His primary areas of study are Genetics, Peptide sequence, Biochemistry, Virology and Protein structure. His work on Missense mutation and Gene family as part of general Genetics research is frequently linked to Malassezia sympodialis and Fungal genetics, bridging the gap between disciplines. His study in Peptide sequence is interdisciplinary in nature, drawing from both Sequence database, Sequence analysis and Bacteria.
In general Biochemistry, his work in Amino acid, Protein sequencing, Sequence alignment and Peroxisomal targeting signal is often linked to Myristoylation linking many areas of study. His research integrates issues of Oseltamivir and Epidemiology in his study of Virology. His Epidemiology research is multidisciplinary, incorporating elements of Pandemic, Serial interval and Infection control.
Sebastian Maurer-Stroh mainly focuses on Virology, Genetics, Virus, Computational biology and Influenza A virus. His Virology study incorporates themes from Oseltamivir, Pandemic and Antibody. In Oseltamivir, Sebastian Maurer-Stroh works on issues like Zanamivir, which are connected to Peramivir.
Sebastian Maurer-Stroh works mostly in the field of Virus, limiting it down to topics relating to Phylogenetics and, in certain cases, Cluster analysis, as a part of the same area of interest. His Computational biology research focuses on subjects like Sequence alignment, which are linked to Protein structure. Many of his studies on Influenza A virus apply to Microbiology as well.
His primary areas of investigation include Virology, Virus, Antibody, Coronavirus disease 2019 and Neuraminidase. His studies in Virology integrate themes in fields like Serology and Monoclonal antibody. His Virus study contributes to a more complete understanding of Genetics.
The various areas that he examines in his Coronavirus disease 2019 study include Transmission, Viral genomes and DNA sequencing. Sebastian Maurer-Stroh has included themes like Oseltamivir, Influenza A virus and Antiviral drug in his Neuraminidase study. His Oseltamivir research includes elements of Hemagglutinin, Zanamivir, Peramivir, Genetic variation and Viral shedding.
His primary scientific interests are in Virology, Monoclonal antibody, Coronavirus, Virus and Pandemic. Sebastian Maurer-Stroh works in the field of Virology, namely Transmission. His Coronavirus research is multidisciplinary, relying on both Peptide sequence, Conserved sequence, Sequence alignment, Protein subunit and Glycoprotein.
To a larger extent, Sebastian Maurer-Stroh studies Genetics with the aim of understanding Virus. As part of one scientific family, he deals mainly with the area of Pandemic, narrowing it down to issues related to the Serial interval, and often Medical record. His Viral replication research incorporates themes from Wild type, Phylogenetics and Open reading frame.
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Investigation of three clusters of COVID-19 in Singapore: implications for surveillance and response measures.
Rachael Pung;Calvin J. Chiew;Barnaby E. Young;Sarah Chin.
The Lancet (2020)
Exploring the sequence determinants of amyloid structure using position-specific scoring matrices
Sebastian Maurer-Stroh;Maja Debulpaep;Maja Debulpaep;Nico Kuemmerer;Manuela Lopez de la Paz.
Nature Methods (2010)
The Tudor domain 'Royal Family': Tudor, plant Agenet, Chromo, PWWP and MBT domains.
Sebastian Maurer-Stroh;Nicholas J. Dickens;Luke Hughes-Davies;Tony Kouzarides.
Trends in Biochemical Sciences (2003)
Effects of a major deletion in the SARS-CoV-2 genome on the severity of infection and the inflammatory response: an observational cohort study.
Barnaby E Young;Barnaby E Young;Siew-Wai Fong;Siew-Wai Fong;Yi-Hao Chan;Tze-Minn Mak.
The Lancet (2020)
The WD40 Propeller Domain of Cdh1 Functions as a Destruction Box Receptor for APC/C Substrates
Claudine Kraft;Hartmut C. Vodermaier;Sebastian Maurer-Stroh;Frank Eisenhaber.
Molecular Cell (2005)
Kleisins: a superfamily of bacterial and eukaryotic SMC protein partners.
Alexander Schleiffer;Susanne Kaitna;Sebastian Maurer-Stroh;Michael Glotzer.
Molecular Cell (2003)
N-terminal N-myristoylation of proteins: prediction of substrate proteins from amino acid sequence.
Sebastian Maurer-Stroh;Birgit Eisenhaber;Frank Eisenhaber.
Journal of Molecular Biology (2002)
TPR Subunits of the Anaphase-Promoting Complex Mediate Binding to the Activator Protein CDH1
Hartmut C. Vodermaier;Christian Gieffers;Sebastian Maurer-Stroh;Frank Eisenhaber.
Current Biology (2003)
Playing Hide and Seek: How Glycosylation of the Influenza Virus Hemagglutinin Can Modulate the Immune Response to Infection
Michelle D. Tate;Emma R. Job;Yi Mo Deng;Vithiagaran Gunalan.
SNPeffect 4.0: on-line prediction of molecular and structural effects of protein-coding variants
Greet De Baets;Joost J. J. van Durme;Joke Reumers;Sebastian Maurer-Stroh.
Nucleic Acids Research (2012)
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