3U58
Crystal Structure of the Tetrahymena telomerase processivity factor Teb1 AB
Summary for 3U58
Entry DOI | 10.2210/pdb3u58/pdb |
Related | 3U4V 3U4Z 3U50 |
Descriptor | Tetrahymena Teb1 AB, DNA (5'-D(*GP*GP*GP*T)-3') (3 entities in total) |
Functional Keywords | tetrahymena, telomerase, teb1, processivity factor, dna binding protein-dna complex, dna binding protein/dna |
Biological source | Tetrahymena thermophila More |
Total number of polymer chains | 8 |
Total formula weight | 104591.41 |
Authors | |
Primary citation | Zeng, Z.,Min, B.,Huang, J.,Hong, K.,Yang, Y.,Collins, K.,Lei, M. Structural basis for Tetrahymena telomerase processivity factor Teb1 binding to single-stranded telomeric-repeat DNA. Proc.Natl.Acad.Sci.USA, 108:20357-20361, 2011 Cited by PubMed Abstract: Telomerase copies its internal RNA template to synthesize telomeric DNA repeats. Unlike other polymerases, telomerase can retain its single-stranded product through multiple rounds of template dissociation and repositioning to accomplish repeat addition processivity (RAP). Tetrahymena telomerase holoenzyme RAP depends on a subunit, Teb1, with autonomous DNA-binding activity. Sequence homology and domain modeling suggest that Teb1 is a paralog of RPA70C, the largest subunit of the single-stranded DNA-binding factor replication protein (RPA), but unlike RPA, Teb1 binds DNA with high specificity for telomeric repeats. To understand the structural basis and significance of telomeric-repeat DNA recognition by Teb1, we solved crystal structures of three proposed Teb1 DNA-binding domains and defined amino acids of each domain that contribute to DNA interaction. Our studies indicate that two central Teb1 DNA-binding oligonucleotide/oligosaccharide-binding-fold domains, Teb1A and Teb1B, achieve high affinity and selectivity of telomeric-repeat recognition by principles similar to the telomere end-capping protein POT1 (protection of telomeres 1). An additional C-terminal Teb1 oligonucleotide/oligosaccharide-binding-fold domain, Teb1C, has features shared with the RPA70 C-terminal domain including a putative direct DNA-binding surface that is critical for high-RAP activity of reconstituted holoenzyme. The Teb1C zinc ribbon motif does not contribute to DNA binding but is nonetheless required for high-RAP activity, perhaps contributing to Teb1 physical association with the remainder of the holoenzyme. Our results suggest the biological model that high-affinity DNA binding by Teb1AB recruits holoenzyme to telomeres and subsequent Teb1C-DNA association traps product in a sliding-clamp-like manner that does not require high-affinity DNA binding for high stability of enzyme-product association. PubMed: 22143754DOI: 10.1073/pnas.1113624108 PDB entries with the same primary citation |
Experimental method | X-RAY DIFFRACTION (2.613 Å) |
Structure validation
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