An antibody-based microarray assay for small RNA detection (2006)
Hu, Zonglin, Zhang, Aixia, Storz, Gisela, Gottesman, Susan, Leppla, Stephen H.
Detection of RNAs on microarrays is rapidly becoming a standard approach for molecular biologists. However, current methods frequently discriminate against structured and/or small RNA species. Here...
Hu, Zonglin, Mukherjee, Amit, Pichoff, Sebastien, Lutkenhaus, Joe
Positioning of the Z ring at the midcell site in Escherichia coli is assured by the min system, which masks polar sites through topological regulation of MinC, an inhibitor of division. To study how...
Analysis of MinC Reveals Two Independent Domains Involved in Interaction with MinD and FtsZ
In Escherichia coli FtsZ assembles into a Z ring at midcell while assembly at polar sites is prevented by the min system. MinC, a component of this system, is an inhibitor of FtsZ assembly that is...
Dynamic assembly of MinD on phospholipid vesicles regulated by ATP and MinE
Hu, Zonglin, Gogol, Edward P., Lutkenhaus, Joe
Selection of the division site in Escherichia coli is regulated by the min system and requires the rapid oscillation of MinD between the two halves of the cell under the control of MinE. In this...
Hu, Zonglin, Saez, Cristian, Lutkenhaus, Joe
In Escherichia coli, the min system prevents division away from midcell through topological regulation of MinC, an inhibitor of Z-ring formation. The topological regulation involves oscillation of...
Zhou, Huaijin, Schulze, Ryan, Cox, Sandra, Saez, Cristian, Hu, Zonglin, Lutkenhaus, Joe
The MinD ATPase is critical to the oscillation of the Min proteins, which limits formation of the Z ring to midcell. In the presence of ATP, MinD binds to the membrane and recruits MinC, forming a...
An antibody-based microarray assay for small RNA detection
Hu, Zonglin, Zhang, Aixia, Storz, Gisela, Gottesman, Susan, Leppla, Stephen H.
Detection of RNAs on microarrays is rapidly becoming a standard approach for molecular biologists. However, current methods frequently discriminate against structured and/or small RNA species. Here...
Hu, Zonglin, Mukherjee, Amit, Pichoff, Sebastien, Lutkenhaus, Joe
Positioning of the Z ring at the midcell site in Escherichia coli is assured by the min system, which masks polar sites through topological regulation of MinC, an inhibitor of division. To study how...
Analysis of MinC Reveals Two Independent Domains Involved in Interaction with MinD and FtsZ
In Escherichia coli FtsZ assembles into a Z ring at midcell while assembly at polar sites is prevented by the min system. MinC, a component of this system, is an inhibitor of FtsZ assembly that is...
Dynamic assembly of MinD on phospholipid vesicles regulated by ATP and MinE
Hu, Zonglin, Gogol, Edward P., Lutkenhaus, Joe
Selection of the division site in Escherichia coli is regulated by the min system and requires the rapid oscillation of MinD between the two halves of the cell under the control of MinE. In this...
Hu, Zonglin, Saez, Cristian, Lutkenhaus, Joe
In Escherichia coli, the min system prevents division away from midcell through topological regulation of MinC, an inhibitor of Z-ring formation. The topological regulation involves oscillation of...
Zhou, Huaijin, Schulze, Ryan, Cox, Sandra, Saez, Cristian, Hu, Zonglin, Lutkenhaus, Joe
The MinD ATPase is critical to the oscillation of the Min proteins, which limits formation of the Z ring to midcell. In the presence of ATP, MinD binds to the membrane and recruits MinC, forming a...
An antibody-based microarray assay for small RNA detection
Hu, Zonglin, Zhang, Aixia, Storz, Gisela, Gottesman, Susan, Leppla, Stephen H.
Detection of RNAs on microarrays is rapidly becoming a standard approach for molecular biologists. However, current methods frequently discriminate against structured and/or small RNA species. Here...