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Total Articles in Publication List: 94 | Total Articles in Publication List: 95 | Total Articles in Publication List: 93 |
Sum of the Times Cited: 4406 | Sum of the Times Cited: 4698 | Reads: 53926 |
h-index: 39 | h-index: 39 | Sum of the Times Cited: 5337 |
w-index: 10 | w-index: 11 | Research Interest Score: 3088 |
Articles >100 citations: 12 | Articles >100 citations: 15 | h-index: 43 |
Last Updated: 11/11/2024 | Last Updated: 11/11/2024 | Last Updated: 11/11/2024 |
Publication List (incl. reviews and book chapters)
2024
102. González Ortega-Villaizán A., King E., Patel M.K., Rodríguez-Dobreva E., González-Teuber M., Ramos P., Vicente-Carbajosa J., Benito B., Pollmann S. (2024) Identification of a drought stress response module in tomato plants commonly induced by fungal endophytes that confer increased drought tolerance. Plant Mol. Biol.: accepted
101. Rodríguez-Arriaza F., Gil i Cortiella M., Pollmann S., Morales-Quintana L., Ramos P. (2024) Modulation of Volatile Esters Production in Strawberries Fruits by Endophytic Fungi: Insights into Modulation of the Biosynthetic Pathway Under Drought Condition. Plant Physiol. Biochem., doi: 10.1016/j.plaphy.2024.109347. .
100. Onejeme F.C., González Ortega-Villaizán A., Rodríguez-Dobreva E., Topel Prieto B., Patel M.K., Guendouzi S., Reddy P.Y.N., Lopez L.E., Estevez J.M., Nataraja K.N., Shaanker R.U., Benito B., Vicente-Carbajosa J., Oelmüller R., Pollmann S. (2024) Fusarium sp. strain K-23 alleviates salt stress in Arabidopsis thaliana through its root hair growth-promoting effect. J. Plant Growth Regul., doi: 10.1007/s00344-024-11518-1. .
The endophytic fungus Serendipita indica affects auxin distribution in Arabidopsis thaliana roots through alteration of auxin transport and conjugation to promote plant growth. Plant Cell Environ., 47(10): 3899-3919.98. Hajji-Hedfi L., Rhouma A., Tawfeeq Al-Anu, L.K., El-Abeid S.E., Ibrahim, D.S.S., Acheampong M.A., Bousselma A., González Ortega-Villaizán A., Pollmann S. (2024) Exploring endophytic fungal diversity: Review of traditional and molecular techniques. In: Developments in Applied Microbiology and Biotechnology, Endophytic Fungi. Academic Press. .
97. González Ortega-Villaizán A., King E., Patel M.K., Pollmann S. (2024) Plant Hormone Crosstalk Under Abiotic Stress Conditions. In: Progress in Botany. Springer, Berlin, Heidelberg. .
2023
96. Scholz S.S., Barth E., Clement G., Marmagne A., Ludwig-Müller J., Sakakibara H., Kiba T., Vicente-Carbajosa J., Pollmann S., Krapp A., Oelmüller R. (2023) The root-colonizing endophyte Piriformospora indica supports nitrogen-starved Arabidopsis seedlings with N metabolites. Int. J. Mol. Sci., 24(20): 15372. .
95. Ramos P., Gundel P., Pollmann S. (2023) Editorial: Molecular and biochemical effects exerted by symbiotic microorganisms on plant responses to environmental stresses. Front. Ecol. Evol., 11: 1183310. .
94. Pérez-Llorca M., Pollmann S., Müller M. (2023) Ethylene and jasmonates signaling on secondary metabolites under abiotic stress. Int. J. Mol. Sci., 24(6): 5990. .
93. Ortiz-García P., González Ortega-Villaizán A., Onejeme F.C., Müller M., Pollmann S. (2023) Do Opposites Attract? Auxin-Abscisic acid Crosstalk: New Perspectives. Int. J. Mol. Sci., 24(4): 3090. .
92. Rossatto T., Souza G.M., do Amaral M.N., Auler P.A., Pérez-Alonso M.M., Pollmann S., Braga E.J.B. (2023) Cross-stress memory: salt priming at vegetative growth stages improves tolerance to drought stress during grain-filling in rice plants. Environ. Exp. Bot., 206: 105187. .
2022
91. Bastias D., Balestrini R., Pollmann S., Gundel P.E. (2022) Environmental interference of plant-microbe interactions. Plant Cell Environ., 45(12): 3367-3382.
90. Pérez-Alonso M.M., Guerrero-Galán C., González Ortega-Villaizán A., Ortiz-García P., Scholz S.S., Ramos P., Sakakibara H., Kiba T., Ludwig-Müller J., Krapp A., Oelmüller R., Vicente-Carbajosa J., Pollmann S. (2022) The calcium sensor CBL7 is required for Serendipita indica-induced growth stimulation in Arabidopsis thaliana, controlling defense against the endophyte and K+ homeostasis in the symbiosis. Plant Cell Environ., 45(11): 3387-3398.
89. Morales-Quintana L., Moya M., Santelices-Moya R., Cabrera-Ariza A., Rabert C., Pollmann S., Ramos P. (2022) Improvement in physiological and biochemical performance of strawberry under drought stress through the symbiosis with Antarctic fungal endophytes. Front. Microbiol., 13: 939955.
88. Ortiz-García P., Pérez-Alonso M.M., González Ortega-Villaizán A., Sánchez-Parra B., Ludwig-Müller J., Wilkinson M.D., Pollmann S. (2022) The indole-3-acetamide-induced Arabidopsis transcription factor MYB74 decreases plant growth and contributes to the control of osmotic stress responses. Front. Plant Sci., 13: 928386.
2021
87. Morales-Quintana L., Barrera A., Hereme R., Jara K., Rivera-Mora C., Valenzuela-Riffo F., Gundel P.E., Pollmann S., Molina-Montenegro M.A., Ramos P. (2021) Molecular and structural characterization of expansins modulated by fungal endophytes in the Antarctic Colobanthus quitensis (Kunth) Bartl. exposed to drought stress. Plant Physiol. Biochem., 168: 465-476.
86. Pérez-Alonso M.M., Sánchez-Parra B., Ortiz-García P., Santamaría M.E., Díaz I., Pollmann S. (2021) Jasmonic Acid-dependent MYC Transcription Factors Bind to a Tandem G-box Motif in the YUCCA8 and YUCCA9 Promoters to Regulate Biotic Stress Responses. Int. J. Mol. Sci., 22(18): 9768.
85. Pérez-Alonso M.M., Ortiz-García P., Moya-Cuevas J., Pollmann S. (2021) Mass spectrometric monitoring of plant hormone crosstalk during biotic stress responses in potato (Solanum tuberosum L.). Methods Mol. Biol., 2354: 143-154.
84. Moya-Cuevas J., Pérez-Alonso M.M., Ortiz-García P., Pollmann S. (2021) Beyond the Usual Suspects: Physiological Roles of the Arabidopsis Amidase Signature (AS) Superfamily Members in Plant Growth Processes and Stress Responses. Biomolecules, 11(8): 1207.
83. Sánchez-Parra B., Pérez-Alonso M.M., Ortiz-García P., Moya-Cuevas J., Hentrich M., Pollmann S. (2021) Accumulation of the Auxin Precursor Indole-3-Acetamide Curtails Growth through the Repression of Ribosome-biogenesis and Development-Related Transcriptional Networks. Int. J. Mol. Sci., 22(4): 2040.
82. Pérez-Alonso M.M., Ortiz-García P., Moya-Cuevas J., Lehmann T., Sánchez-Parra B., Björk R.G., Karim S., Amirjani M.R., Aronsson H., Wilkinson M.D., Pollmann S. (2021) Endogenous indole-3-acetamide levels contribute to the crosstalk between auxin and abscisic acid, and trigger plant stress responses in Arabidopsis thaliana. J. Exp. Bot., 72(2): 459-475.
2020
81. Lukan T., Pompe-Novak M., Baebler Š., Tušek Žnidarič M., Kladnik A., Križnik M., Blejec A., Zagorščak M., Stare K., Dušak B., Coll A., Pollmann S., Morgiewicz K., Hennig J., Gruden K. (2020) Precision transcriptomics of viral foci reveals spatial regulation of immune-signaling genes and identifies RBOHD as an important player in the incompatible interaction between potato virus Y and potato. Plant J., 104: 645-661.
80. Pérez-Alonso M.M., Guerrero-Galán C., Scholz S.S., Kiba T., Sakakibara H., Ludwig-Müller J., Krapp A., Oelmüller R., Vicente-Carbajosa J., Pollmann S. (2020) Harnessing symbiotic plant–fungus interactions to unleash hidden forces from extreme plant ecosystems. J. Exp. Bot., 71(13): 3865–3877.
79. Barrera A., Hereme R., Ruiz-Lara S., Larrondo L.F., Gundel P.E., Pollmann S., Molina-Montenegro M.A., Ramos P. (2020) Fungal endophytes enhance the photoprotective mechanisms and photochemical efficiency in the antarctic Colobanthus quitensis (Kunth) Bartl. exposed to UV-B radiation. Front. Ecol. Evol., 8: 122.
2019
78. Rustgi S., Springer A., Kang C., von Wettstein D., Reinbothe C., Reinbothe S., Pollmann S. (2019) ALLENE OXIDE SYNTHASE and HYDROPEROXIDE LYASE, two non-canonical cytochrome P450s in Arabidopsis thaliana and their different roles in plant defense. Int. J. Mol. Sci., 20(12): 3064.
77. Pollmann S., Springer A., Rustgi S., von Wettstein D., Kang C., Reinbothe C., Reinbothe S. (2019) Substrate channeling in oxylipin biosynthesis through a protein complex in the plastid envelope of Arabidopsis thaliana. J. Exp. Bot., 70(5): 1483-1495.
76. Salazar R., Pollmann S., Morales-Quintana L., Herrera R., Caparrós-Ruiz D., Ramos P. (2019) In seedlings of Pinus radiata, jasmonic acid and auxin are differentially distributed on opposite sides of tilted stems affecting lignin monomer biosynthesis and composition. Plant Physiol. Biochem., 135: 215-223.
2018
75. Pérez-Alonso M.M., Pollmann S. (2018) How Auxin May Contribute to the Regulation of Plant Defense Responses against Herbivory. Austin J Plant Biol., 4(1): 1019.
74. Salinas-Grenet H., Herrera-Vásquez A., Parra S., Cortez A., Gutiérrez L., Pollmann S., León G., Blanco-Herrera F. (2018) Modulation of auxin levels in pollen grains affects stamen development and anther dehiscence in Arabidopsis. Int. J. Mol. Sci., 19(9): 2480.
73. Pérez‐Alonso M.M., Carrasco‐Loba V., Pollmann S. (2018). Advances in Plant Metabolomics. In: Annual Plant Reviews online, J.A. Roberts (Ed.).
72. Tenorio-Berrío R., Pérez-Alonso M.M., Vicente-Carbajosa J., Martín-Torres L., Dreyer I., Pollmann S. (2018) Identification of two auxin-regulated potassium transporters involved in seed maturation. Int. J. Mol. Sci., 19(7): 2132.
71. Ramos P., Rivas N., Pollmann S., Casati P., Molina-Montenegro M.A. (2018) Hormonal and physiological changes driven by fungal endophytes increase Antarctic plant performance under UV-B radiation. Fungal Ecol. 34: 76-82.
70. Abbas M., Hernandez-Garcia J., Pollmann S., Samodelov S.L., Kolb M., Friml J., Hammes U.Z., Zurbriggen M.D., Blazquez M.A., Alabadi D. (2018) Auxin methylation is required for differential growth in Arabidopsis. Proc. Natl. Acad. Sci. USA, 115(26): 6864-6869.
69. Pérez-Alonso M.M., Carrasco-Loba V., Medina J., Vicente-Carbajosa J., Pollmann S. (2018) When transcriptomics and metabolomics work hand in hand: a case study characterizing plant CDF transcription factors. High-Throughput 2: 7.
2017
68. Križnik M., Petek M., Dobnik D., Ramšak Z., Baebler S., Pollmann S., Kreuze J.F., Žel J., Gruden K. (2017) Salicylic acid perturbs sRNA-gibberellin regulatory network in immune response of potato to Potato virus Y infection. Front. Plant Sci. 8: 2192.
67. Renau-Morata B., Molina R.V., Carrillo L., Cebolla-Cornejo J., Sánchez-Perales M., Pollmann S., Dominguez-Figueroa J., Corrales A.R., Flexas J., Vicente-Carbajosa J., Medina J., Nebauer S.G. (2017) Ectopic Expression of CDF3 genes in Tomato Enhances Biomass Production and Yield under Salinity Stress Conditions. Front. Plant Sci. 8: 660.
66. Corrales A.R., Carrillo L., Lasierra-Resa P., Nebauer S.G., Dominguez-Figueroa J., Renau-Morata B., Pollmann S., Granell A., Molina R.V., Vicente-Carbajosa J., Medina J. (2017) Multifaceted role of Cycling Dof Factor 3 (CDF3) in the regulation of flowering time and abiotic stress responses in Arabidopsis. Plant Cell Environ. 40(5): 748-764.
65. Carrasco Loba V., Pérez Alonso M.M., Pollmann S. (2017) Monitoring of crosstalk between jasmonate and auxin in the framework of plant stress responses of roots. Methods Mol. Biol. 1569: 175-185.
64. Lehmann T., Janowitz T., Sánchez-Parra B., Pérez Alonso M.M., Trompetter I., Piotrowski M., Pollmann S. (2017) Arabidopsis NITRILASE 1 contributes to the regulation of root growth and development through modulation of auxin biosynthesis in seedlings. Front. Plant Sci. 8: 36.
63. Carrasco Loba V., Pollmann S. (2017) Highly sensitive salicylic acid quantification in milligram amounts of plant tissue. Methods Mol. Biol. 1497: 221-229.
2016
62. Boex-Fontvieillea E., Rustgi S., von Wettstein D., Pollmann S., Reinbothe S., Reinbothe C. (2016) An ethylene-protected Achilles’ heel of etiolated seedlings for arthropod deterrence. Front. Plant Sci. 7: 1246.
61. Boex-Fontvieillea E., Rustgi S., von Wettstein D., Pollmann S., Reinbothe S., Reinbothe C. (2016) Jasmonic acid protects etiolated seedlings of Arabidopsis thaliana against herbivorous arthropods. Plant Signal. Behav. 11(8): e1214349.
60. Wilcoxen J., Arragain S., Scandurra A., Jimenez-Vicente E., Echavarri-Erasun C., Pollmann S., Britt R., Rubio L. (2016) Electron paramagnetic resonance characterization of three iron-sulfur clusters present in the nitrogenase cofactor maturase NifB from Methanocaldococcus infernus. J. Am. Chem. Soc. 138(24): 7468-7471.
59. Silva-Navas J., Moreno-Risueño M., Manzano C., Téllez-Robledo B., Navarro-Neila S., Pollmann S., Carrasco V., Gallego F., del Pozo J.C. (2016) Flavonols mediate root phototropism and growth through regulation of proliferation to differentiation transition. Plant Cell 28(6): 1372–1387.
58. de Marchi R., Sorel M., Mooney B., Fudal I, Goslin K., Kwaśniewska K., Ryan P.T., Pfalz M., Kroymann J., Pollmann S., Feechan A., Wellmer F., Rivas S., Graciet E. (2016) The N-end rule pathway regulates pathogen responses in plants. Sci. Rep. 6: 26020.
57. Zhu J., Bailly A., Zwiewka M., Sovero V., Di Donato M., Ge P., Oehri J., Aryal B., Hao P., Linnert M., Burgardt N.I., Lücke C., Weiwad M., Michel M., Weiergräber O.H., Pollmann S., Azzarello E., Mancuso S., Ferro N., Fukao Y., Hoffmann C., Wedlich-Söldner R., Friml J., Thomas C., Geisler M. (2016) TWISTED DWARF1 mediates the action of auxin transport inhibitors on actin cytoskeleton dynamics. Plant Cell 28(4): 930-948.
56. Springer A., Kang C., Rustgi S., von Wettstein D., Reinbothe C., Pollmann S., Reinbothe S. (2016) Programmed chloroplast destruction during leaf senescence involves 13-lipoxygenase (13-LOX). Proc. Natl. Acad. Sci. USA 113(12): 3383–3388.
2015
55. Salopek-Sondi B., Pollmann S., Gruden K., Oelmüller R., Ludwig-Müller J. (2015) Improvement of root architecture under abiotic stress through control of auxin homeostasis in Arabidopsis and Brassica crops. Endocytobiosis Cell Res.: 100-111.
54. Król P., Igielski R., Pollmann S., Kępczyńska E. (2015) Priming of seeds with methyl jasmonate induced resistance to hemi-biotroph Fusarium oxysporum f.sp. lycopersici in tomato via 12-oxo-phytodienoic acid, salicylic acid, and flavonol accumulation. J. Plant Physiol. 179: 121-132.
2014
53. Sanz L., Fernández-Marcos M., Modrego A., Lewis D.R., Muday G.K., Pollmann S., Dueñas M., Santos-Buelga C., Lorenzo O. (2014) Nitric oxide plays a role in stem cell niche homeostasis through its interaction with auxin. Plant Physiol., 166(4): 1972-1984.
52. Rustgi S., Pollmann S., Buhr F., Springer A., Reinbothe C., von Wettstein D., Reinbothe S. (2014) JIP60-mediated, jasmonate- and senescence-induced molecular switch in translation toward stress and defense protein synthesis. Proc. Natl. Acad. Sci. USA, 111(39): 14181-14186.
51. Sánchez-Parra B., Frerigmann H., Pérez Alonso M.M., Carrasco Loba V., Jost R., Hentrich M., Pollmann S. (2014) Characterization of four bifunctional plant IAM/PAM-amidohydrolases capable of contributing to auxin biosynthesis. Plants, 3(3): 324-347.
50. Corrales A.R., Carrillo L., Nebauer S.G., Renau-Morata B., Sánchez-Perales M., Fernández-Nohales P., Marqués J., Granell A., Pollmann S., Vicente-Carbajosa J., Molina R.V., Medina J. (2014) Salinity Assay in Arabidopsis. Bio-protocol, 4(16): e1216.
49. Renau-Morata B., Sánchez M., Medina J., Molina R.V., Corrales A.R., Carrillo L., Fernández-Nohales P., Marqués J., Pollmann S., Vicente-Carbajosa J., Granell A., Nebauer S.G. (2014) Salinity Assay in tomato. Bio-protocol, 4(16): e1215.
48. Corrales A.R., Nebauer G.S., Carrillo L., Fernandez-Nohales P., Marques J., Renau-Morata B., Granell A., Pollmann S., Vicente-Carbajosa J., Molina R.V., Medina J. (2014) Characterization of tomato Cycling Dof Factors reveals conserved and new functions in the control of flowering time and abiotic stress responses. J. Exp. Bot., 65(4): 995-1012.
47. Tian H., Wabnik K., Niu T., Li H., Yu Q., Pollmann S., Vanneste S., Govaerts W., Rolčík J., Geisler M., Friml J., Ding Z. (2014) WOX5-IAA17 feedback circuit mediated cellular auxin response is crucial for the patterning of root stem cell niches in Arabidopsis. Mol. Plant, 7(2): 277-289.
46. Bailly A., Wang B., Zwiewka M., Pollmann S., Schenck D., Lüthen H., Schulz A., Fukao Y., Friml J., Geisler M. (2014) Expression of TWISTED DWARF1 lacking its in-plane membrane anchor enhances ABCB-mediated auxin efflux leading to increased cell elongation and hypermorphic growth. Plant J. 77(1): 108-118.
2013
45. Hentrich M., Sánchez-Parra B., Pérez Alonso M.M., Carrasco Loba V., Carrillo L., Vicente Carbajosa J., Medina J., Pollmann S. (2013) YUCCA8 and YUCCA9 overexpression reveals a link between auxin signaling and lignification through the induction of ethylene biosynthesis. Plant Signal. Behav. 8(11): e26363.
44. Ahkami A.H., Melzer M., Ghaffari M.R., Pollmann S., Shahinnia F., Ghorbani M., Hajirezaei M.R., Druege U. (2013) Distribution of indole-3-acetic acid in Petunia hybrida shoot tip cuttings and relationship between auxin transport, carbohydrate metabolism and adventitious root formation. Planta 238(3): 499-517.
43. Hentrich M., Böttcher C., Düchting P., Cheng Y., Zhao Y., Berkowitz O., Masle J., Medina J., Pollmann S. (2013) The jasmonic acid signaling pathway is linked to auxin homeostasis through the regulation of YUCCA8 and YUCCA9 gene expression. Plant J. 74(4): 626-637.
2012
42. Kamimoto Y., Terasaka K., Hamamoto M., Takanashi K., Fukuda S., Shitan N., Sugiyama A., Suzuki H., Shibata D., Wang B., Pollmann S., Geisler M., Yazaki K. (2012) Arabidopsis ABCB21 is a facultative auxin im/exporter regulated by cytoplasmic auxin concentration. Plant Cell Physiol. 53(12): 2090-2100.
41. Ding Z., Wang B., Moreno I., Dupláková N., Simon S., Carraro N., Reemmer J., Pěnčík A., Chen X., Tejos R., Skůpa P., Pollmann S., Mravec J., Petrášek J., Zažímalová E., Honys D., Rolčík J., Murphy A., López A.O., Geisler M., Friml J. (2012) ER-localized auxin transporter PIN8 regulates auxin homoeostasis and male gametophyte development in Arabidopsis. Nature Commun. 3: 941.
40. Henrichs S., Wang B., Fukao Y., Zhu J., Charrier L., Bailly A., Oehring S.C., Linnert M., Weiwad M., Endler A., Nanni P., Pollmann S., Mancuso S., Schulz A., Geisler M. (2012) Regulation of ABCB1/PGP1-catalyzed auxin transport by linker phosphorylation. EMBO J. 31(13): 2965-2980.
39. Pollmann S. (2012) Plant hormone metabolism: To be, or not to be in balance. In: Garcia-Jiménez P., Zarranz-Elso M., Robaina-Romero R., eds., Fitohormonas: Metabolismo y modo de acción. Servicio de Publicaciones y Difusión Científica de la Universidad de Las Palmas de Gran Canaria, Las Palmas, pp 17-25.
38. Grossmann K., Christiansen N., Looser R., Tresch S., Hutzler J., Pollmann S., Ehrhardt T. (2012) Physionomics and metabolomics—two key approaches in herbicidal mode of action discovery. Pest Manag. Sci. 68(4): 494-504.
2011
37. Man H., Pollmann S., Weiler E.W., Kirby E.G. (2011) Increased glutamine in leaves of poplar transgenic with pine GS1a caused greater anthranilate synthase a-subunit (ASA1) transcript and protein abundance: an auxin-related mechanism for enhanced growth in GS transgenics? J. Exp. Bot. 62(13): 4423-4431.
36. Hoffmann M., Hentrich M., Pollmann S. (2011) Auxin – oxylipin crosstalk: Relationship of antagonists. J. Integr. Plant Biol. 53(6): 429-445.
35. Samol I., Rossig C., Buhr F., Springer A., Pollmann S., Lahroussi A., von Wettstein D., Reinbothe C., Reinbothe S. (2011) The outer chloroplast envelope protein OEP16-1 is involved in plastid import of NADPH:protochlorophyllide oxidoreductase A in Arabidopsis thaliana. Plant Cell Physiol. 52(1): 96-111.
34. Samol I., Buhr F., Springer A., Pollmann S., Lahroussi A., Rossig C., von Wettstein D., Reinbothe C., Reinbothe S. (2011) Implication of the oep16-1 mutation in a flu-independent, singlet oxygen-regulated cell death pathway in Arabidopsis thaliana. Plant Cell Physiol. 52(1): 84-95.
2010 and before
33. Hoffmann M., Lehmann T., Neu D., Hentrich M., Pollmann S. (2010) Expression of AMIDASE1 (AMI1) is suppressed during the first two days after germination. Plant Signal. Behav. 5(12): 1632-1634.
32. Keuskamp D.H., Pollmann S., Voesenek L.A., Peeters A.J., Pierik R. (2010) Auxin transport through PIN-FORMED 3 (PIN3) controls shade avoidance and fitness during competition. Proc. Natl. Acad. Sci. USA 107(52): 13618-13623.
31. Lehmann T., Hoffmann M., Hentrich M., Pollmann S. (2010) Indole-3-acetamide-dependent auxin biosynthesis: a widely distributed way of indole-3-acetic acid production? Eur. J. Cell Biol. 89(12): 895-905.
30. Reinbothe C., Pollmann S., Reinbothe S. (2010) Singlet oxygen signaling links photosynthesis to translation and plant growth. Trends Plant Sci. 15(9): 499-506.
29. Kim J.Y., Henrichs S., Sovero V., Bailly A., Mancuso S., Pollmann S., Kim D., Geisler M., Nam H.G. (2010) Identification of an ABCB/P-glycoprotein-specific inhibitor of auxin transport by chemical genomics. J. Biol. Chem. 285(30): 23309-23317.
28. Ellinger D., Stingl N., Kubigsteltig I.I., Bals T., Jünger M., Pollmann S., Berger S., Schünemann D., Mueller M.J. (2010) DONGLE and DEFECTIVE IN ANTHER DEHISCENCE1 lipases are not essential for wound- and pathogen-induced jasmonate biosynthesis: redundant lipases contribute to jasmonate formation. Plant Physiol. 153(1): 114-127.
27. Graciet E., Walter F., Ó Maoiléidigh D., Pollmann S., Meyerowitz E.M., Varshavsky A., Wellmer F. (2009) The N-end rule pathway controls multiple functions during Arabidopsis shoot and leaf development. Proc. Natl. Acad. Sci. USA 106(32): 13618-13623.
26. Shahzad A.N., Pollmann S., Schubert S. (2009) Does jasmonic acid control the maize shoot growth during the first phase of salt stress? Proc. Int. Plant Nutr. Colloq. XVI: Paper 1078.
25. Böttcher C., Pollmann S. (2009) Plant oxylipins: The physiological influence of 12-oxo-phytodienoic acid on plant responses is governed by its specific structural and functional properties. FEBS J. 276(17): 4693-4704.
24. Pollmann S. (2009) Plant oxylipins: The versatile functions of cyclic octadecanoids and jasmonates. FEBS J. 276(17): 4665.
23. Khandal D., Samol I., Buhr F., Pollmann S., Schmidt H., Clemens S., Reinbothe S., Reinbothe C. (2009) Singlet oxygen-dependent translational control in the tigrina-d.12 mutant of barley. Proc. Natl. Acad. Sci. USA 106(31): 13112-13117.
22. Lehmann T., Pollmann S. (2009) Gene expression and characterization of a stress-induced tyrosine decarboxylase from Arabidopsis thaliana. FEBS Lett. 583(12): 1895-1900.
21. Pollmann S., Düchting P., Weiler E.W. (2009) Tryptophan-dependent indole-3-acetic acid biosynthesis by ‘IAA-synthase’ proceeds via indole-3-acetamide. Phytochemistry 70(4): 524-532.
20. Berkowitz O., Jost R., Pollmann S., Masle J. (2008) Molecular characterization of the translationally controlled tumor protein (TCTP) from Arabidopsis thaliana. Plant Cell 20(12): 3430-3447.
19. Rothballer M., Eckert B., Schmid M., Fekete A., Schloter M., Lehner A., Pollmann S., Hartmann A. (2008) Endophytic root colonization of gramineous plants by Herbaspirillium frisingense. FEMS Microbiol. Ecol. 66(1): 85-95.
18. Buhr F., Bakkouri M., Valdez O., Pollmann S., Lebedev N., Reinbothe S., Reinbothe C. (2008) Photoprotective role of LHPP revealed by site-directed mutagenesis of NADPH:protochlorophyllide oxidoreductase A. Proc. Natl. Acad. Sci. USA 105(34): 12629-12634.
17. Reinbothe C., Pollmann S., Phetsarath-Faure P., Quigley F., Weisbeek P., Reinbothe S. (2008) A pentapeptide motif related to a pigment binding site in the major light-harvesting protein of photosystem II, LHCII, governs substrate-dependent plastid import of NADPH:protochlorophyllide oxidoreductase (POR) A. Plant Physiol. 148(2): 694-703.
16. Ringli C., Bigler L., Kuhn B., Leiber R.M., Diet A., Santelia D., Frey B., Pollmann S., Klein M. (2008) The modified flavonol glycosylation profile in the Arabidopsis rol1 mutants results in alterations in plant growth and cell shape formation. Plant Cell 20(6): 1470-1481.
15. Schaller F., Zerbe P., Reinbothe S., Reinbothe C., Hofmann E., Pollmann S. (2008) The allene oxide cyclase family of Arabidopsis thaliana – localisation and cyclisation. FEBS J. 275(10): 2428-2441.
14. Hofmann E., Pollmann S. (2008) Molecular mechanism of enzymatic allene oxide cyclization in plants. Plant Physiol. Biochem. 46(3): 302-308.
13. Neu D., Lehmann T., Elleuche S., Pollmann S. (2007) Arabidopsis amidase 1, a member of the amidase signature family. FEBS J. 274(13): 3440-3451.
12. Schemenewitz A., Pollmann S., Reinbothe C., Reinbothe S. (2007) A substrate-independent, 14:3:3 protein-mediated plastid import pathway of NADPH:protochlorophyllide oxidoreductase A. Proc. Natl. Acad. Sci. USA 104(20): 8538-8543.
11. Pollmann S., Springer A., Buhr F., Lahroussi A., Samol I., Bonneville J.M., Tichtinsky G., von Wettstein D., Reinbothe C., Reinbothe S. (2007) A plant porphyria related to defects in plastid import of protochlorophyllide oxidoreductase A. Proc. Natl. Acad. Sci. USA 104(6): 2019-2023.
10. Pollmann S., Neu D., Lehmann T., Berkowitz O., Schäfer T., Weiler E.W. (2006) Subcellular localization and tissue specific expression of amidase 1 from Arabidopsis thaliana. Planta 224(6): 1241-1253.
9. Pollmann S., Müller A., Weiler E.W. (2006) Many roads lead to ‘auxin’: of nitrilases, synthases, and amidases. Plant Biol. 8(3): 326-333.
8. Clément B., Pollmann S., Weiler E.W., Urbanczyk-Wochniak E., Otten L. (2006) The Agrobacterium vitis T-6b oncoprotein induces auxin-independent cell expansion in tobacco. Plant J. 45(6): 1017-1027.
7. Pollmann S., Kück U. (Hrsg.) Praktikum der Molekulargenetik. Springer Verlag, Heidelberg (2005)
6. Reinbothe S., Pollmann S., Springer A., James R.J., Tichtinsky G., Reinbothe C. (2005) A role of Toc33 in the protochlorophyllide-dependent plastid import pathway of NADPH:protochlorophyllide oxidoreductase (POR) A. Plant J. 42(1): 1-12.
5. Reinbothe S., Pollmann S., Desvignes C., Weigele M., Beck E., Reinbothe S. (2004) LHPP, the light-harvesting NADPH:protochlorophyllide (Pchlide) oxidoreductase:Pchlide complex of etiolated plants, is developmentally expressed across the barley leaf gradient. Plant Sci. 167(5): 1027-1041.
4. Reinbothe C., Buhr F., Pollmann S., Reinbothe S. (2003) In vitro reconstitution of light-harvesting POR-protochlorophyllide complex with protochlorophyllides a and b. J. Biol. Chem. 278(2): 807-815.
3. Reinbothe S., Pollmann S., Reinbothe C. (2003) In situ conversion of protochlorophyllide b to protochlorophyllide a in barley. Evidence for a novel role of 7-formyl reductase in the prolamellar body of etioplasts. J. Biol. Chem. 278(2): 800-806.
2. Pollmann S., Neu D., Weiler E.W. (2003) Molecular cloning and characterization of an Amidase from Arabidopsis thaliana capable of converting indole-3-acetamide into the plant growth hormone, indole-3-acetic acid. Phytochemistry 62(3): 293-300.
1. Pollmann S., Müller A., Piotrowski M., Weiler E.W. (2002) Occurrence and formation of indole-3-acetamide in Arabidopsis thaliana. Planta 216(1): 155-161.