1. Fan SP, Ramallo-Guevara C, Frenzel M, Yanai S, Goto S, Sugawa MD, Dencher NA, Poetsch A. Not Aging but Calorie Restriction Strongly Affects Protein Oxidation in Heart and Brain Mitochondria. Aging Cell, 2026, 25(1).

2. Fan SP, Lin YQ, Chen ZQ, Poetsch A*. Proteomics Uncovers Enrichment Bias of Common Extracellular Vesicle Isolation Methods in HEK293T Cells. J. Proteome Res., 2025, 24: 4900−4910. 

3. You WX, Xu C, Zhang JY, Poetsch A*. Integrative Multi-Omics Analyses Reveal the Global Regulation Network of the Microalga Nannochloropsis oceanica Under Nitrogen Stress Adaptation. Biology, 2025, 14: 1599.

4. Yang WY, Fan SP, Ramallo-Guevara C, Kratochwil M, Thilmany S, Sugawa MD, Dencher NA, Poetsch A*. Persistent Oxidation of Mitochondrial and Transmembrane Proteins in Rat Cerebrum and Heart Regardless of Age or Nutrition. Int. J. Mol. Sci., 2025, 26: 11155.

5. Schmidt, A., Frei, J., Poetsch, A. , et al., MeCP2 heterochromatin organization is modulated by arginine methylation and serine phosphorylation. Front Cell Dev Biol, 2022, 10: p. 941493.

6. Luenenschloss, A., Veld, F., Albaum, S., Neddermann, T., Wendisch, V., Poetsch, A., et al.,Functional Genomics Uncovers Pleiotropic Role of Rhomboids in Corynebacterium glutamicum. Frontiers in Microbiology, 2022. 13.

7. Marchesini MI, Poetsch A., Guidolin L.S., Comerci D.J. Brucella abortus Encodes an Active Rhomboid Protease: Proteome Response after Rhomboid Gene Deletion. Microorganisms, 2022;10(1).

8. Trötschel, C., Hamzeh, H., Alvarez, L., Pascal, R., Lavryk, F., Poetsch,A., et al., Absolute proteomic quantification reveals design principles of sperm flagellar chemosensation. Embo j, 2020. 39(4): p. e102723.

9. Ogorodnikov, A., Poetsch, A., et al., Transcriptome 3′end organization by PCF11 links alternative polyadenylation to formation and neuronal differentiation of neuroblastoma. Nature Communications, 2018. 9(1): p. 5331.

10. Guevara, C.R.;Philipp, O.;Hamann, A.;Werner, A.;Osiewacz, H.D.;Rexroth, S.;Rögner, M., Poetsch, A., et al., Global Protein Oxidation Profiling Suggests Efficient Mitochondrial Proteome Homeostasis During Aging. Mol Cell Proteomics, 2016. 15(5): p. 1692-709.

11. Cerletti, M., Paggi, R.A., Guevara, C.R., Poetsch, A., et al., Global role of the membrane protease LonB in Archaea: Potential protease targets revealed by quantitative proteome analysis of a lonB mutant in Haloferax volcanii. J Proteomics, 2015. 121: p. 1-14.

12. Trotschel, C., et al., Protein turnover quantification in a multilabeling approach: from data calculation to evaluation. Mol Cell Proteomics, 2012. 11(8): p. 512-26.

13. Rietschel, B., Tabiwang, N., Arrey, B., Meyer1, A., Bornemann1, S., Schuerken1, M., Poetsch, A., et al., Elastase digests: new ammunition for shotgun membrane proteomics. Mol Cell Proteomics, 2009. 8(5): p. 1029-43.

14. Fischer, F., Wolters, D., Rögner, M., Poetsch, A., et al., Toward the complete membrane proteome - High coverage of integral membrane proteins through transmembrane peptide detection. Molecular & Cellular Proteomics, 2006. 5(3): p. 444-453.

15. Poetsch, A., L. Molday, and R. Molday, The cGMP-gated channel and related glutamic acid-rich proteins interact with peripherin-2 at the rim region of rod photoreceptor disc membranes. Journal of Biological Chemistry, 2001. 276(51): p. 48009-48016.

16. Seelert, H., Poetsch, A., et al., Structural biology - Proton-powered turbine of a plant motor. Nature, 2000. 405(6785): p. 418-419