@article{RuzanskiSmirnovaRejzeketal.2013,
  author    = {Ruzanski, Christian and Smirnova, Julia and Rejzek, Martin and Cockburn, Darrell and Pedersen, Henriette L. and Pike, Marilyn and Willats, William G. T. and Svensson, Birte and Steup, Martin and Ebenh{\"o}h, Oliver and Smith, Alison M. and Field, Robert A.},
  title     = {A bacterial glucanotransferase can replace the complex maltose metabolism required for starch to sucrose conversion in leaves at night},
  series = {The journal of biological chemistry},
  volume    = {288},
  journal   = {The journal of biological chemistry},
  number    = {40},
  publisher = {American Society for Biochemistry and Molecular Biology},
  address   = {Bethesda},
  issn      = {0021-9258},
  doi       = {10.1074/jbc.M113.497867},
  pages     = {28581 -- 28598},
  year      = {2013},
  abstract  = {Controlled conversion of leaf starch to sucrose at night is essential for the normal growth of Arabidopsis. The conversion involves the cytosolic metabolism of maltose to hexose phosphates via an unusual, multidomain protein with 4-glucanotransferase activity, DPE2, believed to transfer glucosyl moieties to a complex heteroglycan prior to their conversion to hexose phosphate via a cytosolic phosphorylase. The significance of this complex pathway is unclear; conversion of maltose to hexose phosphate in bacteria proceeds via a more typical 4-glucanotransferase that does not require a heteroglycan acceptor. It has recently been suggested that DPE2 generates a heterogeneous series of terminal glucan chains on the heteroglycan that acts as a glucosyl buffer to ensure a constant rate of sucrose synthesis in the leaf at night. Alternatively, DPE2 and/or the heteroglycan may have specific properties important for their function in the plant. To distinguish between these ideas, we compared the properties of DPE2 with those of the Escherichia coli glucanotransferase MalQ. We found that MalQ cannot use the plant heteroglycan as an acceptor for glucosyl transfer. However, experimental and modeling approaches suggested that it can potentially generate a glucosyl buffer between maltose and hexose phosphate because, unlike DPE2, it can generate polydisperse malto-oligosaccharides from maltose. Consistent with this suggestion, MalQ is capable of restoring an essentially wild-type phenotype when expressed in mutant Arabidopsis plants lacking DPE2. In light of these findings, we discuss the possible evolutionary origins of the complex DPE2-heteroglycan pathway.},
  language  = {en}
}
@article{ComparotMossKoettingStettleretal.2010,
  author    = {Comparot-Moss, Sylviane and Koetting, Oliver and Stettler, Michaela and Edner, Christoph and Graf, Alexander and Weise, Sean E. and Streb, Sebastian and Lue, Wei-Ling and MacLean, Daniel and Mahlow, Sebastian and Ritte, Gerhard and Steup, Martin and Chen, Jychian and Zeeman, Samuel C. and Smith, Alison M.},
  title     = {A putative phosphatase, LSF1, is required for normal starch turnover in Arabidopsis leaves},
  issn      = {0032-0889},
  doi       = {10.1104/pp.109.148981},
  year      = {2010},
  abstract  = {A putative phosphatase, LSF1 (for LIKE SEX4; previously PTPKIS2), is closely related in sequence and structure to STARCH-EXCESS4 (SEX4), an enzyme necessary for the removal of phosphate groups from starch polymers during starch degradation in Arabidopsis (Arabidopsis thaliana) leaves at night. We show that LSF1 is also required for starch degradation: lsf1 mutants, like sex4 mutants, have substantially more starch in their leaves than wild-type plants throughout the diurnal cycle. LSF1 is chloroplastic and is located on the surface of starch granules. lsf1 and sex4 mutants show similar, extensive changes relative to wild-type plants in the expression of sugar-sensitive genes. However, although LSF1 and SEX4 are probably both involved in the early stages of starch degradation, we show that LSF1 neither catalyzes the same reaction as SEX4 nor mediates a sequential step in the pathway. Evidence includes the contents and metabolism of phosphorylated glucans in the single mutants. The sex4 mutant accumulates soluble phospho- oligosaccharides undetectable in wild-type plants and is deficient in a starch granule-dephosphorylating activity present in wild-type plants. The lsf1 mutant displays neither of these phenotypes. The phenotype of the lsf1/sex4 double mutant also differs from that of both single mutants in several respects. We discuss the possible role of the LSF1 protein in starch degradation.},
  language  = {en}
}
@article{SonnewaldBasnerGreveetal.1995,
  author    = {Sonnewald, Uwe and Basner, Astrid and Greve, Burkhard and Steup, Martin},
  title     = {A second L-type isozyme of potato glucan phosphorylase : cloning, antisense inhibition and expression analysis},
  year      = {1995},
  language  = {en}
}
@article{FettkeChiaEckermannetal.2006,
  author    = {Fettke, J{\"o}rg and Chia, Tansy and Eckermann, Nora and Smith, Alison M. and Steup, Martin},
  title     = {A transglucosidase necessary for starch degradation and maltose metabolism in leaves at night acts on cytosolic heteroglycans (SHG)},
  issn      = {0960-7412},
  doi       = {10.1111/j.1365-313X.2006.02732.x},
  year      = {2006},
  abstract  = {The recently characterized cytosolic transglucosidase DPE2 (EC 2.4.1.25) is essential for the cytosolic metabolism of maltose, an intermediate on the pathway by which starch is converted to sucrose at night. In in vitro assays, the enzyme utilizes glycogen as a glucosyl acceptor but the in vivo acceptor molecules remained unknown. In this communication we present evidence that DPE2 acts on the recently identified cytosolic water-soluble heteroglycans (SHG) as does the cytosolic phosphorylase (EC 2.4.1.1) isoform. By using in vitro two-step C-14 labeling assays we demonstrate that the two transferases can utilize the same acceptor sites of the SHG. Cytosolic heteroglycans from a DPE2-deficient Arabidopsis mutant were characterized. Compared with the wild type the glucose content of the heteroglycans was increased. Most of the additional glucosyl residues were found in the outer chains of SHG that are released by an endo- alpha-arabinanase (EC 3.2.1.99). Additional starch-related mutants were characterized for further analysis of the increased glucosyl content. Based on these data, the cytosolic metabolism of starch-derived carbohydrates is discussed},
  language  = {en}
}
@misc{SchmaelzlinDongenKlimantetal.2005,
  author    = {Schm{\"a}lzlin, Elmar and Dongen, Joost T. van and Klimant, Ingo and Marmod{\´e}e, Bettina and Steup, Martin and Fishahn, Joachim and Geigenberger, Peter and L{\"o}hmannsr{\"o}ben, Hans-Gerd},
  title     = {An optical multifrequency phase-modulation method using microbeads for measuring intracellular oxygen concentrations in plants},
  url       = {http://nbn-resolving.de/urn:nbn:de:kobv:517-opus-12232},
  year      = {2005},
  abstract  = {A technique has been developed to measure absolute intracellular oxygen concentrations in green plants. Oxygen-sensitive phosphorescent microbeads were injected into the cells and an optical multifrequency phase-modulation technique was used to discriminate the sensor signal from the strong autofluorescence of the plant tissue. The method was established using photosynthesis-competent cells of the giant algae Chara corallina L., and was validated by application to various cell types of other plant species.},
  language  = {en}
}
@article{SchmalzlinvanDongenKlimantetal.2005,
  author    = {Schmalzlin, E. and van Dongen, J. T. and Klimant, I. and Marmodee, Bettina and Steup, Martin and Fisahn, Joachim and Geigenberger, Peter Ludwig and L{\"o}hmannsr{\"o}ben, Hans-Gerd},
  title     = {An optical multifrequency phase-modulation method using microbeads for measuring intracellular oxygen concentrations in plants},
  issn      = {0006-3495},
  year      = {2005},
  abstract  = {A technique has been developed to measure absolute intracellular oxygen concentrations in green plants. Oxygen- sensitive phosphorescent microbeads were injected into the cells and an optical multifrequency phase-modulation technique was used to discriminate the sensor signal from the strong auto fluorescence of the plant tissue. The method was established using photosynthesis- competent cells of the giant algae Chara corallina L., and was validated by application to various cell types of other plant species},
  language  = {en}
}
@article{FettkePoesteEckermannetal.2005,
  author    = {Fettke, J{\"o}rg and Poeste, Simon and Eckermann, Nora and Tiessen, Axel and Pauly, Markus and Geigenberger, Peter Ludwig and Steup, Martin},
  title     = {Analysis of cytosolic heteroglycans from leaves of transgenic potato (Solanum tuberosum L.) plants that under- or overexpress the Pho 2 phosphorylase isozyme},
  year      = {2005},
  abstract  = {During starch degradation, chloroplasts export neutral sugars into the cytosol where they appear to enter a complex glycan metabolism. Interactions between glycans and glucosyl transferases residing in the cytosol were studied by analyzing transgenic potato (Solanum tuberosum L.) plants that possess either decreased or elevated levels of the cytosolic (Pho 2) phosphorylase isoform. Water-soluble heteroglycans (SHGs) were isolated from these plants and were characterized. SHG contains, as major constituents, arabinose, rhamnose, galactose and glucose. Non-aqueous fractionation combined with other separation techniques revealed a distinct pool of the SHG that is located in the cytosol. Under in vitro conditions, the cytosolic heteroglycans act as glucosyl acceptor selectively for Pho 2. Acceptor sites were characterized by a specific hydrolytic degradation following the Pho 2-catalyzed glucosyl transfer. The size distribution of the cytosolic SHG increased during the dark period, indicating a distinct metabolic activity related to net starch degradation. Antisense inhibition of Pho 2 resulted in increased glucosyl and rhamnosyl contents of the glycans. Overexpression of Pho 2 decreased the content of both residues. Compared with the wild type, in both types of transgenic plants the size of the cytosolic glycans was increased},
  language  = {en}
}
@article{StahlLinosKarasetal.1997,
  author    = {Stahl, Bernd and Linos, Alexandros and Karas, Michael and Hillenkamp, Franz and Steup, Martin},
  title     = {Analysis of fructans from higher plants by matrix-assisted laser desorption/ionization mass spectrometry},
  year      = {1997},
  language  = {en}
}
@article{KehrHaebelBlechschmidtSchneideretal.1999,
  author    = {Kehr, Julia and Haebel, Sophie and Blechschmidt-Schneider, Sabine and Willmitzer, Lothar and Steup, Martin and Fisahn, Joachim},
  title     = {Analysis of phloem protein patterns from different organs of Cucurbita maxima Duch. by matrix-assisted laser desorption/ionization time of flight mass spectroscopy combined with sodium dodecyl sufate-polyacryilamide gel electrophoresis},
  year      = {1999},
  language  = {en}
}
@article{DuwenigSteupWillmitzeretal.1997,
  author    = {Duwenig, Elke and Steup, Martin and Willmitzer, Lothar and Kossmann, Jens},
  title     = {Antisense inhibition of cytosolic phosphorylase in potato plants (Solanum tuberosum L.) affects tuber sprouting and flower formation with only little impact on carbohydrate metabolism},
  year      = {1997},
  language  = {en}
}