The RNA recognition motif (RRM) is the most common RNA binding domain across eukaryotic proteins. It is therefore of great value to engineer its specificity to target RNAs of arbitrary sequence. This was recently achieved for the RRM in Rbfox protein, where four mutations R118D, E147R, N151S, and E152T were designed to target the precursor to the oncogenic miRNA 21. Here, we used a variety of molecular dynamics-based approaches to predict specific interactions at the binding interface. Overall, we have run approximately 50 microseconds of enhanced sampling and plain molecular dynamics simulations on the engineered complex as well as on the wild-type Rbfox·pre-miRNA 20b from which the mutated systems were designed. Comparison with the availa...
The key role of RNA in the development of human pathologies (including cancer and neurodegenerative ...
RNA recognition motifs (RRM) are the most prevalent class of RNA binding domains in eukaryotes. Thei...
RNA Recognition Motif (RRM) proteins represent an abundant and variable class of proteins playing ke...
The RNA recognition motif (RRM) is the most common RNA binding domain across eukaryotic proteins. It...
The RNA recognition motif (RRM) is the most common RNA binding domain across eukaryotic proteins. It...
(A) Bird’s-eye view of the Rbfox*•pre-miR20b* complex. (B) and (C) Close-up views of the interaction...
(A) NMR structure of pre-miR20b RNA (pdb 2n7x). (B) NMR structure of the Rbfox•pre-miR20b complex (p...
Trajectories and input files for the simulations of the Rbfox·pre-miR20b complex
PAD and tag analyses for Rbfox* free (top) and bound to pre-miR20b* RNA (bottom). “F” indicates fluc...
(A) Bird’s-eye view of the Rbfox•pre-miR20b complex. (B)-(H) Close-up views of the interactions obse...
Trajectories and input files of the simulations of the S151T Rbfox*·pre-miR20b* system
<p>RNA-binding protein with multiple splicing (RBPMS) is critical for axon guidance, smooth muscle p...
Trajectories and input files for the simulations (REST2, REST2-PS and unbiased MD) of the Rbfox*·pre...
Simulations of the miR20b RNA with the Case vdW modification to amber force field and OPC water mole...
(A) 2D representation of the free pre-miR20b stem-loop structure. (B) Time development of the εRMSD ...
The key role of RNA in the development of human pathologies (including cancer and neurodegenerative ...
RNA recognition motifs (RRM) are the most prevalent class of RNA binding domains in eukaryotes. Thei...
RNA Recognition Motif (RRM) proteins represent an abundant and variable class of proteins playing ke...
The RNA recognition motif (RRM) is the most common RNA binding domain across eukaryotic proteins. It...
The RNA recognition motif (RRM) is the most common RNA binding domain across eukaryotic proteins. It...
(A) Bird’s-eye view of the Rbfox*•pre-miR20b* complex. (B) and (C) Close-up views of the interaction...
(A) NMR structure of pre-miR20b RNA (pdb 2n7x). (B) NMR structure of the Rbfox•pre-miR20b complex (p...
Trajectories and input files for the simulations of the Rbfox·pre-miR20b complex
PAD and tag analyses for Rbfox* free (top) and bound to pre-miR20b* RNA (bottom). “F” indicates fluc...
(A) Bird’s-eye view of the Rbfox•pre-miR20b complex. (B)-(H) Close-up views of the interactions obse...
Trajectories and input files of the simulations of the S151T Rbfox*·pre-miR20b* system
<p>RNA-binding protein with multiple splicing (RBPMS) is critical for axon guidance, smooth muscle p...
Trajectories and input files for the simulations (REST2, REST2-PS and unbiased MD) of the Rbfox*·pre...
Simulations of the miR20b RNA with the Case vdW modification to amber force field and OPC water mole...
(A) 2D representation of the free pre-miR20b stem-loop structure. (B) Time development of the εRMSD ...
The key role of RNA in the development of human pathologies (including cancer and neurodegenerative ...
RNA recognition motifs (RRM) are the most prevalent class of RNA binding domains in eukaryotes. Thei...
RNA Recognition Motif (RRM) proteins represent an abundant and variable class of proteins playing ke...