Zur Hauptnavigation / To main navigation

Zur Sekundärnavigation / To secondary navigation

Zum Inhalt dieser Seite / To the content of this page

Sekundärnavigation / Secondary navigation

Inhaltsbereich / Content

Publikationen

2015

Valdebenito R., Ruminot I., Garrido-Gerter P. Fernández-Moncada I., Forero-Quintero L., Alegría K., Becker H.M., Deitmer J.W. & Barros L.F. (2015) Targeting of astrocytic glucose metabolism by beta-hydroxybutyrate. J. Cereb. Blood Flow Metab. [in press]

 

Wandernoth P.M., Mannowetz N., Szczyrbra J., Grannemann L., Wolf A., Becker H.M., Sly W.S., Wennemuth G. (2015) Normal Fertility Requires Expression of Carbonic Anhydrases II and IV in Sperm. J. Biol. Chem. [Epub ahead of print]

 

Klier M., Jamali S., Ames S., Schneider H.-P., Becker H.M., Deitmer J.W. (2015) Catalytic activity of human carbonic anhydrase isoform IX is displayed extra- and intracellularly. FEBS J. [Epub ahead of print]

 

Jamali S., Klier M., Ames S., Barros L.F., McKenna R., Deitmer J.W., Becker H.M. (2015) Hypoxia-induced carbonic anhydrase IX facilitates lactate flux in human breast cancer cells by non-catalytic function. Sci. Rep. 5:13605

 

Heidtmann H., Ruminot I., Becker H.M., Deitmer J.W. (2015) Inhibition of monocarboxylate transporter by N-cyanosulphonamide S0859. Eur. J. Pharmacol. 762:344-349

 

Noor S.I., Dietz S., Heidtmann H., Boone C.D., McKenna R., Deitmer J.W., Becker H.M. (2015) Analysis of the Binding Moiety mediating the Interaction between Monocarboxylate Transporters and Carbonic Anhydrase II. J. Biol. Chem. 290(7):4476-86

 

Deitmer J.W., Theparambil S.M., Ruminot I., Becker H.M. (2015) The role of membrane acid/base transporters and carbonic anhydrases for cellular pH and metabolic processes. Front. Neurosci. 8:430

 

2014

Becker H.M. (2014) Transport of Lactate: Characterization of the Transporters Involved in Transport at the Plasma Membrane by Heterologous Protein Expression in Xenopus Oocytes. In Brain Energy Metabolism (pp. 25-43). Springer New York.

 

Peetz J., Barros L.F., San Martín A., Becker H.M. (2014) Functional interaction between bicarbonate transporters and carbonic anhydrase modulates lactate uptake into mouse cardiomyocytes. Pflugers Arch. 467(7):1469-80

 

Becker H.M., Klier M., Deitmer J.W. (2014) Carbonic anhydrases and their interplay with acid/base-coupled membrane transporters. Subcell Biochem 75:105-134

 

2013

Klier M., Andes F.T., Deitmer J.W. & Becker H.M. (2013) Intracellular and Extracellular Carbonic Anhydrases Cooperate Non-Enzymatically to Enhance Activity of Monocarboxylate Transporters. J. Biol. Chem. 289(5):2765-75

 

Deitmer J.W. & Becker H.M. (2013) Transport metabolons with carbonic anhydrases Front. Physiol. 4:291.

 

Bonar P., Schneider H.P., Becker H.M., Deitmer J.W. & Casey J.R. (2013) Three-Dimensional Model for the Human Cl-/HCO3- Exchanger, AE1, by Homology to the E. coli ClC Protein. J. Mol. Biol. 425(14):2591-608

 

Schneider H.P., Alt M.D., Klier M., Spiess A., Andes F.T., Waheed A., Sly W.S., Becker H.M. & Deitmer J.W. (2013) GPI-anchored carbonic anhydrase IV displays both intra- and extracellular activity in cRNA-injected oocytes and in mouse neurons. Proc Natl Acad Sci U S A. 110(4):1494-9

 

2012

Stridh M.H., Alt M.D., Wittmann S., Heidtmann H., Aggarwal M., Riederer B., Seidler U., Wennemuth G., McKenna R., Deitmer J.W. & Becker H.M. (2012) Lactate flux in astrocytes is enhanced by a non-catalytic action of carbonic anhydrase II. J Physiol. 590:2333-51

 

2011

Schüler C., Becker H.M., McKenna R. & Deitmer J.W. (2011) Transport Activity of the Sodium Bicarbonate Cotransporter NBCe1 Is Enhanced by Different Isoforms of Carbonic Anhydrase. PLoS one. 6(11):e27167

 

Klier M., Schüler C., Halestrap A.P., Sly W.S., Deitmer J.W. & Becker H.M. (2011) Transport Activity of the High-affinity Monocarboxylate Transporter MCT2 Is Enhanced by Extracellular Carbonic Anhydrase IV but Not by Intracellular Carbonic Anhydrase II. J. Biol. Chem. 286(31):27781-27791

 

Becker H.M., Klier M., Schüler C., McKenna R. & Deitmer J.W. (2011) Intramolecular proton shuttle supports not only catalytic but also noncatalytic function of carbonic anhydrase II. Proc Natl Acad Sci U S A. 108:3071-3076

 

2010

Almquist J., Lang P., Pratzel-Wolters D., Deitmer J.W., Jirstrand M. & Becker H.M. (2010) A Kinetic Model of the Monocarboxylate Transporter MCT1 and its Interaction with Carbonic Anhydrase II. J Comput Sci Syst Biol 3:107-116

 

Wandernoth P.M., Raubuch M., Mannowetz N., Becker H.M., Deitmer J.W., Sly W.S. & Wennemuth G. (2010) Role of Carbonic Anhydrase IV in the Bicarbonate-Mediated Activation of Murine and Human Sperm. PLoS ONE 5(11):e15061

 

Becker H.M., Klier M. & Deitmer, J.W. (2010) Nonenzymatic augmentation of lactate transport via monocarboxylate transporter isoform 4 by carbonic anhydrase II. J.Membr.Biol. 232(4):125-135

 

2008

Becker H.M. & Deitmer J.W. (2008) Non-enzymatic proton handling by carbonic anhydrase II during H+-lactate cotransport via monocarboxylate transporter 1. J. Biol. Chem. 283:21655-21667

 

Wendel C., Becker H.M. & Deitmer J.W. (2008) The sodium-bicarbonate cotransporter NBCe1 supports glutamine efflux via SNAT3 (SLC38A3) co-expressed in Xenopus oocytes. Pflugers Arch. 455:885-93

 

2007

Becker H.M. & Deitmer J.W. (2007) Carbonic anhydrase II increases the activity of the human electrogenic Na+/HCO3- cotransporter. J. Biol. Chem. 282:13508-21

 

Weise A., Becker H.M. & Deitmer J.W. (2007) Enzymatic suppression of the membrane conductance associated with the glutamine transporter SNAT3 expressed in Xenopus oocytes by carbonic anhydrase II. J. Gen. Physiol. 130:203-15

 

2005

Becker H.M., Hirnet D., Fecher-Trost C., Sültemeyer D. & Deitmer J.W. (2005) Transport activity of MCT1 expressed in Xenopus oocytes is increased by interaction with carbonic anhydrase. J. Biol. Chem, 280:39882-39889

 

2004

Becker H.M. & Deitmer J.W. (2004) Voltage dependence of H+ buffering mediated by sodium bicarbonate cotransport expressed in Xenopus oocytes. J. Biol. Chem. 279:28057-62

 

Becker H.M., Broer S. & Deitmer J.W. (2004) Facilitated lactate transport by MCT1 when coexpressed with the sodium bicarbonate cotransporter (NBC) in Xenopus oocytes. Biophys. J. 86:235-247