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Benjamin L. Schulz
Researcher at University of Queensland
Publications - 360
Citations - 25967
Benjamin L. Schulz is an academic researcher from University of Queensland. The author has contributed to research in topics: Galaxy & Glycosylation. The author has an hindex of 84, co-authored 348 publications receiving 24069 citations. Previous affiliations of Benjamin L. Schulz include ETH Zurich & University of Hawaii.
Papers
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Journal Article
Saliva: linking oral health with heart failure
Posted ContentDOI
Phase variable glycosylation in non-typeable Haemophilus influenzae
Danila Elango,Benjamin L. Schulz +1 more
TL;DR: Key insights into factors contributing to the heterogenous modifications of NTHi HMW-A adhesins are provided, knowledge of Nthi population diversity and pathogenic capability is expanded, and vaccine design for NTHs and related pathogens is relevant to vaccine design.
Posted Content
Metal to insulator transition in manganites - optical conductivity changes up to 24 eV
Andrivo Rusydi,R. Rauer,G. Neuber,M. Bastjan,I. Mahns,Stefan Müller,P. Saichu,Benjamin L. Schulz,Gregory Stryganyuk,Kathrin Dörr,George A. Sawatzky,S. L. Cooper,Michael Rübhausen +12 more
TL;DR: In this paper, the electronic response of doped manganites at the transition from the paramagnetic insulating to the ferromagnetic metallic state was investigated by dc conductivity, ellipsometry, and VUV reflectance for energies between 0 and 24 eV.
Posted ContentDOI
Intramembrane protease RHBDL4 induces ER-associated degradation of the oligosaccharyltransferase complex
Julia D. Knopf,Nina Landscheidt,Cassandra L. Pegg,Benjamin L. Schulz,Nathalie Kuehnle,Chao-Wei Chao,Simon Huck,Marius K. Lemberg +7 more
TL;DR: In this paper, the role of RHBDL4 in the ERAD pathway was identified using quantitative proteomics, which revealed oligosacharyltransferase (OST) complex subunits such as the catalytic active subunit STT3A as substrates for the RHBDl4-dependent pathway.
Posted ContentDOI
Analysis of coagulation factor IX in bioreactor cell culture medium predicts yield and quality of the purified product
Lucia F. Zacchi,Dinora Roche Recinos,Dinora Roche Recinos,Cassandra L. Pegg,Toan K. Phung,Mark Napoli,Campbell Aitken,Vanessa Sandford,Stephen M. Mahler,Yih Yean Lee,Benjamin L. Schulz,Christopher B. Howard +11 more
TL;DR: A suite of MS proteomics analytical methods were developed and used to investigate changes in rFIX yield, γ-carboxylation, other PTMs, and host cell proteins during bioreactor culture and after purification, which accurately predicted the efficiency of purification and the quality of the purified product from different culture conditions.