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2KIQ

Solution structure of the FF Domain 2 of human transcription elongation factor CA150

Summary for 2KIQ
Entry DOI10.2210/pdb2kiq/pdb
DescriptorTranscription elongation regulator 1 (1 entity in total)
Functional Keywordshuman transcription elongation factor ca150, rna polymerase ii c-terminal domain interacting protein, ff domain, residual dipolar coupling, activator, alternative splicing, coiled coil, nucleus, phosphoprotein, repressor, transcription, transcription regulation, transcription regulator
Biological sourceHomo sapiens (human)
Cellular locationNucleus: O14776
Total number of polymer chains1
Total formula weight7315.56
Authors
Zeng, J.,Boyles, J.,Tripathy, C.,Yan, A.,Zhou, P.,Donald, B.R. (deposition date: 2009-05-07, release date: 2009-07-28, Last modification date: 2024-05-22)
Primary citationZeng, J.,Boyles, J.,Tripathy, C.,Wang, L.,Yan, A.,Zhou, P.,Donald, B.R.
High-resolution protein structure determination starting with a global fold calculated from exact solutions to the RDC equations.
J.Biomol.Nmr, 45:265-281, 2009
Cited by
PubMed Abstract: We present a novel structure determination approach that exploits the global orientational restraints from RDCs to resolve ambiguous NOE assignments. Unlike traditional approaches that bootstrap the initial fold from ambiguous NOE assignments, we start by using RDCs to compute accurate secondary structure element (SSE) backbones at the beginning of structure calculation. Our structure determination package, called RDC-PANDA: (RDC-based SSE PAcking with NOEs for Structure Determination and NOE Assignment), consists of three modules: (1) RDC-EXACT: ; (2) PACKER: ; and (3) HANA: (HAusdorff-based NOE Assignment). RDC-EXACT: computes the global optimal solution of backbone dihedral angles for each secondary structure element by exactly solving a system of quartic RDC equations derived by Wang and Donald (Proceedings of the IEEE computational systems bioinformatics conference (CSB), Stanford, CA, 2004a; J Biomol NMR 29(3):223-242, 2004b), and systematically searching over the roots, each of which is a backbone dihedral varphi- or psi-angle consistent with the RDC data. Using a small number of unambiguous inter-SSE NOEs extracted using only chemical shift information, PACKER: performs a systematic search for the core structure, including all SSE backbone conformations. HANA: uses a Hausdorff-based scoring function to measure the similarity between the experimental spectra and the back-computed NOE pattern for each side-chain from a statistically-diverse rotamer library, and drives the selection of optimal position-specific rotamers for filtering ambiguous NOE assignments. Finally, a local minimization approach is used to compute the loops and refine side-chain conformations by fixing the core structure as a rigid body while allowing movement of loops and side-chains. RDC-PANDA: was applied to NMR data for the FF Domain 2 of human transcription elongation factor CA150 (RNA polymerase II C-terminal domain interacting protein), human ubiquitin, the ubiquitin-binding zinc finger domain of the human Y-family DNA polymerase Eta (pol eta UBZ), and the human Set2-Rpb1 interacting domain (hSRI). These results demonstrated the efficiency and accuracy of our algorithm, and show that RDC-PANDA: can be successfully applied for high-resolution protein structure determination using only a limited set of NMR data by first computing RDC-defined backbones.
PubMed: 19711185
DOI: 10.1007/s10858-009-9366-3
PDB entries with the same primary citation
Experimental method
SOLUTION NMR
Structure validation

226707

数据于2024-10-30公开中

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