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Full-Text Articles in Medicine and Health Sciences
Chimeric Systems Composed Of Swapped Tra Subunits Between Distantly-Related F Plasmids Reveal Striking Plasticity Among Type Iv Secretion Machines, Kouhei Kishida, Yang Grace Li, Natsumi Ogawa-Kishida, Pratick Khara, Abu Amar M Al Mamun, Rachel E Bosserman, Peter J Christie
Chimeric Systems Composed Of Swapped Tra Subunits Between Distantly-Related F Plasmids Reveal Striking Plasticity Among Type Iv Secretion Machines, Kouhei Kishida, Yang Grace Li, Natsumi Ogawa-Kishida, Pratick Khara, Abu Amar M Al Mamun, Rachel E Bosserman, Peter J Christie
Journal Articles
Bacterial type IV secretion systems (T4SSs) are a versatile family of macromolecular translocators, collectively able to recruit diverse DNA and protein substrates and deliver them to a wide range of cell types. Presently, there is little understanding of how T4SSs recognize substrate repertoires and form productive contacts with specific target cells. Although T4SSs are composed of a number of conserved subunits and adopt certain conserved structural features, they also display considerable compositional and structural diversity. Here, we explored the structural bases underlying the functional versatility of T4SSs through systematic deletion and subunit swapping between two conjugation systems encoded by the …
Chimeric Systems Composed Of Swapped Tra Subunits Between Distantly-Related F Plasmids Reveal Striking Plasticity Among Type Iv Secretion Machines, Kouhei Kishida, Yang Grace Li, Natsumi Ogawa-Kishida, Pratick Khara, Abu Amar M Al Mamun, Rachel E Bosserman, Peter J Christie
Chimeric Systems Composed Of Swapped Tra Subunits Between Distantly-Related F Plasmids Reveal Striking Plasticity Among Type Iv Secretion Machines, Kouhei Kishida, Yang Grace Li, Natsumi Ogawa-Kishida, Pratick Khara, Abu Amar M Al Mamun, Rachel E Bosserman, Peter J Christie
Journal Articles
Bacterial type IV secretion systems (T4SSs) are a versatile family of macromolecular translocators, collectively able to recruit diverse DNA and protein substrates and deliver them to a wide range of cell types. Presently, there is little understanding of how T4SSs recognize substrate repertoires and form productive contacts with specific target cells. Although T4SSs are composed of a number of conserved subunits and adopt certain conserved structural features, they also display considerable compositional and structural diversity. Here, we explored the structural bases underlying the functional versatility of T4SSs through systematic deletion and subunit swapping between two conjugation systems encoded by the …
Discovery And Clinical Proof-Of-Concept Of Rly-2608, A First-In-Class Mutant-Selective Allosteric Pi3kα Inhibitor That Decouples Antitumor Activity From Hyperinsulinemia, Andreas Varkaris, Ermira Pazolli, Hakan Gunaydin, Qi Wang, Levi Pierce, Alessandro A Boezio, Artemisa Bulku, Lucian Dipietro, Cary Fridrich, Adam Frost, Fabrizio Giordanetto, Erika P Hamilton, Katherine Harris, Michael Holliday, Tamieka L Hunter, Amanda Iskandar, Yongli Ji, Alexandre Larivée, Jonathan R Larochelle, André Lescarbeau, Fabien Llambi, Brenda Lormil, Mary M Mader, Brenton G Mar, Iain Martin, Thomas H Mclean, Klaus Michelsen, Yakov Pechersky, Erika Puente-Poushnejad, Kevin Raynor, Dipali Rogala, Ramin Samadani, Alison M Schram, Kelley Shortsleeves, Sweta Swaminathan, Shahein Tajmir, Gege Tan, Yong Tang, Roberto Valverde, Bryan Wehrenberg, Jeremy Wilbur, Bret R Williams, Hongtao Zeng, Hanmo Zhang, W Patrick Walters, Beni B Wolf, David E Shaw, Donald A Bergstrom, James Watters, James S Fraser, Pascal D Fortin, D Randal Kipp
Discovery And Clinical Proof-Of-Concept Of Rly-2608, A First-In-Class Mutant-Selective Allosteric Pi3kα Inhibitor That Decouples Antitumor Activity From Hyperinsulinemia, Andreas Varkaris, Ermira Pazolli, Hakan Gunaydin, Qi Wang, Levi Pierce, Alessandro A Boezio, Artemisa Bulku, Lucian Dipietro, Cary Fridrich, Adam Frost, Fabrizio Giordanetto, Erika P Hamilton, Katherine Harris, Michael Holliday, Tamieka L Hunter, Amanda Iskandar, Yongli Ji, Alexandre Larivée, Jonathan R Larochelle, André Lescarbeau, Fabien Llambi, Brenda Lormil, Mary M Mader, Brenton G Mar, Iain Martin, Thomas H Mclean, Klaus Michelsen, Yakov Pechersky, Erika Puente-Poushnejad, Kevin Raynor, Dipali Rogala, Ramin Samadani, Alison M Schram, Kelley Shortsleeves, Sweta Swaminathan, Shahein Tajmir, Gege Tan, Yong Tang, Roberto Valverde, Bryan Wehrenberg, Jeremy Wilbur, Bret R Williams, Hongtao Zeng, Hanmo Zhang, W Patrick Walters, Beni B Wolf, David E Shaw, Donald A Bergstrom, James Watters, James S Fraser, Pascal D Fortin, D Randal Kipp
Journal Articles
PIK3CA (PI3Kα) is a lipid kinase commonly mutated in cancer, including ∼40% of hormone receptor–positive breast cancer. The most frequently observed mutants occur in the kinase and helical domains. Orthosteric PI3Kα inhibitors suffer from poor selectivity leading to undesirable side effects, most prominently hyperglycemia due to inhibition of wild-type (WT) PI3Kα. Here, we used molecular dynamics simulations and cryo-electron microscopy to identify an allosteric network that provides an explanation for how mutations favor PI3Kα activation. A DNA-encoded library screen leveraging electron microscopy-optimized constructs, differential enrichment, and an orthosteric-blocking compound led to the identification of RLY-2608, a first-in-class allosteric mutant-selective inhibitor …
Vibrio Cyclitrophicus Phage Encoding Gene Transfer Agent Fragment, Representing A Novel Viral Family, Yao Xiong, Keran Ma, Xiao Zou, Yantao Liang, Kaiyang Zheng, Tiancong Wang, Hong Zhang, Yue Dong, Ziyue Wang, Yundan Liu, Hongbing Shao, Andrew Mcminn, Min Wang
Vibrio Cyclitrophicus Phage Encoding Gene Transfer Agent Fragment, Representing A Novel Viral Family, Yao Xiong, Keran Ma, Xiao Zou, Yantao Liang, Kaiyang Zheng, Tiancong Wang, Hong Zhang, Yue Dong, Ziyue Wang, Yundan Liu, Hongbing Shao, Andrew Mcminn, Min Wang
Journal Articles
Vibrio is a prevalent bacterial genus in aquatic environments and exhibits diverse metabolic capabilities, playing a vital role in marine biogeochemical cycles. This study isolated a novel virus infecting Vibrio cyclitrophicus, vB_VviC_ZQ26, from coastal waters near Qingdao, China. The vB_VviC_ZQ26 comprises a linear double-stranded DNA genome with a length of 42,982 bp and a G + C content of 43.21 %, encoding 72 putative open reading frames (ORFs). Transmission electron microscope characterization indicates a siphoviral-morphology of vB_VviC_ZQ26. Nucleic-acids-wide analysis indicates a tetranucleotide frequency deviation for genomic segments encoding putative gene transfer agent protein (GTA) and coil-containing protein, implying divergent …