Manish Solanki scite author profile

Adenoviruses (Ads) are large human-pathogenic double-stranded DNA (dsDNA) viruses presenting an enormous natural diversity associated with a broad variety of diseases. However, only a small fraction of adenoviruses has been explored in basic virology and biomedical research, highlighting the need to develop robust and adaptable methodologies and resources. We developed a method for high-throughput direct cloning and engineering of adenoviral genomes from different sources utilizing advanced linear-linear homologous recombination (LLHR) and linear-circular homologous recombination (LCHR). We describe 34 cloned adenoviral genomes originating from clinical samples, which were characterized by next-generation sequencing (NGS). We anticipate that this recombineering strategy and the engineered adenovirus library will provide an approach to study basic and clinical virology. High-throughput screening (HTS) of the reporter-tagged Ad library in a panel of cell lines including osteosarcoma disease-specific cell lines revealed alternative virus types with enhanced transduction and oncolysis efficiencies. This highlights the usefulness of this resource.

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Emerging functional markers for cancer stem cell-based therapies: Understanding signaling networks for targeting metastasis

Marquardt

Solanki

Spitschak

et al. 2018

Seminars in Cancer Biology

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Advances in cancer stem cell targeting: How to strike the evil at its root

Pützer

Solanki

Herchenröder

2017

Advanced Drug Delivery Reviews

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Ad 2.0: a novel recombineering platform for high-throughput generation of tailored adenoviruses

Mück-Häusl

Solanki

Zhang

et al. 2015

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Recombinant adenoviruses containing a double-stranded DNA genome of 26–45 kb were broadly explored in basic virology, for vaccination purposes, for treatment of tumors based on oncolytic virotherapy, or simply as a tool for efficient gene transfer. However, the majority of recombinant adenoviral vectors (AdVs) is based on a small fraction of adenovirus types and their genetic modification. Recombineering techniques provide powerful tools for arbitrary engineering of recombinant DNA. Here, we adopted a seamless recombineering technology for high-throughput and arbitrary genetic engineering of recombinant adenoviral DNA molecules. Our cloning platform which also includes a novel recombination pipeline is based on bacterial artificial chromosomes (BACs). It enables generation of novel recombinant adenoviruses from different sources and switching between commonly used early generation AdVs and the last generation high-capacity AdVs lacking all viral coding sequences making them attractive candidates for clinical use. In combination with a novel recombination pipeline allowing cloning of AdVs containing large and complex transgenes and the possibility to generate arbitrary chimeric capsid-modified adenoviruses, these techniques allow generation of tailored AdVs with distinct features. Our technologies will pave the way toward broader applications of AdVs in molecular medicine including gene therapy and vaccination studies.

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Synthesis and antibacterial activity of 4,5,6,7-tetrahydro-thieno[3,2-c]pyridine quinolones

Srivastava

Solanki

Mishra

et al. 2007

Bioorganic & Medicinal Chemistry Letters

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Manish Solanki

An Engineered Virus Library as a Resource for the Spectrum-wide Exploration of Virus and Vector Diversity

Emerging functional markers for cancer stem cell-based therapies: Understanding signaling networks for targeting metastasis

Advances in cancer stem cell targeting: How to strike the evil at its root

Ad 2.0: a novel recombineering platform for high-throughput generation of tailored adenoviruses

Synthesis and antibacterial activity of 4,5,6,7-tetrahydro-thieno[3,2-c]pyridine quinolones

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