The telomere capping complex CST has an unusual stoichiometry, makes multipartite interaction with G-Tails, and unfolds higher-order G-tail structures.

The telomere capping complex CST has an unusual stoichiometry, makes multipartite interaction with G-Tails, and unfolds higher-order G-tail structures.

The telomere-ending binding protein complex CST (Cdc13-Stn1-Ten1) mediates critical functions in both telomere protection and replication. We devised a co-expression and affinity purification strategy for isolating large quantities of the complete Candida glabrata CST complex. The complex was found...

Full description

Bibliographic Details
Main Authors: Neal F Lue, Ruobo Zhou, Lidia Chico, Ninghui Mao, Olga Steinberg-Neifach, Taekjip Ha
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2013-01-01
Series:PLoS Genetics
Online Access:http://europepmc.org/articles/PMC3536697?pdf=render
id doaj-9a6f03101a044b55859f557f35b79a2a
record_format Article
spelling doaj-9a6f03101a044b55859f557f35b79a2a2020-11-24T21:37:05ZengPublic Library of Science (PLoS)PLoS Genetics1553-73901553-74042013-01-0191e100314510.1371/journal.pgen.1003145The telomere capping complex CST has an unusual stoichiometry, makes multipartite interaction with G-Tails, and unfolds higher-order G-tail structures.Neal F LueRuobo ZhouLidia ChicoNinghui MaoOlga Steinberg-NeifachTaekjip HaThe telomere-ending binding protein complex CST (Cdc13-Stn1-Ten1) mediates critical functions in both telomere protection and replication. We devised a co-expression and affinity purification strategy for isolating large quantities of the complete Candida glabrata CST complex. The complex was found to exhibit a 2∶4∶2 or 2∶6∶2 stoichiometry as judged by the ratio of the subunits and the native size of the complex. Stn1, but not Ten1 alone, can directly and stably interact with Cdc13. In gel mobility shift assays, both Cdc13 and CST manifested high-affinity and sequence-specific binding to the cognate telomeric repeats. Single molecule FRET-based analysis indicates that Cdc13 and CST can bind and unfold higher order G-tail structures. The protein and the complex can also interact with non-telomeric DNA in the absence of high-affinity target sites. Comparison of the DNA-protein complexes formed by Cdc13 and CST suggests that the latter can occupy a longer DNA target site and that Stn1 and Ten1 may contact DNA directly in the full CST-DNA assembly. Both Stn1 and Ten1 can be cross-linked to photo-reactive telomeric DNA. Mutating residues on the putative DNA-binding surface of Candida albicans Stn1 OB fold domain caused a reduction in its crosslinking efficiency in vitro and engendered long and heterogeneous telomeres in vivo, indicating that the DNA-binding activity of Stn1 is required for telomere protection. Our data provide insights on the assembly and mechanisms of CST, and our robust reconstitution system will facilitate future biochemical analysis of this important complex.http://europepmc.org/articles/PMC3536697?pdf=render
collection DOAJ
language English
format Article
sources DOAJ
author Neal F Lue
Ruobo Zhou
Lidia Chico
Ninghui Mao
Olga Steinberg-Neifach
Taekjip Ha
spellingShingle Neal F Lue
Ruobo Zhou
Lidia Chico
Ninghui Mao
Olga Steinberg-Neifach
Taekjip Ha
The telomere capping complex CST has an unusual stoichiometry, makes multipartite interaction with G-Tails, and unfolds higher-order G-tail structures.
PLoS Genetics
author_facet Neal F Lue
Ruobo Zhou
Lidia Chico
Ninghui Mao
Olga Steinberg-Neifach
Taekjip Ha
author_sort Neal F Lue
title The telomere capping complex CST has an unusual stoichiometry, makes multipartite interaction with G-Tails, and unfolds higher-order G-tail structures.
title_short The telomere capping complex CST has an unusual stoichiometry, makes multipartite interaction with G-Tails, and unfolds higher-order G-tail structures.
title_full The telomere capping complex CST has an unusual stoichiometry, makes multipartite interaction with G-Tails, and unfolds higher-order G-tail structures.
title_fullStr The telomere capping complex CST has an unusual stoichiometry, makes multipartite interaction with G-Tails, and unfolds higher-order G-tail structures.
title_full_unstemmed The telomere capping complex CST has an unusual stoichiometry, makes multipartite interaction with G-Tails, and unfolds higher-order G-tail structures.
title_sort telomere capping complex cst has an unusual stoichiometry, makes multipartite interaction with g-tails, and unfolds higher-order g-tail structures.
publisher Public Library of Science (PLoS)
series PLoS Genetics
issn 1553-7390
1553-7404
publishDate 2013-01-01
description The telomere-ending binding protein complex CST (Cdc13-Stn1-Ten1) mediates critical functions in both telomere protection and replication. We devised a co-expression and affinity purification strategy for isolating large quantities of the complete Candida glabrata CST complex. The complex was found to exhibit a 2∶4∶2 or 2∶6∶2 stoichiometry as judged by the ratio of the subunits and the native size of the complex. Stn1, but not Ten1 alone, can directly and stably interact with Cdc13. In gel mobility shift assays, both Cdc13 and CST manifested high-affinity and sequence-specific binding to the cognate telomeric repeats. Single molecule FRET-based analysis indicates that Cdc13 and CST can bind and unfold higher order G-tail structures. The protein and the complex can also interact with non-telomeric DNA in the absence of high-affinity target sites. Comparison of the DNA-protein complexes formed by Cdc13 and CST suggests that the latter can occupy a longer DNA target site and that Stn1 and Ten1 may contact DNA directly in the full CST-DNA assembly. Both Stn1 and Ten1 can be cross-linked to photo-reactive telomeric DNA. Mutating residues on the putative DNA-binding surface of Candida albicans Stn1 OB fold domain caused a reduction in its crosslinking efficiency in vitro and engendered long and heterogeneous telomeres in vivo, indicating that the DNA-binding activity of Stn1 is required for telomere protection. Our data provide insights on the assembly and mechanisms of CST, and our robust reconstitution system will facilitate future biochemical analysis of this important complex.
url http://europepmc.org/articles/PMC3536697?pdf=render
work_keys_str_mv AT nealflue thetelomerecappingcomplexcsthasanunusualstoichiometrymakesmultipartiteinteractionwithgtailsandunfoldshigherordergtailstructures
AT ruobozhou thetelomerecappingcomplexcsthasanunusualstoichiometrymakesmultipartiteinteractionwithgtailsandunfoldshigherordergtailstructures
AT lidiachico thetelomerecappingcomplexcsthasanunusualstoichiometrymakesmultipartiteinteractionwithgtailsandunfoldshigherordergtailstructures
AT ninghuimao thetelomerecappingcomplexcsthasanunusualstoichiometrymakesmultipartiteinteractionwithgtailsandunfoldshigherordergtailstructures
AT olgasteinbergneifach thetelomerecappingcomplexcsthasanunusualstoichiometrymakesmultipartiteinteractionwithgtailsandunfoldshigherordergtailstructures
AT taekjipha thetelomerecappingcomplexcsthasanunusualstoichiometrymakesmultipartiteinteractionwithgtailsandunfoldshigherordergtailstructures
AT nealflue telomerecappingcomplexcsthasanunusualstoichiometrymakesmultipartiteinteractionwithgtailsandunfoldshigherordergtailstructures
AT ruobozhou telomerecappingcomplexcsthasanunusualstoichiometrymakesmultipartiteinteractionwithgtailsandunfoldshigherordergtailstructures
AT lidiachico telomerecappingcomplexcsthasanunusualstoichiometrymakesmultipartiteinteractionwithgtailsandunfoldshigherordergtailstructures
AT ninghuimao telomerecappingcomplexcsthasanunusualstoichiometrymakesmultipartiteinteractionwithgtailsandunfoldshigherordergtailstructures
AT olgasteinbergneifach telomerecappingcomplexcsthasanunusualstoichiometrymakesmultipartiteinteractionwithgtailsandunfoldshigherordergtailstructures
AT taekjipha telomerecappingcomplexcsthasanunusualstoichiometrymakesmultipartiteinteractionwithgtailsandunfoldshigherordergtailstructures
_version_ 1725938403716890624

Similar Items