Your search keyword '"Yu Xiong"' showing total 24 results

1. Filaments from Ignicoccus hospitalis Show Diversity of Packing in Proteins Containing N-Terminal Type IV Pilin Helices

Author

Yu, Xiong, primary, Goforth, Charles, additional, Meyer, Carolin, additional, Rachel, Reinhard, additional, Wirth, Reinhard, additional, Schröder, Gunnar F., additional, and Egelman, Edward H., additional

Published

2012

2. Two Modes of Binding of DinI to RecA Filament Provide a New Insight into the Regulation of SOS Response by DinI Protein

Author

Galkin, Vitold E., primary, Britt, Rachel L., additional, Bane, Lukas B., additional, Yu, Xiong, additional, Cox, Michael M., additional, and Egelman, Edward H., additional

Published

2011

3. Helical Filaments of Human Dmc1 Protein on Single-Stranded DNA: A Cautionary Tale

Author

Yu, Xiong, primary and Egelman, Edward H., additional

Published

2010

4. The RecB Nuclease Domain Binds to RecA-DNA Filaments: Implications for Filament Loading

Author

Lucarelli, Debora, primary, Wang, Ying A., additional, Galkin, Vitold E., additional, Yu, Xiong, additional, Wigley, Dale B., additional, and Egelman, Edward H., additional

Published

2009

5. The Bipolar Filaments Formed by Herpes Simplex Virus Type 1 SSB/Recombination Protein (ICP8) Suggest a Mechanism for DNA Annealing

Author

Makhov, Alexander M., primary, Sen, Anindito, additional, Yu, Xiong, additional, Simon, Martha N., additional, Griffith, Jack D., additional, and Egelman, Edward H., additional

Published

2009

6. Cleavage of Bacteriophage λ cI Repressor Involves the RecA C-Terminal Domain

Author

Galkin, Vitold E., primary, Yu, Xiong, additional, Bielnicki, Jakub, additional, Ndjonka, Dieudonné, additional, Bell, Charles E., additional, and Egelman, Edward H., additional

Published

2009

7. The Structure of F-Pili

Author

Wang, Ying A., primary, Yu, Xiong, additional, Silverman, Philip M., additional, Harris, Robin L., additional, and Egelman, Edward H., additional

Published

2009

8. The Structure of an Archaeal Pilus

Author

Wang, Ying A., primary, Yu, Xiong, additional, Ng, Sandy Y.M., additional, Jarrell, Ken F., additional, and Egelman, Edward H., additional

Published

2008

9. The Structure of a Filamentous Bacteriophage

Author

Wang, Ying A., primary, Yu, Xiong, additional, Overman, Stacy, additional, Tsuboi, Masamichi, additional, Thomas, George J., additional, and Egelman, Edward H., additional

Published

2006

10. Structural Polymorphism of Methanothermobacter thermautotrophicus MCM

Author

Chen, Yen-Ju, primary, Yu, Xiong, additional, Kasiviswanathan, Rajesh, additional, Shin, Jae-Ho, additional, Kelman, Zvi, additional, and Egelman, Edward H., additional

Published

2005

11. Complexes of RecA with LexA and RecX Differentiate Between Active and Inactive RecA Nucleoprotein Filaments

Author

VanLoock, Margaret S., primary, Yu, Xiong, additional, Yang, Shixin, additional, Galkin, Vitold E., additional, Huang, Hao, additional, Rajan, Shyamala S., additional, Anderson, Wayne F., additional, Stohl, Elizabeth A., additional, Seifert, H.Steven, additional, and Egelman, Edward H., additional

Published

2003

12. Flexibility of the Rings: Structural Asymmetry in the DnaB Hexameric Helicase

Author

Yang, Shixin, primary, Yu, Xiong, additional, VanLoock, Margaret S, additional, Jezewska, Maria J, additional, Bujalowski, Wlodzimierz, additional, and Egelman, Edward H, additional

Published

2002

13. The Hexameric Ring Structure of the Escherichia coli RuvB Branch Migration Protein

Author

Chen, Yen-Ju, primary, Yu, Xiong, additional, and Egelman, Edward H., additional

Published

2002

14. Archaeal RadA protein binds DNA as both helical filaments and octameric rings

Author

Yang, Shixin, primary, Yu, Xiong, additional, Seitz, Erica M, additional, Kowalczykowski, Stephen C, additional, and Egelman, Edward H, additional

Published

2001

15. Comparison of bacteriophage T4 UvsX and human Rad51 filaments suggests that RecA-like polymers may have evolved independently11Edited by M. Belfort

Author

Yang, Shixin, primary, VanLoock, Margaret S, additional, Yu, Xiong, additional, and Egelman, Edward H, additional

Published

2001

16. The primase active site is on the outside of the hexameric bacteriophage T7 gene 4 helicase-primase ring11Edited by W. Baumeister

Author

VanLoock, Margaret S, primary, Chen, Yen-Ju, additional, Yu, Xiong, additional, Patel, Smita S, additional, and Egelman, Edward H, additional

Published

2001

17. Three-dimensional reconstruction of transcription termination factor rho: orientation of the N-terminal domain and visualization of an RNA-binding site

Author

Yu, Xiong, primary, Horiguchi, Taigo, additional, Shigesada, Katsuya, additional, and Egelman, Edward H., additional

Published

2000

18. Identification of a Defined Epitope on the Surface of the Active RecA-DNA Filament Using a Monoclonal Antibody and Three-dimensional Reconstruction

Author

Yu, Xiong, primary, Shibata, Takehiko, additional, and Egelman, Edward H, additional

Published

1998

19. Structure and subunit composition of theRuvAB-holliday junction complex 1 1Edited by P. E. Wright

Author

Yu, Xiong, primary, West, Stephen C., additional, and Egelman, Edward H., additional

Published

1997

20. The HexamericE. coliDnaB Helicase can Exist in Different Quarternary States

Author

Yu, Xiong, primary, Jezewska, Maria J., additional, Bujalowski, Wlodzimierz, additional, and Egelman, Edward H., additional

Published

1996

21. DNA Conformation Induced by the Bacteriophage T4 UvsX Protein Appears Identical to the Conformation Induced by the Escherichia coli RecA Protein

Author

Yu, Xiong, primary and Egelman, Edward H., additional

Published

1993

22. The LexA Repressor Binds Within the Deep Helical Groove of the Activated RecA Filament

Author

Yu, Xiong, primary and Egelman, Edward H., additional

Published

1993

23. Direct visualization of dynamics and co-operative conformational changes within RecA filaments that appear to be associated with the hydrolysis of adenosine 5′-O-(3-thiotriphosphate)

Author

Yu, Xiong, primary and Egelman, Edward H., additional

Published

1992

24. Cleavage of bacteriophage lambda cI repressor involves the RecA C-terminal domain.

Author

Galkin VE, Yu X, Bielnicki J, Ndjonka D, Bell CE, and Egelman EH

Subjects

Hydrolysis, Microscopy, Atomic Force, Microscopy, Electron, Protein Conformation, Rec A Recombinases chemistry, Rec A Recombinases metabolism, Repressor Proteins metabolism, Viral Regulatory and Accessory Proteins metabolism

Abstract

The SOS response to DNA damage in Escherichia coli involves at least 43 genes, all under the control of the LexA repressor. Activation of these genes occurs when the LexA repressor cleaves itself, a reaction catalyzed by an active, extended RecA filament formed on DNA. It has been shown that the LexA repressor binds within the deep groove of this nucleoprotein filament, and presumably, cleavage occurs in this groove. Bacteriophages, such as lambda, have repressors (cI) that are structural homologs of LexA and also undergo self-cleavage when SOS is induced. It has been puzzling that some mutations in RecA that affect the cleavage of repressors are in the C-terminal domain (CTD) far from the groove where cleavage is thought to occur. In addition, it has been shown that the rate of cleavage of cI by RecA is dependent upon both the substrate on which RecA is polymerized and the ATP analog used. Electron microscopy and three-dimensional reconstructions show that the conformation and dynamics of RecA's CTD are also modulated by the polynucleotide substrate and ATP analog. Under conditions where the repressor cleavage rates are the highest, cI is coordinated within the groove by contacts with RecA's CTD. These observations provide a framework for understanding previous genetic and biochemical observations.

Published

2009