Martin Bader scite author profile

Objective. Rheumatoid arthritis therapies that are based on inhibition of a single cytokine, e.g., tumor necrosis factor ␣ (TNF␣) or interleukin-6 (IL-6), produce clinically meaningful responses in only about half of the treated patients. This study was undertaken to investigate whether combined inhibition of TNF␣ and IL-17 has additive or synergistic effects in the suppression of mesenchymal cell activation in vitro and inflammation and tissue destruction in arthritis in vivo. Methods. Cultures of human fibroblast-like synoviocytes (FLS

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Sorting by reversals, block interchanges, tandem duplications, and deletions

Bader

2009

BMC Bioinformatics

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Background: Finding sequences of evolutionary operations that transform one genome into another is a classic problem in comparative genomics. While most of the genome rearrangement algorithms assume that there is exactly one copy of each gene in both genomes, this does not reflect the biological reality very well -most of the studied genomes contain duplicated gene content, which has to be removed before applying those algorithms. However, dealing with unequal gene content is a very challenging task, and only few algorithms allow operations like duplications and deletions. Almost all of these algorithms restrict these operations to have a fixed size.

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Sorting by Weighted Reversals, Transpositions, and Inverted Transpositions

Bader

Ohlebusch

2007

Journal of Computational Biology

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During evolution, genomes are subject to genome rearrangements that alter the ordering and orientation of genes on the chromosomes. If a genome consists of a single chromosome (like mitochondrial, chloroplast, or bacterial genomes), the biologically relevant genome rearrangements are (1) inversions-also called reversals-where a section of the genome is excised, reversed in orientation, and reinserted and (2) transpositions, where a section of the genome is excised and reinserted at a new position in the genome; if this also involves an inversion, one speaks of an inverted transposition. To reconstruct ancient events in the evolutionary history of organisms, one is interested in finding an optimal sequence of genome rearrangements that transforms a given genome into another genome. It is well known that this problem is equivalent to the problem of "sorting" a signed permutation into the identity permutation. In this paper, we provide a 1.5-approximation algorithm for sorting by weighted reversals, transpositions and inverted transpositions for biologically realistic weights.

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Sorting by Weighted Reversals, Transpositions, and Inverted Transpositions

Bader

Ohlebusch

2006

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Martin Bader

Developability Assessment During the Selection of Novel Therapeutic Antibodies

Combined Inhibition of Tumor Necrosis Factor α and Interleukin‐17 As a Therapeutic Opportunity in Rheumatoid Arthritis: Development and Characterization of a Novel Bispecific Antibody

Sorting by reversals, block interchanges, tandem duplications, and deletions

Sorting by Weighted Reversals, Transpositions, and Inverted Transpositions

Sorting by Weighted Reversals, Transpositions, and Inverted Transpositions

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