伟德国际_伟德国际1946$娱乐app游戏

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Prof. Dr. Regina Fluhrer

Head of chair
Biochemistry and Molecular Biology
Phone: +49 (0) 821 598-71014
Email:
Room: A-EG-021 Neus?? (Faculty of 伟德国际_伟德国际1946$娱乐app游戏icine / Gutenbergstra?e 7)
Address: Gutenbergstra?e 7, 86356 Neus??
Postal address: Universit?tsstra?e 2, 86159 Augsburg

Vita

Prof. Dr. rer. nat. Regina Fluhrer studied food chemistry at Ludwig-Maximilians-Universit?t München (LMU) and the Technical 伟德国际_伟德国际1946$娱乐app游戏 of Munich (TUM). As part of her doctorate (2000–2003) at the Institute of Metabolic Biochemistry at the LMU in Munich, she examined the catalytic specificities of the two aspartyl proteases BACE-1 (?-site APP cleaving enzyme), a key factor in the development of Alzheimer's disease, and BACE-2. As a postdoctoral researcher (2003–2005), Prof. Fluhrer became increasingly interested in intramembrane proteases. She completed her postdoctoral qualification in 2008 and since then headed a research group at the LMU and the German Center for Neurodegenerative Diseases (DZNE) with focus on the function of the signal peptide-peptidase family (SPP / SPPL).

For her research achievements, she received the B?hringer Ingelheim APOPIS Prize for Young Scientists. From 2006 to 2019, Prof. Fluhrer was responsible for the education of medical students in biochemistry and molecular biology at the LMU.

Since April 2019, she holds the Chair of Biochemistry and Molecular Biology at the newly founded Faculty of 伟德国际_伟德国际1946$娱乐app游戏icine at the 伟德国际_伟德国际1946$娱乐app游戏 of Augsburg. She is involved in numerous committees for the further development of the medical curriculum and was awarded the prize for good teaching by the Bavarian Minister of State in 2012.

Research Focuses

  • The research of the newly founded chair focuses on proteolytic processes taking place in cellular membranes.
  • Future research projects will deal with the regulation of intramembrane proteases in the context of tumor development, obesity, type II diabetes and immunological diseases.
  • We will also investigate how various environmental influences and dietary habits affect intramembrane proteases.

Memberships

  • Member of ?Gesellschaft für Biochemie und Molekularbiologie e.V.“ (GBM)
  • Member of ?Biochemie in der 伟德国际_伟德国际1946$娱乐app游戏izin“ within the GBM
  • Member of the International Proteolysis Society (IPS)
  • Member of PROTEOCURE

Publications

2024 | 2023 | 2022 | 2020 | 2019 | 2018 | 2017 | 2016 | 2015 | 2014 | 2013 | 2012 | 2011 | 2010 | 2009 | 2008 | 2007 | 2006 | 2005 | 2003 | 2002 | 2001

2024

Sharrouf Kinda, Schlosser Christine, Mildenberger Sandra, Fluhrer Regina, Hoeppner Sabine. In vitro cleavage of tumor necrosis factor α (TNFα) by Signal-Peptide-Peptidase-like 2b (SPPL2b) resembles mechanistic principles observed in the cellular context. https://doi.org/10.1016/j.cbi.2024.111006
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Maccioni Riccardo, Travisan Caterina, Badman Jack, Zerial Stefania, Wagener Annika, Andrade-Talavera Yuniesky, Picciau Federico, Grassi Caterina, Chen Gefei, Lemoine Laetitia, Fisahn André, Jiang Richeng, Fluhrer Regina, Mentrup Torben, Schr?der Bernd, Nilsson Per, Tambaro Simone. Signal peptide peptidase-like 2b modulates the amyloidogenic pathway and exhibits an Aβ-dependent expression in Alzheimer's disease. https://doi.org/10.1016/j.pneurobio.2024.102585
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Mentrup Torben, Leinung Nadja, Patel Mehul, Fluhrer Regina, Schr?der Bernd. The role of SPP/SPPL intramembrane proteases in membrane protein homeostasis. https://doi.org/10.1111/febs.16941
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2023

Smit P., Buehring-Uhle C., Nather C., Negraschus A., Goldmann U., Papadopoulou Alkmini A., Riviere J., Morath V., Henkel E., Bromberger T., Goetze K., Heinz L., Fluhrer Regina, Moser M., Superti-Furga G., Bassermann F., Eichner R.. Inhibiting MGAT1-mediated N-glycosylation reduces proliferation and adhesion of AML cells and increases affinities of anti-SLC3A2 directed immunotherapies [Abstract]. https://doi.org/10.1159/000533576
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Hoeppner Sabine, Schr?der Bernd, Fluhrer Regina. Structure and function of SPP/SPPL proteases: insights from biochemical evidence and predictive modeling. https://doi.org/10.1111/febs.16968
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2022

Heard Amanda, Landmann Jack H., Hansen Ava R., Papadopolou Alkmini, Hsu Yu-Sung, Selli Mehmet Emrah, Warrington John M., Lattin John, Chang Jufang, Ha Helen, Haug-Kr?per Martina, Doray Balraj, Gill Saar, Ruella Marco, Hayer Katharina E., Weitzman Matthew D., Green Abby M., Fluhrer Regina, Singh Nathan. Antigen glycosylation regulates efficacy of CAR T cells targeting CD19. https://doi.org/10.1038/s41467-022-31035-7
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Papadopoulou Alkmini A., Stelzer Walter, Silber Mara, Schlosser Christine, Spitz Charlotte, Haug-Kr?per Martina, Straub Tobias, Müller Stephan A., Lichtenthaler Stefan F., Muhle-Goll Claudia, Langosch Dieter, Fluhrer Regina. Helical stability of the GnTV transmembrane domain impacts on SPPL3 dependent cleavage. https://doi.org/10.1038/s41598-022-24772-8
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Mentrup Torben, Stumpff-Niggemann Anna Yamina, Leinung Nadja, Schlosser Christine, Schubert Katja, Wehner Rebekka, Tunger Antje, Schatz Valentin, Neubert Patrick, Gradtke Ann-Christine, Wolf Janina, Rose-John Stefan, Saftig Paul, Dalpke Alexander, Jantsch Jonathan, Schmitz Marc, Fluhrer Regina, Jacobsen Ilse D., Schr?der Bernd. Phagosomal signalling of the C-type lectin receptor Dectin-1 is terminated by intramembrane proteolysis. https://doi.org/10.1038/s41467-022-29474-3
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Bühring-Uhle C., Smit P., Negraschus A., Morath V., Goldmann U., Papadopoulou Alkmini A., Heider M., Riviere J., G?tze K., Heinz L., Fluhrer Regina, Moser M., Superti-Furga G., Bassermann F., Eichner R.. SPPL3 and its substrate glycosyltransferases regulate the N-glycosylation of SLC3A2 and alter the affinities of anti-SLC3A2 immunotherapies in AML [Abstract]. https://doi.org/10.1159/000526456
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2020

Spitz Charlotte, Schlosser Christine, Guschtschin-Schmidt Nadja, Stelzer Walter, Menig Simon, G?tz Alexander, Haug-Kr?per Martina, Scharnagl Christina, Langosch Dieter, Muhle-Goll Claudia, Fluhrer Regina. Non-canonical shedding of TNFα by SPPL2a is determined by the conformational flexibility of its transmembrane helix. https://doi.org/10.1016/j.isci.2020.101775
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Mentrup Torben, Cabrera-Cabrera Florencia, Fluhrer Regina, Schr?der Bernd. Physiological functions of SPP/SPPL intramembrane proteases. https://doi.org/10.1007/s00018-020-03470-6
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Papadopoulou Alkmini A., Fluhrer Regina. Signalling functions of intramembrane aspartyl-proteases. https://doi.org/10.3389/fcvm.2020.591787
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Brugger Manuel S., Baumgartner Kathrin, Mauritz Sophie C. F., Gerlach Stefan C., R?der Florian, Schlosser Christine, Fluhrer Regina, Wixforth Achim, Westerhausen Christoph. Vibration enhanced cell growth induced by surface acoustic waves as in vitro wound healing model. https://doi.org/10.1073/pnas.2005203117
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2019

Mentrup Torben, Theodorou Kosta, Cabrera-Cabrera Florencia, Helbig Andreas O., Happ Kathrin, Gijbels Marion, Gradtke Ann-Christine, Rabe Bj?rn, Fukumori Akio, Steiner Harald, Tholey Andreas, Fluhrer Regina, Donners Marjo, Schr?der Bernd. Atherogenic LOX-1 signaling is controlled by SPPL2-mediated intramembrane proteolysis. https://doi.org/10.1084/jem.20171438
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Fluhrer Regina, Hampe Wolfgang, editors. Biochemie hoch 2 und Molekularbiologie.
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Fluhrer Regina. Intramembrane proteases in neurodegenerative diseases.
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Fluhrer Regina. Intramembrane proteases in the immune system.
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Papadopoulou Alkmini A., Müller Stephan A, Mentrup Torben, Shmueli Merav D, Niemeyer Johannes, Haug‐Kr?per Martina, von Blume Julia, Mayerhofer Artur, Feederle Regina, Schr?der Bernd, Lichtenthaler Stefan F., Fluhrer Regina. Signal peptide peptidase‐like 2c (SPPL2c) impairs vesicular transport and cleavage of SNARE proteins. https://doi.org/10.15252/embr.201846451
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Niemeyer Johannes, Mentrup Torben, Heidasch Ronny, Müller Stephan A, Biswas Uddipta, Meyer Rieke, Papadopoulou Alkmini A., Dederer Verena, Haug‐Kr?per Martina, Adamski Vivian, Lüllmann-Rauch Renate, Bergmann Martin, Mayerhofer Artur, Saftig Paul, Wennemuth Gunther, Jessberger Rolf, Fluhrer Regina, Lichtenthaler Stefan F., Lemberg Marius K, Schr?der Bernd. The intramembrane protease SPPL2c promotes male germ cell development by cleaving?phospholamban. https://doi.org/10.15252/embr.201846449
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Fluhrer Regina, Schr?der Bernd. What is the role of the intramembrane proteases in cancer?.
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2018

Fluhrer Regina. A unique family of intramembrane proteases. https://doi.org/10.26320/SCIENTIA179
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Fluhrer Regina. Health report: the challenge of cleaving proteins in the membrane.
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Fluhrer Regina. Intramembrane proteases - regulators of cellular pathways.
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Lichtenthaler Stefan F., Lemberg Marius K., Fluhrer Regina. Proteolytic ectodomain shedding of membrane proteins in mammals - hardware, concepts, and recent developments. https://doi.org/10.15252/embj.201899456
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2017

Jules Felix, Sauvageau Etienne, Dumaresq-Doiron Karine, Mazzaferri Javier, Haug-Kr?per Martina, Fluhrer Regina, Costantino Santiago, Lefrancois Stephane. CLN5 is cleaved by members of the SPP/SPPL family to produce a mature soluble protein. https://doi.org/10.1016/j.yexcr.2017.04.024
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Mentrup Torben, Fluhrer Regina, Schr?der Bernd. Latest emerging functions of SPP/SPPL intramembrane proteases. https://doi.org/10.1016/j.ejcb.2017.03.002
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Mentrup Torben, Loock Ann-Christine, Fluhrer Regina, Schr?der Bernd. Signal peptide peptidase and SPP-like proteases: possible therapeutic targets?. https://doi.org/10.1016/j.bbamcr.2017.06.007
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2016

Hüttl Susann, Helfrich F., Mentrup Torben, Held S., Fukumori Akio, Steiner Harald, Saftig Paul, Fluhrer Regina, Schroder B.. Substrate determinants of signal peptide peptidase-like 2a (SPPL2a)-mediated intramembrane proteolysis of the invariant chain CD74. https://doi.org/10.1042/bcj20160156
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2015

Mentrup Torben, H?sler Robert, Fluhrer Regina, Saftig Paul, Schr?der Bernd. A cell-based assay reveals nuclear translocation of intracellular domains released by SPPL proteases. https://doi.org/10.1111/tra.12287
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Kamp Frits, Winkler Edith, Trambauer Johannes, Ebke Amelie, Fluhrer Regina, Steiner Harald. Intramembrane proteolysis of β-amyloid precursor protein by γ-secretase is an unusually slow process. https://doi.org/10.1016/j.bpj.2014.12.045
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Fleck Daniel, Voss Matthias, Brankatschk Ben, Giudici Camilla, Hampel Heike, Schwenk Benjamin, Edbauer Dieter, Fukumori Akio, Steiner Harald, Kremmer Elisabeth, Haug-Kr?per Martina, Rossner Moritz J., Fluhrer Regina, Willem Michael, Haass Christian. Proteolytic processing of neuregulin 1 type III by three intramembrane-cleaving proteases. https://doi.org/10.1074/jbc.m115.697995
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Kuhn Peer-Hendrik, Voss Matthias, Haug-Kr?per Martina, Schr?der Bernd, Schepers Ute, Br?se Stefan, Haass Christian, Lichtenthaler Stefan F., Fluhrer Regina. Secretome analysis identifies novel signal peptide peptidase-like 3 (Sppl3) substrates and reveals a role of Sppl3 in multiple Golgi glycosylation pathways. https://doi.org/10.1074/mcp.m115.048298
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2014

Fluhrer Regina. Intramembrane cleaving proteases (I-CLiPs) as guardians of shuttling proteins. https://doi.org/10.4161/cc.28089
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Voss Matthias, Künzel Ulrike, Higel Fabian, Kuhn Peer‐Hendrik, Colombo Alessio, Fukumori Akio, Haug‐Kr?per Martina, Klier B?rbel, Grammer Gudula, Seidl Andreas, Schr?der Bernd, Obst Reinhard, Steiner Harald, Lichtenthaler Stefan F., Haass Christian, Fluhrer Regina. Shedding of glycan‐modifying enzymes by signal peptide peptidase‐like 3 (SPPL3) regulates cellular N‐glycosylation. https://doi.org/10.15252/embj.201488375
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Schneppenheim Janna, Hüttl Susann, Kruchen Anne, Fluhrer Regina, Müller Ingo, Saftig Paul, Schneppenheim Reinhard, Martin Christa L., Schr?der Bernd. Signal-peptide-peptidase-like 2a is required for CD74 intramembrane proteolysis in human B cells. https://doi.org/10.1016/j.bbrc.2014.07.051
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Schneppenheim Janna, Hüttl Susann, Mentrup Torben, Lüllmann-Rauch Renate, Rothaug M., Engelke Michael, Dittmann Kai, Dressel Ralf, Araki M., Araki K., Wienands Jürgen, Fluhrer Regina, Saftig Paul, Schroder B.. The intramembrane proteases signal peptide peptidase-like 2a and 2b have distinct functions in vivo. https://doi.org/10.1128/mcb.00038-14
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2013

Voss Matthias, Schr?der Bernd, Fluhrer Regina. Mechanism, specificity, and physiology of signal peptide peptidase (SPP) and SPP-like proteases. https://doi.org/10.1016/j.bbamem.2013.03.033
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Poggi Marjorie, Kara Imène, Brunel Jean-Michel, Landrier Jean-Fran?ois, Govers Roland, Bonardo Bernadette, Fluhrer Regina, Haass Christian, Alessi Marie-Christine, Peiretti Franck. Palmitoylation of TNF alpha is involved in the regulation of TNF receptor 1 signalling. https://doi.org/10.1016/j.bbamcr.2012.11.009
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Bronckers Antonius LJJ, Gueneli Nur, Lüllmann-Rauch Renate, Schneppenheim Janna, Moraru Andreea P, Himmerkus Nina, Bervoets Theodore J, Fluhrer Regina, Everts Vincent, Saftig Paul, Schr?der Bernd. The intramembrane protease SPPL2A is critical for tooth enamel formation. https://doi.org/10.1002/jbmr.1895
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Zahn Claudia, Kaup Matthias, Fluhrer Regina, Fuchs Hendrik. The transferrin receptor-1 membrane stub undergoes intramembrane proteolysis by signal peptide peptidase-like 2b. https://doi.org/10.1111/febs.12176
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2012

Voss Matthias, Fukumori Akio, Kuhn Peer-Hendrik, Künzel Ulrike, Klier B?rbel, Grammer Gudula, Haug-Kr?per Martina, Kremmer Elisabeth, Lichtenthaler Stefan F., Steiner Harald, Schr?der Bernd, Haass Christian, Fluhrer Regina. Foamy virus envelope protein is a substrate for signal peptide peptidase-like 3 (SPPL3). https://doi.org/10.1074/jbc.m112.371369
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Schneppenheim Janna, Dressel Ralf, Hüttl Susann, Lüllmann-Rauch Renate, Engelke Michael, Dittmann Kai, Wienands Jürgen, Eskelinen Eeva-Liisa, Hermans-Borgmeyer Irm, Fluhrer Regina, Saftig Paul, Schr?der Bernd. The intramembrane protease SPPL2a promotes B cell development and controls endosomal traffic by cleavage of the invariant chain. https://doi.org/10.1084/jem.20121069
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2011

Fluhrer Regina, Kamp Frits, Grammer Gudula, Nuscher Brigitte, Steiner Harald, Beyer Klaus, Haass Christian. The nicastrin ectodomain adopts a highly thermostable structure. https://doi.org/10.1515/bc.2011.169
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Fluhrer Regina, Martin Lucas, Klier B?rbel, Haug-Kr?per Martina, Grammer Gudula, Nuscher Brigitte, Haass Christian. The α-helical content of the transmembrane domain of the British dementia protein-2 (Bri2) determines its processing by signal peptide peptidase-like 2b (SPPL2b). https://doi.org/10.1074/jbc.m111.328104
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2010

Fukumori Akio, Fluhrer Regina, Steiner Harald, Haass Christian. Three-amino acid spacing of presenilin endoproteolysis suggests a general stepwise cleavage of gamma-secretase-mediated intramembrane proteolysis. https://doi.org/10.1523/jneurosci.1443-10.2010
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2009

Fluhrer Regina, Steiner Harald, Haass Christian. Intramembrane proteolysis by signal peptide peptidases: a comparative discussion of GXGD-type aspartyl proteases. https://doi.org/10.1074/jbc.r800040200
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Fluhrer Regina, Haass Christian. Intramembrane proteolysis by γ-secretase and signal peptide peptidases. https://doi.org/10.1007/978-3-540-87941-1_2
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Martin Lucas, Fluhrer Regina, Haass Christian. Substrate requirements for SPPL2b-dependent regulated intramembrane proteolysis. https://doi.org/10.1074/jbc.m807485200
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2008

Steiner Harald, Fluhrer Regina, Haass Christian. Intramembrane proteolysis by γ-secretase. https://doi.org/10.1074/jbc.r800010200
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Fluhrer Regina, Fukumori Akio, Martin Lucas, Grammer Gudula, Haug-Kr?per Martina, Klier B?rbel, Winkler Edith, Kremmer Elisabeth, Condron Margaret M., Teplow David B., Steiner Harald, Haass Christian. Intramembrane proteolysis of GXGD-type aspartyl proteases is slowed by a familial Alzheimer disease-like mutation. https://doi.org/10.1074/jbc.m806092200
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2007

Prager Kai, Wang-Eckhardt Lihua, Fluhrer Regina, Killick Richard, Barth Esther, Hampel Heike, Haass Christian, Walter Jochen. A structural switch of presenilin 1 by glycogen synthase kinase 3beta-mediated phosphorylation regulates the interaction with beta-catenin and its nuclear signaling. https://doi.org/10.1074/jbc.m608437200
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Martin Lucas, Fluhrer Regina, Reiss Karina, Kremmer Elisabeth, Saftig Paul, Haass Christian. Regulated intramembrane proteolysis of Bri2 (Itm2b) by ADAM10 and SPPL2a/SPPL2b. https://doi.org/10.1074/jbc.m706661200
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Fluhrer Regina, Haass Christian. Signal peptide peptidases and gamma-secretase: cousins of the same protease family?. https://doi.org/10.1159/000101835
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2006

Fluhrer Regina, Grammer Gudula, Israel Lars, Condron Margaret M., Haffner Christof, Friedmann Elena, B?hland Claudia, Imhof Axel, Martoglio Bruno, Teplow David B., Haass Christian. A γ-secretase-like intramembrane cleavage of TNFα by the GxGD aspartyl protease SPPL2b. https://doi.org/10.1038/ncb1450
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2005

Krawitz Peter, Haffner Christof, Fluhrer Regina, Steiner Harald, Schmid Bettina, Haass Christian. Differential localization and identification of a critical aspartate suggest non-redundant proteolytic functions of the presenilin homologues SPPL2b and SPPL3. https://doi.org/10.1074/jbc.m501645200
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2003

Fluhrer Regina, Multhaup Gerd, Schlicksupp Andrea, Okochi Masayasu, Takeda Masatoshi, Lammich Sven, Willem Michael, Westmeyer Gil, Bode Wolfram, Walter Jochen, Haass Christian. Identification of a beta-secretase activity, which truncates amyloid beta-peptide after its presenilin-dependent generation. https://doi.org/10.1074/jbc.m211485200
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Fluhrer Regina, Friedlein Arno, Haass Christian, Walter Jochen. Phosphorylation of presenilin 1 at the caspase recognition site regulates its proteolytic processing and the progression of apoptosis. https://doi.org/10.1074/jbc.m306653200
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Fluhrer Regina. Zwei neuartige Aspartylproteasen BACE-1 und BACE-2: Charakterisierung und Vergleich der katalytischen Spezifit?ten bei der Proteolyse des Alzheimer-β-Amyloid-Vorl?ufer-Proteins.
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München, Univ., Diss., 2003

2002

Fluhrer Regina, Capell Anja, Westmeyer Gil, Willem Michael, Hartung Bianka, Condron Margaret M., Teplow David B., Haass Christian, Walter Jochen. A non-amyloidogenic function of BACE-2 in the secretory pathway. https://doi.org/10.1046/j.1471-4159.2002.00908.x
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Capell Anja, Meyn Liane, Fluhrer Regina, Teplow David B., Walter Jochen, Haass Christian. Apical sorting of beta-secretase limits amyloid beta-peptide production. https://doi.org/10.1074/jbc.m109119200
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2001

Walter Jochen, Fluhrer Regina, Hartung Bianka, Willem Michael, Kaether Christoph, Capell Anja, Lammich Sven, Multhaup Gerd, Haass Christian. Phosphorylation regulates intracellular trafficking of beta-secretase. https://doi.org/10.1074/jbc.m011116200
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