PubMed list |
2022
Hempel C*, Rosenthal R* (*shared first authorship), Fromm A, Krug SM, Fromm M, Günzel D, Piontek J (2022) Tight junction channels claudin-10b and claudin-15: Functional mapping of pore-lining residues. Ann. NY Acad. Sci. 1515(1): 129-142, doi: 10.1111/nyas.14794 (IF 5.2)
2020
Hempel C, Protze J, Altun E, Riebe B, Piontek A, Fromm A, Lee IM, Saleh T, Günzel D, Krause G, Piontek J (2020) Assembly of tight junction strands: Claudin-10b and claudin-3 form homo-tetrameric building blocks that polymerize in a channel-independent manner. J. Mol. Biol. 432(7): 2405-2427 (IF 5.5) [PubMed] [WebPage] [PDF] [Supplementary Figures S1-S11] [Supplementary Table S1]
Rosenthal R, Günzel D, Piontek J, Krug SM, Ayala-Torres C, Hempel C, Theune D, Fromm M (2020) Claudin-15 forms a water channel through the tight junction with distinct function compared to claudin-2. Acta Physiol. 228(1): e13334 (15 pages) (IF 6.3) [PubMed] [WebPage] [PDF]
(Editorial Commentary on this article: Alexander RT (2020) Claudin-15 is not a drag! Acta Physiol. 228(1): e13397 [PubMed] [WebPage] [PDF])
2017
Milatz S, Piontek J, Hempel C, Meoli L, Grohe C, Fromm A, Lee IM, El-Athman R, Günzel D (2017) Tight junction strand formation by claudin-10 isoforms and claudin-10a/-10b chimeras. Ann. N.Y. Acad. Sci. 1405: 102-115 (IF 4.3) [PubMed] [WebPage] [PDF]
Piontek A, Rossa J, Protze J, Wolburg H, Hempel C, Günzel D, Krause G, Piontek J (2017) Polar and charged extracellular residues conserved among sealing claudins contribute to tight junction strand formation. Ann. N.Y. Acad. Sci. 1397(1): 143-156 (IF 4.3) [PubMed] [WebPage] [PDF]
Theses
Hempel C (2015) Characterization of neuropeptide Y receptor – G protein interactions“, Master Thesis, University Leipzig