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1.
Häring, H.-U. ; Hrabě de Angelis, M. ; Roden, M.* ; Schürmann, A.* & Solimena, M.: Vom Labor zum Patienten - Translationale Diabetesforschung. Diabetes akt. 17, 96 (2019)
2.
Kluth, O.* et al.: Decreased expression of cilia genes in pancreatic islets as a risk factor for type 2 diabetes in mice and humans. Cell Rep. 26, 3027-3036.e3 (2019)
3.
Quiclet, C.* et al.: Pancreatic adipocytes mediate hypersecretion of insulin in diabetes-susceptible mice. Metab.-Clin. Exp. 97, 9-17 (2019)
4.
Wittenbecher, C.* et al.: Insulin-like growth factor binding protein 2 (IGFBP-2) and the risk of developing type 2 diabetes. Diabetes 68, 188-197 (2019)
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Gerst, F. et al.: The expression of aldolase B in islets is negatively associated with insulin secretion in humans. J. Clin. Endocrinol. Metab. 103, 4373-4383 (2018)
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Gottmann, P.* et al.: A computational biology approach of a genome-wide screen connected miRNAs to obesity and type 2 diabetes. Mol. Metab. 11, 145-159 (2018)
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Graja, A.* et al.: Loss of periostin occurs in aging adipose tissue of mice and its genetic ablation impairs adipose tissue lipid metabolism. Aging Cell 17:e12810 (2018)
8.
Jarasch, A. et al.: Mit Big Data zur personalisierten Diabetesprävention. Diabetologe 14, 486-492 (2018)
9.
Khajavi, N.* et al.: An incretin-based tri-agonist promotes superior insulin secretion from murine pancreatic islets via PLC activation. Cell. Signal. 51, 13-22 (2018)
10.
Kleinert, M. et al.: Animal models of obesity and diabetes mellitus. Nat. Rev. Endocrinol. 14, 140-162 (2018)
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Baumeier, C.* et al.: Elevated hepatic DPP4 activity promotes insulin resistance and non-alcoholic fatty liver disease. Mol. Metab. 6, 1254-1263 (2017)
12.
Beckers, J. ; Grallert, H. ; Schürmann, A. & Hrabě de Angelis, M.: Ernährungsgewohnheiten schlagen sich im Erbgut nieder. Diabetes akt. 15, 104-107 (2017)
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Stefan, N. et al.: Einfluss der Fettleber auf den Glukosestoffwechsel nicht unterschätzen. Neue Ansätze für die Diagnose und Behandlung. Diabetes akt. 15, 113-116 (2017)
14.
Chubanov, V.* et al.: Epithelial magnesium transport by TRPM6 is essential for prenatal development and adult survival. eLife 5:e29014 (2016)
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Müller, A.* et al.: Ring finger protein 11 inhibits melanocortin 3 and 4 receptor signaling. Front. Endocrin. 7:109 (2016)
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Vogel, H.* et al.: GLP-1 and estrogen conjugate acts in the supramammillary nucleus to reduce food-reward and body weight. Neuropharmacol. 110, 396-406 (2016)
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Volckmar, A.L.* et al.: Analysis of genes involved in body weight regulation by targeted re-sequencing. PLoS ONE 11:e0147904 (2016)
18.
Häring, H.-U. et al.: 5 Jahre erfolgreiche translationale Forschung - Deutsches Zentrum für Diabetesforschung. Diabetes akt. 13, 58-62 (2015)
19.
Kluth, O.* et al.: Identification of four mouse diabetes candidate genes altering β-cell proliferation. PLoS Genet. 11:e1005506 (2015)
20.
Schwenk, R.W.* et al.: GLP-1–oestrogen attenuates hyperphagia and protects from beta cell failure in diabetes-prone New Zealand Obese (NZO) mice. Diabetologia 58, 604-614 (2015)