 241, 87-96, 2002. [JCR]　[WOS]
A. Schikora and W. Schmidt. Acclimative changes in root epidermal cell fate in response to Fe and P deficiency. A specific role for auxin?. PROTOPLASMA. 218, 67-75, 2001. [JCR]　[WOS]
W. Schmidt, A. Schikora. Control of Root Epidermal Patterning: Effects of Fe- and P-deficiency. PLANT NUTRITION. 538-539, 2001.
W. Schmidt and A. Schikora. Different pathways are involved in phosphate and iron stress-inducedalterations of root epidermal cell development. PLANT PHYSIOL. 125, 2078-2084, 2001. [JCR]　[WOS]
A. Pich, R. Manteuffel, S. Hillmer, G. Scholz and W. Schmidt. Fe homeostasis in plant cells: does nicotianamine play multiple roles inthe regulation of cytoplasmic Fe concentration. PLANTA. 213, 967-976, 2001. [JCR]　[WOS]
W. Schmidt. From faith to fate: Ethylene signaling in morphogenic responses to P and Fe deficiency. JOURNAL OF PLANT NUTRITION AND SOIL SCIENCE. 164, 147-154, 2001. [JCR]　[WOS]
A. Schikora, W. Schmidt. Iron stress-induced changes in root epidermal cell fate are regulatedindependently from physiological responses to low iron availability. PLANT PHYSIOL. 125, 1679-1687, 2001. [JCR]　[WOS]
W. Schmidt, A. Schikora and M. Bartels. Hormones induce an Fe-deficiency-like root epidermal cell pattern in the Fe-inefficient tomato mutant fer. PROTOPLASMA. 213, 67-73, 2000. [JCR]　[WOS]
W. Schmidt, J. Tittel and A. Schikora. Role of hormones in the induction of Fe deficiency responses in Arabidopsis roots. PLANT PHYSIOLOGY. 122, 1109-1118, 2000. [JCR]　[WOS]
W. Schmidt and S. Steinbach. Sensing Iron—A Whole Plant Approach. ANNALS OF BOTANY. 86, 589-593, 2000. [JCR]　[WOS]
W. Schmidt. Mechanisms and regulation of reduction-based iron uptake in plants. NEW PHYTOLOGIST. 141, 1-26, 1999. [JCR]　[WOS]
W. Schmidt and M. Bartels. Orientation of NADH-linked ferric chelate (Turbo) reductase in plasma membranes from Plantago roots. PROTOPLASMA. 203, 186-193, 1998. [JCR]　[WOS]
W. Schmidt and C. Fühner. Sensitivity to and requirement for iron in Plantago species. NEW PHYTOLOGIST. 138, 639-651, 1998. [JCR]　[WOS]
W. Schmidt, M. Bartels, J. Tittel and C. Fühner. Physiological effects of copper on iron acquisition processes in Plantago. NEW PHYTOLOGIST. 135, 659-666, 1997. [JCR]　[WOS]
N. K. Babolikova and W. Schmidt. Cupric chelate reduction by intact plant roots as an expression of constitutive and inducible redox systems. Comptes Rendus de l’ Académie Bulgare des Sciences. 49, 87-90, 1996.
W. Schmidt and M. Bartels. Formation of root epidermal transfer cells in Plantago. PLANT PHYSIOLOGY. 110, 217-225, 1996. [JCR]　[WOS]
W. Schmidt. Influence of chromium(III) on root-associated Fe(III) reductase in Plantago lanceolata L. JOURNAL OF EXPERIMENTAL BOTANY. 47, 805-810, 1996. [JCR]　[WOS]
W. Schmidt and C. Schuck. Pyridine nucleotide pool size changes in iron-deficient Plantago lanceolata roots during reduction of external oxidants. PHYSIOLOGIA PLANTARUM. 98, 215-221, 1996. [JCR]　[WOS]
W. Schmidt, B. Boomgaarden and V. Ahrens. Reduction of root iron in Plantago lanceolata during recovery from Fe deficiency. PHYSIOLOGIA PLANTARUM. 98, 587-593, 1996. [JCR]　[WOS]
W. Schmidt. Effects of various inhibitors on in vivo reduction by Plantago lanceolata L. roots. PLANT AND SOIL. 165, 207-212, 1995. [JCR]　[WOS]
W. Schmidt. Reduction of extracytoplasmatic acceptors by roots of Plantago lanceolata L. Evidence for enzyme heterogeneity. PLANT SCIENCE. 100, 139-146, 1994. [JCR]　[WOS]
W. Schmidt. Root-mediated ferric reduction - responses to iron deficiency, exogenously induced changes in hormonal balance and inhibition of protein synthesis. JOURNAL OF EXPERIMENTAL BOTANY. 45, 725-731, 1994. [JCR]　[WOS]
W. Schmidt. Iron stress-induced redox reactions in bean roots. PHYSIOLOGIA PLANTARUM. 89, 448-452, 1993. [JCR]　[WOS]
W. Schmidt and P. Janiesch. Ferric reduction by Geum urbanum: a kinetic study. JOURNAL OF PLANT NUTRITION. 14, 1023-1034, 1991. [JCR]　[WOS]
W. Schmidt and P. Janiesch. Specificity of the electron donor for transmembrane redox systems in bean (Phaseolus vulgaris L.) roots. JOURNAL OF PLANT PHYSIOLOGY. 138, 450-453, 1991. [JCR]　[WOS]
W. Schmidt, P. Janiesch and W. Brüggemann. Fe-EDTA reduction in roots of Plantago lanceolata by a NADH-dependent plasma membrane-bound redox system. JOURNAL OF PLANT PHYSIOLOGY. 136, 51-55, 1990. [JCR]　[WOS]
Schmoldt A, Benthe HF, Haberland G, Jallon JM, Risler Y, Iwatsubo M, Gould VE, Memoli V, Chejfec G, Johannessen JV. The APUD cell system and its neoplasms: observations on the significance and limitations of the concept. The Surgical clinics of North America. 59(1), 93-108, 1979. [JCR]　[WOS]
Baker JR. Subaortic stenosis in the pig. The Veterinary record. 98(24), 485-486, 1976. [JCR]
Schmoldt A, Benthe HF, Haberland G, Ouma JH, Carrieri P, Mandarini A, Campanella G. [HVA and 5-HIAA in the cerebrospinal fluid in extrapyramidal and cerebrellar syndromes. Preliminary data]. Acta neurologica. 30(5), 449-454, 1975. [JCR]

專書 2

Vélez-Bermúdez IC, Wen TN, Lan P, and Schmidt W. Isobaric tag for relative and absolute quantitation (iTRAQ)-based protein profiling in plants. In: Plant Proteostasis. , .
Buckhout T, Schmidt W. Iron in Plants. 9, 2013-09-20.