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Full-Text Articles in Medicine and Health Sciences
Defining Electron Bifurcation In The Electron-Transferring Flavoprotein Family, Amaya M. Garcia Costas, Saroj Poudel, Anne-Frances Miller, Gerrit J. Schut, Rhesa N. Ledbetter, Kathryn R. Fixen, Lance C. Seefeldt, Michael W. W. Adams, Caroline S. Harwood, Eric S. Boyd, John W. Peters
Defining Electron Bifurcation In The Electron-Transferring Flavoprotein Family, Amaya M. Garcia Costas, Saroj Poudel, Anne-Frances Miller, Gerrit J. Schut, Rhesa N. Ledbetter, Kathryn R. Fixen, Lance C. Seefeldt, Michael W. W. Adams, Caroline S. Harwood, Eric S. Boyd, John W. Peters
Chemistry Faculty Publications
Electron bifurcation is the coupling of exergonic and endergonic redox reactions to simultaneously generate (or utilize) low- and high-potential electrons. It is the third recognized form of energy conservation in biology and was recently described for select electron-transferring flavoproteins (Etfs). Etfs are flavin-containing heterodimers best known for donating electrons derived from fatty acid and amino acid oxidation to an electron transfer respiratory chain via Etf-quinone oxidoreductase. Canonical examples contain a flavin adenine dinucleotide (FAD) that is involved in electron transfer, as well as a non-redox-active AMP. However, Etfs demonstrated to bifurcate electrons contain a second FAD in place of the …
Blocking An N-Terminal Acetylation-Dependent Protein Interaction Inhibits An E3 Ligase, Daniel C. Scott, Jared T. Hammill, Jaeki Min, David Y. Rhee, Michele Connelly, Vladislav O. Sviderskiy, Deepak Bhasin, Yizhe Chen, Su-Sien Ong, Sergio C. Chai, Asli N. Goktug, Guochang Huang, Julie K. Monda, Jonathan Low, Ho Shin Kim, Joao A. Paulo, Joe R. Cannon, Anang A. Shelat, Taosheng Chen, Ian R. Kelsall, Arno F. Alpi, Vishwajeeth Pagala, Xusheng Wang, Junmin Peng, Bhuvanesh Singh, J. Wade Harper, Brenda A. Schulman, R. Kiplin Guy
Blocking An N-Terminal Acetylation-Dependent Protein Interaction Inhibits An E3 Ligase, Daniel C. Scott, Jared T. Hammill, Jaeki Min, David Y. Rhee, Michele Connelly, Vladislav O. Sviderskiy, Deepak Bhasin, Yizhe Chen, Su-Sien Ong, Sergio C. Chai, Asli N. Goktug, Guochang Huang, Julie K. Monda, Jonathan Low, Ho Shin Kim, Joao A. Paulo, Joe R. Cannon, Anang A. Shelat, Taosheng Chen, Ian R. Kelsall, Arno F. Alpi, Vishwajeeth Pagala, Xusheng Wang, Junmin Peng, Bhuvanesh Singh, J. Wade Harper, Brenda A. Schulman, R. Kiplin Guy
Pharmaceutical Sciences Faculty Publications
N-terminal acetylation is an abundant modification influencing protein functions. Because ∼80% of mammalian cytosolic proteins are N-terminally acetylated, this modification is potentially an untapped target for chemical control of their functions. Structural studies have revealed that, like lysine acetylation, N-terminal acetylation converts a positively charged amine into a hydrophobic handle that mediates protein interactions; hence, this modification may be a druggable target. We report the development of chemical probes targeting the N-terminal acetylation–dependent interaction between an E2 conjugating enzyme (UBE2M or UBC12) and DCN1 (DCUN1D1), a subunit of a multiprotein E3 ligase for the ubiquitin-like protein NEDD8. The inhibitors are …
Quaternary Interactions And Supercoiling Modulate The Cooperative Dna Binding Of Agt, Manana Melikishvili, Michael G. Fried
Quaternary Interactions And Supercoiling Modulate The Cooperative Dna Binding Of Agt, Manana Melikishvili, Michael G. Fried
Center for Structural Biology Faculty Publications
Human O6-alkylguanine-DNA alkyltransferase (AGT) repairs mutagenic O6-alkylguanine and O4-alkylthymine adducts in single-stranded and duplex DNAs. The search for these lesions, through a vast excess of competing, unmodified genomic DNA, is a mechanistic challenge that may limit the repair rate in vivo. Here, we examine influences of DNA secondary structure and twist on protein–protein interactions in cooperative AGT complexes formed on lesion-free DNAs that model the unmodified parts of the genome. We used a new approach to resolve nearest neighbor (nn) and long-range (lr) components from the ensemble-average cooperativity, ωave. We found …
Structures Of Mithramycin Analogues Bound To Dna And Implications For Targeting Transcription Factor Fli1, Caixia Hou, Stevi Weidenbach, Kristin E. Cano, Zhonghua Wang, Prithiba Mitra, Dmitri N. Ivanov, Jürgen Rohr, Oleg V. Tsodikov
Structures Of Mithramycin Analogues Bound To Dna And Implications For Targeting Transcription Factor Fli1, Caixia Hou, Stevi Weidenbach, Kristin E. Cano, Zhonghua Wang, Prithiba Mitra, Dmitri N. Ivanov, Jürgen Rohr, Oleg V. Tsodikov
Pharmaceutical Sciences Faculty Publications
Transcription factors have been considered undruggable, but this paradigm has been recently challenged. DNA binding natural product mithramycin (MTM) is a potent antagonist of oncogenic transcription factor EWS–FLI1. Structural details of MTM recognition of DNA, including the FLI1 binding sequence GGA(A/T), are needed to understand how MTM interferes with EWS–FLI1. We report a crystal structure of an MTM analogue MTM SA–Trp bound to a DNA oligomer containing a site GGCC, and two structures of a novel analogue MTM SA–Phe in complex with DNA. MTM SA–Phe is bound to sites AGGG and GGGT on one DNA, and to AGGG and GGGA(T) …