Güngör E, Brouwer P, Dijkhuizen LW, Shaffar DC, Nierop KG, de Vos RC, Sastre Torano J, van Der Meer IM, Schluepmann H. (2021) Azolla ferns testify: seed plants and ferns share a common ancestor for leucoanthocyanidin reductase enzymes. New Phytologist. 229(2):1118-32.
Dijkhuizen LW, Tabatabaei BE, Brouwer P, Rijken N, Buijs VA, Güngör E, Schluepmann H. (2020) Control of the Azolla symbiosis sexual reproduction: ferns to shed light on the origin of floral regulation?. bioRxiv. 2020 Jan 1.
Brouwer P, Nierop KG, Huijgen WJ, Schluepmann H. (2019) Aquatic weeds as novel protein sources: Alkaline extraction of tannin-rich Azolla. Biotechnology Reports. 24:e00368.
Nierop KG, Brouwer P, Dekker R, Schluepmann H, Reichart GJ. (2018) ω20-Hydroxy and ω9, ω10-dihydroxy biomarker lipids in ferns from the Salviniaceae family. Organic geochemistry 125:229-42.
Brouwer P, Schluepmann H, Nierop KG, Elderson J, Bijl PK, van der Meer I, de Visser W, Reichart GJ, Smeekens S, van der Werf A. (2018) Growing Azolla to produce sustainable protein feed: the effect of differing species and CO2 concentrations on biomass productivity and chemical composition. Journal of the Science of Food and Agriculture. 98(12):4759-68.
Li FW, Brouwer P, Carretero-Paulet L, Cheng S, De Vries J, Delaux PM, Eily A, Koppers N, Kuo LY, Li Z, Simenc M, Small I, Wafula E, Angarita S, Barker MS, Bräutigam A, dePamphilis C, Gould S, Hosmani PS, Huang Y-M, Huettel B, Kato Y, Liu X, Maere S, McDowell R, Mueller LA, Nierop KGJ, Rensing SA, Robison T, Rothfels CJ, Sigel EM, Song Y, Timilsena PR, Van de Peer Y, Wang H, Wilhelmsson PKI, Wolf PG, Xu X, Der JP, Schluepmann H, Wong G K-S, Pryer KM. (2018) Fern genomes elucidate land plant evolution and cyanobacterial symbioses. Nature plants. 4(7):460.
Dijkhuizen LW, Brouwer P, Bolhuis H, Reichart GJ, Koppers N, Huettel B, Bolger AM, Li FW, Cheng S, Liu X, Wong GK, Pryer K, Weber A, Bräutigam A, Schluepmann H. (2018) Is there foul play in the leaf pocket? The metagenome of floating fern Azolla reveals endophytes that do not fix N2 but may denitrify. New Phytologist 217(1):453-66.
Brouwer P, Bräutigam A, Buijs VA, Tazelaar AO, van der Werf A, Schlüter U, Reichart GJ, Bolger A, Usadel B, Weber AP, Schluepmann H. (2017) Metabolic Adaptation, a Specialized Leaf Organ Structure and Vascular Responses to Diurnal N2 Fixation by Nostoc azollae Sustain the Astonishing Productivity of Azolla Ferns without Nitrogen Fertilizer. Frontiers in plant science. 8:442.
Dymek K, Panarese V, Herremans E, Cantre D, Schoo R, Toraño JS, Schluepmann H, Wadso L, Verboven P, Nicolai BM, Dejmek P. (2016) Investigation of the metabolic consequences of impregnating spinach leaves with trehalose and applying a pulsed electric field. Bioelectrochemistry. 112:153-7.
Brouwer, P, van der Werf, A, Schluepmann, H, Reichart, G-J, & Nierop, KG. (2015) Lipid Yield and Composition of Azolla filiculoides and the implications for biodiesel production. BioEnergy Research, 1-9
Vries, J, Fischer, A M, Roettger, M., Rommel, S., Schluepmann, H, Bräutigam, A, Gould, SB. (2015) Cytokinin‐induced promotion of root meristem size in the fern Azolla supports a shoot‐like origin of euphyllophyte roots. New Phytologist. DOI: 10.1111/nph.13630
Bolhuis H, Schluepmann H, Kristalijn J, Sulaiman Z, Marshall DJ. (2014) Molecular analysis of bacterial diversity in mudflats along the salinity gradient of the River Brunei, an acidified tropical Bornean estuary (South East Asia). Aquatic biosystems, 10(1), 1-13
Brouwer P, Bräutigam A, Külahoglu C, Tazelaar AO, Kurz S, Nierop KG, van der Werf A, Weber AP, Schluepmann H. (2014) Azolla domestication towards a biobased economy? New Phytol. 202(3):1069-82
Nunes C, Schluepmann H, Delatte TL, Wingler A, Silva AB, Fevereiro PS, Jansen M, Fiorani F, Wiese-Klinkenberg A, Paul M.(2013) Regulation of growth by the trehalose pathway: relationship to temperature and sucrose. Plant Signal Behav. 8(12):e26626
Nunes C, O'Hara LE, Primavesi LF, Delatte TL, Schluepmann H, Somsen GW, Silva AB, Fevereiro PS, Wingler A, Paul MJ.(2013) The trehalose 6-phosphate/SnRK1 signaling pathway primes growth recovery following relief of sink limitation. Plant Physiol. 162(3):1720-32
Zhang S, Haider I, Kohlen W, Jiang L, Bouwmeester H, Meijer AH, Schluepmann H, Liu C-M, Ouwerkerk PBF(2012) Function of the HD-Zip I gene Oshox22 in ABA-mediated drought and salt tolerances in rice. Plant Mol. Biol. 80(6):571-85
Sastre Toraño J, Delatte TL, Schluepmann H, Smeekens SC, de Jong GJ, Somsen GW. (2012) Determination of trehalose-6-phosphate in Arabidopsis thaliana seedlings by hydrophilic-interaction liquid chromatographymass spectrometry. Anal Bioanal Chem. 403(5):1353-60
Wingler A, Delatte TL, O’Hara LE, Primavesi LF, Jhurreea D, Paul MJ, Schluepmann H (2012) Trehalose 6-phosphate is required for the onset of leaf senescence associated with high carbon availability. Plant Physiol.158(3):1241-51
Schluepmann H, Berke L, Sanchez-Perez GF. (2012) Metabolism control over growth: a case for trehalose-6-phosphate in plants. J. Exp Bot 63(9):3379-90
Delatte TL, Sedijani P, Kondou Y, Matsui M, de Jong GJ, Somsen GW, Wiese-Klinkenberg A, Primavesi LF, Paul MJ, Schluepmann H. (2011) Growth Arrest by Trehalose-6-Phosphate: an astonishing case of primary metabolite control over growth by way of the SnRK1 signaling pathway. Plant Physiol. 157(1):160-74
Ma J, Hanssen M, Lundgren K, Hernández L, Delatte T, Ehlert A, Liu CM, Schluepmann H, Dröge-Laser W, Moritz T, Smeekens S, Hanson J. (2011) The sucrose-regulated Arabidopsis transcription factor bZIP11 reprograms metabolism and regulates trehalose metabolism. New Phytol. 191(3):733-745
Martínez-Barajas E, Delatte T, Schluepmann H, de Jong GJ, Somsen GW, Nunes C, Primavesi LF, Coello P, Mitchell RA, Paul MJ. (2011) Wheat grain development is characterized by remarkable trehalose 6-phosphate accumulation pregrain filling: tissue distribution and relationship to SNF1-related protein kinase1 activity. Plant Physiol. 156(1):373-81
Delatte TL, Schluepmann H, Smeekens SC, de Jong GJ, Somsen GW. (2011) Capillary electrophoresis-mass spectrometry analysis of trehalose-6-phosphate in Arabidopsis thaliana seedlings. Anal Bioanal Chem. 400(4):1137-44
Paul MJ, Jhurreea D, Zhang Y, Primavesi LF, Delatte T, Schluepmann H, Wingler A. (2010) Upregulation of biosynthetic processes associated with growth by trehalose 6-phosphate. Plant Signal Behav 5(4):386-92
Schluepmann H, Paul M (2009) Trehalose metabolites in Arabidopsis- elusive, active and central. The Arabidopsis Book. 7:e0122. Epub 2009 Jul 14
Delatte TL, Selman MHJ, Schluepman H, Somsen GW, Smeekens JCM, de Jong GJ (2009) Determination of trehalose-6-phosphate in Arabidopsis seedlings by successive extractions followed by anion exchange chromatography-mass spectrometry. Anal Biochem. 389(1):12-7
Zhang Y, Primavesi LF, Jhurreea D, Andralojc PJ, Mitchell R, Powers S, Schluepmann H, Wingler A, Paul M. (2009) Trehalose 6-phosphate indirectly inhibits the central regulator SnRK1. Plant Physiol. 149(4):1860-71
Kolbe A, Tiessen A, Schluepmann H, Paul M, Ulrich S and Geigenberger P. (2005) Trehalose 6-phosphate regulates starch synthesis via posttranslational redox activation of ADP-glucose pyrophosphorylase. Proc Natl Acad Sci U S A. 102(31):11118-23
Schluepmann H, van Dijken A, Aghdasi M, Wobbes B, Paul M, Smeekens S. (2004) Trehalose mediated growth inhibition of Arabidopsis seedlings is due to trehalose-6-phosphate accumulation. Plant Physiol.135(2):879-904
van Dijken AJ, Schluepmann H, Smeekens SC. (2004) Arabidopsis trehalose-6-phosphate synthase 1 is essential for normal vegetative growth and transition to flowering. Plant Physiol. 135(2):969-77
Schluepmann H, Pellny T, van Dijken A, Smeekens S, Paul M (2003) Trehalose 6-phosphate is indispensable for carbohydrate utilization and growth in Arabidopsis thaliana. Proc Natl Acad Sci U S A. 100(11):6849-54
Pellny TK, Ghannoum O, Conroy JP, Schluepmann H, Smeekens S, Andraloj J, Krause KP, Goddijn O, Paul M (2003) Genetic modification of photosynthesis with E. coli genes for trehalose synthesis. Plant Biotech J.1(2):71-82
Schlupmann H, Bacic A, Read SM (1994) Uridine Diphosphate Glucose Metabolism and Callose Synthesis in Cultured Pollen Tubes of Nicotiana alata Link et Otto. Plant Physiol. 105(2):659-670
Schlupmann H, Bacic A, Read SM (1993) A nove1 callose synthase from pollen tubes of Nicotiana. Planta 191: 470-481
Paszkowski J, Peterhans A, Schlüpmann H, Basse C, Lebel EG, Masson J (1992) Protoplasts as tools for plant genome modifications. Physiol. Plant. 85(2):352-356
Peterhans A, Schlupmann H, Basse C, Paszkowski J (1990) Intrachromosomal recombination in plants. EMBO J. 9(11):3437-45.
Smeekens Josephus Christianus, Schluepmann Henriette: Method for selecting genetically transformed cells. Stichting Tech Wetenschapp June 2005: CN 02823127 CN1622999A, CN100560726C, DE60209137D1, DE60209137T2, EP1442126A1, EP1442126B1, US7449290, US20050084971, WO2003040377A1
Smeekens Josephus Christianus, Schluepmann Henriette: Method for selecting genetically transformed cells. Stichting Tech Wetenschapp August 2004: EP 1442126-A1
Schluepmann Henriette, Smeekens Josephus Christianus: Method for enhancing the disease resistance in plants by altering trehalose-6-phosphate levels. Stichting Tech Wetenschapp January 2004: EP 1375669-A1
Schluepmann H, Paul M (2008) Trehalose metabolites in Arabidopsis- elusive, active and central. The Arabidopsis Book, Editor, Graham I; Publisher, ASPB