Human Norovirus GII.4(MI001) P Dimer Binds Fucosylated and Sialylated Carbohydrates>

Wegener H, Mallagaray A, Schöne T, Peters T, Lockhauserbäumer J, Yan H, Uetrecht C, Hansman G, Taube S

Glycobiology 2017, cwx078.

Human norovirus inhibition by a human milk oligosaccharide.

Koromyslova A, Tripathi S, Morozov V, Schroten H, Hansman GS

Virology 2017, 508, 81-89.

Cu Elimination from Cu-Coordinating Macromolecules.

Ebbesen MF, Itskalov D, Baier M, Hartmann L

ACS Macro Lett 2017, 6, 399−403.

Structural Insights into Reovirus σ1 Interactions with Two Neutralizing Antibodies.

Dietrich MH, Ogden KM, Katen SP, Reiss K, Sutherland DM, Carnahan RH, Goff M, Cooper T, Dermody TS, Stehle T

J Virol 2017, 91(4). pii: e01621-16.

Sequence-Controlled Glycopolymers via Step-Growth Polymerization of Precision Glycomacromolecules for Lectin Receptor Clustering.

Gerke C, Ebbesen MF, Jansen D, Boden S, Freichel T, Hartmann L

Biomacromolecules 2017, 18(3):787-796.

Native and engineered tropism of vectors derived from a rare species D adenovirus serotype 43.

Belousova N, Mikheeva G, Xiong C, Stagg LJ, Gagea M, Fox PS, Bassett RL, Ladbury JE, Braun MB, Stehle T, Li C, Krasnykh V

Oncotarget 2016, 7(33):53414-53429.

Multivalent display of minimal Clostridium difficile glycan epitopes mimics antigenic properties of larger glycans.

Broecker F, Hanske J, Martin CE, Baek JY, Wahlbrink A, Wojcik F, Hartmann L, Rademacher C, Anish C, Seeberger PH

Nat Commun 2016, 7:11224.

Viral Genome Tethering to Host Cell Chromatin: Cause and Consequences.

Aydin I, Schelhaas M

Traffic 2016, 17(4):327-40.

Prevalence of human norovirus and Clostridium difficile coinfections in adult hospitalized patients.

Stokely JN, Niendorf S, Taube S, Hoehne M, Young VB, Rogers MA, Wobus CE

Clin Epidemiol 2016, 8:253-60.

Human Norovirus Evolution in a Chronically Infected Host.

Doerflinger SY, Weichert S, Koromyslova A, Chan M, Schwerk C, Adam R, Jennewein S, Hansman GS, Schroten H

mSphere 2017, 2(2). pii: e00352-16.