Conformational and chemical selection by a<i>trans</i>-acting editing domain

Danhart, Eric; Bakhtina, Marina; Cantara, William A.; Kuzmishin, Alexandra B.; Ma, Xiao; Sanford, Brianne; Vargas-Rodriguez, Oscar; Košutić, Marija; Suga, Hiroaki; Nakanishi, K.; Micura, Ronald; Foster, Mark P.; Musier‐Forsyth, Karin

doi:10.1073/pnas.1703925114

Cited by 25 publications

(42 citation statements)

References 67 publications

(114 reference statements)

Supporting

Mentioning

Contrasting

Order By: Relevance

“…The Dimer 3D tertiary prediction placed TAR (light blue) and PolyA (navy) helices stacking on one another ( Figure 2 A; Movie 1). These results agree with published results of chemical mapping [ 8 , 10 , 39 , 40 ] and SAXS [ 34 , 35 ]. The 5′-Cap (magenta space-filling atom) lay at the junction of TAR and PolyA helices and the base of the U5 stem near G104-U105.…”

Section: Resultssupporting

confidence: 92%

A New Approach to 3D Modeling of Inhomogeneous Populations of Viral Regulatory RNA

Osmer

Singh

Boris‐Lawrie

2020

Viruses

View full text Add to dashboard Cite

Tertiary structure (3D) is the physical context of RNA regulatory activity. Retroviruses are RNA viruses that replicate through the proviral DNA intermediate transcribed by hosts. Proviral transcripts form inhomogeneous populations due to variable structural ensembles of overlapping regulatory RNA motifs in the 5′-untranslated region (UTR), which drive RNAs to be spliced or translated, and/or dimerized and packaged into virions. Genetic studies and structural techniques have provided fundamental input constraints to begin predicting HIV 3D conformations in silico. Using SimRNA and sets of experimentally-determined input constraints of HIVNL4-3 trans-activation responsive sequence (TAR) and pairings of unique-5′ (U5) with dimerization (DIS) or AUG motifs, we calculated a series of 3D models that differ in proximity of 5′-Cap and the junction of TAR and PolyA helices; configuration of primer binding site (PBS)-segment; and two host cofactors binding sites. Input constraints on U5-AUG pairings were most compatible with intramolecular folding of 5′-UTR motifs in energetic minima. Introducing theoretical constraints predicted metastable PolyA region drives orientation of 5′-Cap with TAR, U5 and PBS-segment helices. SimRNA and the workflow developed herein provides viable options to predict 3D conformations of inhomogeneous populations of large RNAs that have been intractable to conventional ensemble methods.

show abstract

Section: Resultssupporting

confidence: 92%

A New Approach to 3D Modeling of Inhomogeneous Populations of Viral Regulatory RNA

Osmer

Singh

Boris‐Lawrie

2020

Viruses

View full text Add to dashboard Cite

show abstract

“…Instead, we have previously developed a truly two-dimensional lineshape analysis strategy, based on fitting observed two-dimensional spectra to complete quantum mechanical simulations of the underlying pulse sequence (Waudby et al 2016). The analysis has been implemented in a software tool, TITAN, which has since been applied to study a wide range of biomolecular interactions (Danhart 2017;McShan 2018;Srb 2019).…”

Section: Introductionmentioning

confidence: 99%

Two-dimensional NMR lineshape analysis of single, multiple, zero and double quantum correlation experiments

Waudby

Ouvry

Davis³

et al. 2020

J Biomol NMR

View full text Add to dashboard Cite

NMR spectroscopy provides a powerful approach for the characterisation of chemical exchange and molecular interactions by analysis of series of experiments acquired over the course of a titration measurement. The appearance of NMR resonances undergoing chemical exchange depends on the frequency difference relative to the rate of exchange, and in the case of one-dimensional experiments chemical exchange regimes are well established and well known. However, two-dimensional experiments present additional complexity, as at least one additional frequency difference must be considered. Here we provide a systematic classification of chemical exchange regimes in two-dimensional NMR spectra. We highlight important differences between exchange in HSQC and HMQC experiments, that on a practical level result in more severe exchange broadening in HMQC spectra, but show that complementary alternatives to the HMQC are available in the form of HZQC and HDQC experiments. We present the longitudinal relaxation optimised SOFAST-H(Z/D)QC experiment for the simultaneous acquisition of sensitivity-enhanced HZQC and HDQC spectra, and the longitudinal and transverse relaxation optimised BEST-ZQ-TROSY for analysis of large molecular weight systems. We describe the application of these experiments to the characterisation of the interaction between the Hsp90 N-terminal domain and a small molecule ligand, and show that the independent analysis of HSQC, HMQC, HZQC and HDQC experiments provides improved confidence in the fitted dissociation constant and dissociation rate. Joint analysis of such data may provide improved sensitivity to detect and analyse more complex multi-state interaction mechanisms such as induced fit or conformational selection.

show abstract

“…The approach has also been extended to two‐dimensional (2D) lineshape analysis: the fitting of 2D NMR spectra, by direct simulation of the relevant pulse sequence . This approach, and the associated TITAN analysis software, has since found applications to a variety of biomolecular interactions …”

Section: Figurementioning

confidence: 99%

Cross‐Peaks in Simple Two‐Dimensional NMR Experiments from Chemical Exchange of Transverse Magnetisation

2019

View full text Add to dashboard Cite

Tw o-dimensional correlation measurements such as COSY,N OESY,H MQC,a nd HSQC experiments are central to small-molecule and biomolecular NMR spectroscopy, and commonly form the basis of more complex experiments designed to study chemical exchange occurring during additional mixing periods.H owever,e xchange occurring during chemical shift evolution periods can also influence the appearance of such spectra. While this is often exploited through one-dimensional lineshape analysis ("dynamic NMR"), the analysis of exchange across multiple chemical shift evolution periods has received less attention. Here we report that chemical exchange-induced cross-peaks can arise in even the simplest two-dimensional NMR experiments.T hese cross-peaks can have highly distorted phases that contain rich information about the underlying exchange process.T he quantitative analysis of such peaks,from asingle 2D spectrum, can provide ah ighly accurate characterisation of underlying exchange processes.

show abstract

Conformational and chemical selection by atrans-acting editing domain

Cited by 25 publications

References 67 publications

A New Approach to 3D Modeling of Inhomogeneous Populations of Viral Regulatory RNA

A New Approach to 3D Modeling of Inhomogeneous Populations of Viral Regulatory RNA

Two-dimensional NMR lineshape analysis of single, multiple, zero and double quantum correlation experiments

Cross‐Peaks in Simple Two‐Dimensional NMR Experiments from Chemical Exchange of Transverse Magnetisation

Contact Info

Product

Resources

About