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Uppsala University Uppsala University Section of Chemistry
Section of Chemistry

Molecular Biomimetics

  • Biophysical and Bioinorganic Chemistry
  • Microbial Chemistry
    • Lindberg Group
    • Lindblad Group
    • Stensjö Group
      • Ongoing research
      • Publications
      • People
    • Publications
  • Electron Paramagnetic Resonance Center
  • Education
  • Facilities
  • People
  • Publications
Uppsala University Section of Chemistry Research Molecular Biomimetics Microbial Chemistry Stensjö Group Publications
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Molecular Biomimetics

  • Biophysical and Bioinorganic Chemistry
  • Microbial Chemistry
    • Lindberg Group
    • Lindblad Group
    • Stensjö Group
      • Ongoing research
      • Publications
      • People
    • Publications
  • Electron Paramagnetic Resonance Center
  • Education
  • Facilities
  • People
  • Publications

Our publications

  • Structural diffusion properties of two atypical Dps from the cyanobacterium Nostoc punctiforme disclose interactions with ferredoxins and DNA.

    Moparthi, V., Moparthi, S., Howe, C., Raleiras, P., Wenger, J. et al. (2019). Biochimica et Biophysica Acta - Bioenergetics, vol. 1860 DOI
  • Structural diffusion properties of two atypical Dps from the cyanobacterium Nostoc punctiforme disclose interactions with ferredoxins and DNA.

    Moparthi, Vamsi; Moparthi, Satish; Howe, Christoph; Raleiras, Patrícia; Wenger, Jerome et al.
  • The Dps4 from Nostoc punctiforme ATCC 29133 is a member of His-type FOC containing Dps protein class that can be broadly found among cyanobacteria.

    Howe, C., Moparthi, V., Ho, F., Persson, K., Stensjö, K. (2019). PLoS ONE, . vol. 14 DOI
  • Homologous overexpression of NpDps2 and NpDps5 increases the tolerance for oxidative stress in the multicellular cyanobacterium Nostoc punctiforme.

    Li, X., Mustila, H., Magnuson, A., Stensjö, K. (2018). FEMS Microbiology Letters, vol. 365 DOI
  • Differential biochemical properties of three canonical Dps proteins from the cyanobacterium Nostoc punctiforme suggest distinct cellular functions.

    Howe, C., Ho, F., Nenninger, A., Raleiras, P., Stensjö, K. (2018). Journal of Biological Chemistry, vol. 293, ss. 16635-16646 DOI
  • Harnessing transcription for bioproduction in cyanobacteria.

    Stensjö, K., Vavitsas, K., Tyystjärvi, T. (2018). Physiologia Plantarum, . vol. 162, ss. 148-155 DOI
  • Design and characterization of a synthetic minimal promoter for heterocyst-specific expression in filamentous cyanobacteria.

    Wegelius, A., Li, X., Turco, F., Stensjö, K. (2018). PLoS ONE, vol. 13 DOI
  • The two Dps proteins, NpDps2 and NpDps5, are involved in light-induced oxidative stress tolerance in the N2-fixing cyanobacterium Nostoc punctiforme.

    Moparthi, V., Li, X., Vavitsas, K., Dzhygyr, I., Sandh, G. et al. (2016). Biochimica et Biophysica Acta - Bioenergetics, . vol. 1857, ss. 1766-1776 DOI
  • Molecular Cloning and Biochemical Characterization of the Iron Superoxide Dismutase from the Cyanobacterium Nostoc punctiforme ATCC 29133 and Its Response to Methyl Viologen-Induced Oxidative Stress.

    Moirangthem, L., Ibrahim, K., Vanlalsangi, R., Stensjö, K., Lindblad, P. et al. (2015). Molecular Biotechnology, vol. 57, ss. 1003-1009 DOI
  • Differential transcriptional regulation of orthologous dps genes from two closely related heterocyst-forming cyanobacteria.

    Li, X., Sandh, G., Nenninger, A., Muro-Pastor, A., Stensjo, K. (2015). FEMS Microbiology Letters, vol. 362 DOI
  • Analysis of the early heterocyst Cys-proteome in the multicellular cyanobacterium Nostoc punctiforme reveals novel insights into the division of labor within diazotrophic filaments.

    Sandh, G., Ramström, M., Stensjö, K. (2014). BMC Genomics, vol. 15 DOI
  • Production of Squalene in Synechocystis sp. PCC 6803.

    Englund, E., Pattanaik, B., Ubhayasekera, S., Stensjö, K., Bergquist, J. et al. (2014). PLoS ONE, vol. 9, ss. e90270- DOI Download fulltext
  • A high constitutive catalase activity confers resistance to methyl viologen-promoted oxidative stress in a mutant of the cyanobacterium Nostoc punctiforme ATCC 29133.

    Moirangthem, L., Bhattacharya, S., Stensjö, K., Lindblad, P., Bhattacharya, J. (2014). Applied Microbiology and Biotechnology, Berlin: Springer Berlin/Heidelberg. vol. 98, ss. 3809-3818 DOI
  • Cellular and functional specificity among ferritin-like proteins in the multicellular cyanobacterium Nostoc punctiforme..

    Ekman, M., Sandh, G., Nenninger, A., Oliveira, P., Stensjö, K. (2014). Environmental Microbiology, Oxford: Wiley-Blackwell. vol. 16, ss. 829-844 DOI
  • Photosynthetic Hydrogen Production: Mechanisms and Approaches..

    Stensjö, K. (2011). I In State of the Art and Progress in Production of Biohydrogen .
  • Global quantitative proteomic analyses of Nostoc punctiforme PCC 73102 under diazotrophic conditions using iTRAQ and label-free techniques.

    Stensjö, K., Ow, S. (2008). I
  • Cellular scale qualitative shotgun proteomic analysis of Nostoc sp. PCC 7120 isolated heterocysts and filaments under N2 deficient conditions using 8-plex isobaric peptide tags.

    Stensjö, K., Ow, S. (2007). I
  • An 8-plex iTRAQ Shotgun Proteomics Investigation of N2-fixing Heterocysts in the Cyanobacterium Nostoc sp. PCC 7120.

    Stensjö, K., Ow, S. (2007). I
  • Characterization of the hupSL promoter activity in Nostoc punctiforme ATCC 29133.

    Holmqvist, M., Stensjö, K., Oliviera, P., Lindberg, P., Lindblad, P. (2009). BMC Microbiology, vol. 11, ss. 54- DOI
  • Photosynthetic electron transport properties of an uptake hydrogenase deletion mutant of Nostoc punctiforme PCC 73102.

    Stensjö, K. (2007). Photosynthesis. Energy from the Sun .
  • Reconstitution of cyanogenesis in barley and its implications for resistance against the barley powdery mildew fungus.

    Forslund, K. (2006). Planta, vol. 223, ss. 1010-1023
  • Biosynthesis of the Nitrile Glucosides Rhodiocyanoside A and D and the Cyanogenic Glucosides Lotaustralin and Linamarin in Lotus japonicus..

    Forslund, K. (2004). Plant Physiology, vol. 135, ss. 71-84
  • Plant-Insect Interactions as a Response to Metabolic Engineering of Natural Product Synthesis studied by Functional Genomics in Lotus japonicus.

    Forslund, K., Bak, S. (2003). Plant Physiology, vol. 131, ss. 844-846
  • Aphid infestation induces PR-proteins differently in barley susceptible or resistant to the birdcherry-oat aphid (Rhopalosiphum  padi).

    Forslund, K. (2000). Physiologia Plantarum, vol. 110, ss. 496-502
  • Settling behaviour of Rhopalosiphum padi  in relation to cyanogenic glycosides and gramine contents in barley.

    Forslund, K. (1998). Acta Agriculturae Scandinavica - Section B, vol. 48, ss. 107-112
  • Cyanogenic glycosides and their metabolic enzymes in barley in relation to nitrogen levels..

    Forslund, K. (1997). Acta Physiologiae Plantarum, vol. 101, ss. 367-372
  • Design, Engineering, and Construction of Photosynthetic Microbial Cell Factories for Renewable Solar Fuel Production.

    Lindblad, P., Lindberg, P., Oliveira, P., Stensjö, K., Heidorn, T. (2012). Ambio, vol. 41, ss. 163-168 DOI
  • CRISPR in the extended hyp-operon of the cyanobacterium Nostoc sp. strain PCC 7120, characteristics and putative function(s).

    Agervald, Å., Camsund, D., Stensjö, K., Lindblad, P. (2012). International journal of hydrogen energy, vol. 37, ss. 8828-8833 DOI
  • Quantitative shotgun proteomics of enriched heterocysts from Nostoc sp. PCC 7120 using 8-Plex isobaric peptide tags.

    Ow, S., Cardona, T., Taton, A., Magnuson, A., Lindblad, P. et al. (2008). Journal of Proteome Research, vol. 7, ss. 1615-1628 DOI
  • Biomimetic and Microbial Approaches to Solar Fuel Generation.

    Magnuson, A., Anderlund, M., Johansson, O., Lindblad, P., Lomoth, R. et al. (2009). Accounts of Chemical Research, vol. 42, ss. 1899-1909 DOI
  • Electron transfer protein complexes in the thylakoid membranes of heterocysts from the cyanobacterium Nostoc punctiforme.

    Cardona, T., Battchikova, N., Zhang, P., Stensjö, K., Aro, E. et al. (2009). Biochimica et Biophysica Acta - Bioenergetics, . vol. 1787, ss. 252-263 DOI
  • HupW Protease Specifically Required for Processing of the Catalytic Subunit of the Uptake Hydrogenase in the Cyanobacterium Nostoc sp Strain PCC 7120.

    Lindberg, P., Devine, E., Stensjö, K., Lindblad, P. (2012). Applied and Environmental Microbiology, vol. 78, ss. 273-276 DOI
  • Modeling Photosystem I with the alternative reaction center protein PsaB2 in the nitrogen fixing cyanobacterium Nostoc punctiforme.

    Magnuson, A., Krassen, H., Stensjö, K., Ho, F., Styring, S. (2011). Biochimica et Biophysica Acta - Bioenergetics, vol. 1807, ss. 1152-1161 DOI
  • Synthetic Biology in Cyanobacteria: Engineering and Analyzing Novel Functions.

    Heidorn, T., Camsund, D., Huang, H., Lindberg, P., Oliveira, P. et al. (2011). Methods in Enzymology, vol. 497, ss. 539-579 DOI
  • A HupS-GFP fusion protein demonstrates a heterocyst-specific localization of the uptake hydrogenase in Nostoc punctiforme.

    Camsund, D., Devine, E., Holmqvist, M., Yohanoun, P., Lindblad, P. et al. (2011). FEMS Microbiology Letters, . vol. 316, ss. 152-159 DOI
  • The CyAbrB transcription factor CalA regulates the iron superoxide dismutase in Nostoc sp. strain PCC 7120.

    Agervald, Å., Baebprasert, W., Zhang, X., Incharoensakdi, A., Lindblad, P. et al. (2010). Environmental Microbiology, vol. 12, ss. 2826-2837 DOI
  • The protease HupW is specific for the uptake hydrogenase in Nostoc sp. strain PCC 7120.

    Devine, Ellenor; Lindberg, Pia; Stensjö, Karin; Lindblad, Peter
  • Transcriptional analysis of the hydrogenase specific proteases in Nostoc punctiforme and Nostoc sp. strain PCC 7120.

    Devine, Ellenor; Holmqvist, Marie; Stensjö, Karin; Lindblad, Peter
  • An in-silico study of the NtcA transcription factor family in filamentous cyanobacteria.

    Devine, Ellenor; Stensjö, Karin; Lindblad, Peter
  • A HupS-GFP fusion protein demonstrates a heterocyst specific localisation of the uptake hydrogenase in the cyanobacterium Nostoc punctiforme.

    Camsund, D., Devine, E., Holmqvist, M., Peter, Y., Lindblad, P. et al. FEMS Microbiology Letters
  • Metabolic Adaptations in a H-2 Producing Heterocyst-Forming Cyanobacterium: Potentials and Implications for Biological Engineering.

    Ekman, M., Ow, S., Holmqvist, M., Zhang, X., van Wagenen, J. et al. (2011). Journal of Proteome Research, . vol. 10, ss. 1772-1784 DOI
  • Diversity and transcription of proteases involved in the maturation of hydrogenases in Nostoc punctiforme ATCC 29133 and Nostoc sp strain PCC 7120.

    Devine, E., Holmqvist, M., Stensjö, K., Lindblad, P. (2009). BMC Microbiology, vol. 9, ss. 53- DOI
  • Transcript analysis of the extended hyp-operons in the cyanobacteria Nostoc sp. strain PCC 7120 and Nostoc punctiforme ATCC 29133.

    Holmqvist, M., Lindberg, P., Agervald, Å., Stensjö, K., Lindblad, P. (2011). BMC Research Notes, London: BioMed Central. vol. 4 DOI
  • CalA, a cyanobacterial AbrB protein, interacts with the upstream region of hypC and acts as a repressor of its transcription in the cyanobacterium Nostoc sp. strain PCC 7120.

    Agervald, Å., Zhang, X., Stensjö, K., Devine, E., Lindblad, P. (2010). Applied and Environmental Microbiology, vol. 76, ss. 880-890 DOI
  • The CyAbrB transcription factor Alr0946 regulates the iron superoxide dismutase in Nostoc sp. strain PCC 7120.

    Agervald, Åsa; Baebprasert, Wipawee; Lindblad, Peter; Stensjö, Karin
  • Transcription of the extended hyp-operon in Nostoc sp. strain PCC 7120.

    Agervald, Å., Stensjö, K., Holmqvist, M., Lindblad, P. (2008). BMC Microbiology, vol. 8, ss. 69- DOI
  • Quantitative overview of N2 fixation in Nostoc punctiforme ATCC 29133 through cellular enrichments and iTRAQ shotgun proteomics.

    Ow, S., Noirel, J., Cardona, T., Taton, A., Lindblad, P. et al. (2009). Journal of Proteome Research, USA: ACS Publications. vol. 8, ss. 187-198 DOI
  • An iTRAQ-based quantitative analysis to elaborate the proteomic response of Nostoc sp PCC 7120 under N-2 fixing conditions.

    Stensjö, K., Ow, S., Barrios-Llerena, M., Lindblad, P., Wright, P. (2007). Journal of Proteome Research, vol. 6, ss. 621-635 DOI
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The Section of Chemistry consists of two departments:

Department of Chemistry - BMC
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Department of Chemistry - Ångström
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