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PDBsum entry 1ign
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DNA binding protein/DNA PDB id
1ign

 

 

 

 

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Contents
Protein chains
189 a.a. *
DNA/RNA
Waters ×206
* Residue conservation analysis
PDB id:
1ign
Name: DNA binding protein/DNA
Title: DNA-binding domain of rap1 in complex with telomeric DNA site
Structure: DNA (5'- d( Cp Cp Gp Cp Ap Cp Ap Cp Cp Cp Ap Cp Ap Cp Ap Cp C p Ap G)-3'). Chain: c, e. Engineered: yes. DNA (5'- d( Cp Cp Tp Gp Gp Tp Gp Tp Gp Tp Gp Gp Gp Tp Gp Tp G p Cp G)-3'). Chain: d, f. Engineered: yes. Protein (rap1).
Source: Synthetic: yes. Saccharomyces cerevisiae. Baker's yeast. Organism_taxid: 4932. Gene: rap1 DNA binding domain. Expressed in: escherichia coli. Expression_system_taxid: 562. Other_details: t7 promoter
Biol. unit: Trimer (from PQS)
Resolution:
2.25Å     R-factor:   0.219     R-free:   0.294
Authors: P.Koenig,R.Giraldo,L.Chapman,D.Rhodes
Key ref:
P.Konig et al. (1996). The crystal structure of the DNA-binding domain of yeast RAP1 in complex with telomeric DNA. Cell, 85, 125-136. PubMed id: 8620531 DOI: 10.1016/S0092-8674(00)81088-0
Date:
29-Feb-96     Release date:   27-Jan-97    
PROCHECK
Go to PROCHECK summary
 Headers
 References

Protein chains
Pfam   ArchSchema ?
P11938  (RAP1_YEAST) -  DNA-binding protein RAP1 from Saccharomyces cerevisiae (strain ATCC 204508 / S288c)
Seq:
Struc: 		 
Seq:
Struc: 		827 a.a.
189 a.a.
Key:    PfamA domain  Secondary structure  CATH domain

DNA/RNA chains
  C-C-G-C-A-C-A-C-C-C-A-C-A-C-A-C-C-A-G 19 bases
  C-C-T-G-G-T-G-T-G-T-G-G-G-T-G-T-G-C-G 19 bases
  C-G-C-A-C-A-C-C-C-A-C-A-C-A-C-C-A-G 18 bases
  C-C-T-G-G-T-G-T-G-T-G-G-G-T-G-T-G-C-G 19 bases

 Enzyme reactions 
   Enzyme class: E.C.?
[IntEnz]   [ExPASy]   [KEGG]   [BRENDA]

 

 
DOI no: 10.1016/S0092-8674(00)81088-0 Cell 85:125-136 (1996)
PubMed id: 8620531  
 
 
The crystal structure of the DNA-binding domain of yeast RAP1 in complex with telomeric DNA.
P.Konig, R.Giraldo, L.Chapman, D.Rhodes.
 
  ABSTRACT  
 
Telomeres, the nucleoprotein complexes at the ends of eukaryotic chromosomes, are essential for chromosome stability. In the yeast S. cerevisiae, telomeric DNA is bound in a sequence-specific manner by RAP1, a multifunctional protein also involved in transcriptional regulation. Here we report the crystal structure of the DNA-binding domain of RAP1 in complex with telomeric DNA site at 2.25 A resolution. The protein contains two similar domains that bind DNA in a tandem orientation, recognizing a tandemly repeated DNA sequence. The domains are structurally related to the homeodomain and the proto-oncogene Myb, but show novel features in their DNA-binding mode. A structured linker between the domains and a long C-terminal tail contribute to the binding specificity. This structure provides insight into the recognition of the conserved telomeric DNA sequences by a protein.
 
  Selected figure(s)  
 
Figure 4.
Figure 4. Summary of Protein–DNA ContactsThe DNA is represented as an opened-out helix. Direct hydrogen bonds between the protein and the DNA are indicated by arrows. Water (W)-mediated interactions are shown by broken arrows. Hydrophobic contacts are indicated by arrows with round heads (Me, methyl group of thymidine; C, C5 atom of cytosine). Contacted phosphate groups (black) and deoxyribose rings (gray) are indicated by closed circles. 		Figure 6.
Figure 6. Comparison of the Structure of the RAP1 DBD with the Engrailed Homeodomain and Myb(a) Superposition of domain 1 (pale green) with domain 2 (orange) of RAP1 in a view along the recognition helices. The structures were overlaid using the protein alone. The corresponding DNA sites are shown in blue for domain 1 and cyan for domain 2. The C-terminal region of domain 1 is omitted for clarity.(b) Superposition of the Engrailed homeodomain (white) with domain 1 of RAP1 (pale green). The structural similarity includes the three-helix bundle and the N-terminal arm (domain 1 of RAP1, residues 360–378, 387–396, and 398–409; Engrailed, residues 5–23, 30–39, and 40–51, numbered according to pdb entry 1hdd). The DNA sites (RAP1, blue; Engrailed, white) are shown to illustrate the different docking of the domains on DNA.(c) Superposition of the second repeat of the proto-oncogene Myb (magenta) with domain 1 of RAP1 (pale green). The structural similarity extends over the three-helix bundles (domain 1 of RAP1, residues 363–378 and 387–409; Myb, residues 94–100 and 114–136, numbered according to pdb, entry 1 mse). The view is rotated by 90° about the DNA axis with respect to (a) and (b) to illustrate the different position of the recognition helices in the major groove of their DNA sites (RAP1, blue; Myb, magenta).
 
  The above figures are reprinted by permission from Cell Press: Cell (1996, 85, 125-136) copyright 1996.  
  Figures were selected by an automated process.  

Literature references that cite this PDB file's key reference

  PubMed id Reference
  21235754 J.Rhodin Edsö, C.Gustafsson, and M.Cohn (2011).
Single- and double-stranded DNA binding proteins act in concert to conserve a telomeric DNA core sequence.
  Genome Integr, 2, 2.  
21483987 N.Rawat, and P.Biswas (2011).
Shape, flexibility and packing of proteins and nucleic acids in complexes.
  Phys Chem Chem Phys, 13, 9632-9643.  
21217703 Y.Chen, R.Rai, Z.R.Zhou, J.Kanoh, C.Ribeyre, Y.Yang, H.Zheng, P.Damay, F.Wang, H.Tsujii, Y.Hiraoka, D.Shore, H.Y.Hu, S.Chang, and M.Lei (2011).
A conserved motif within RAP1 has diversified roles in telomere protection and regulation in different organisms.
  Nat Struct Mol Biol, 18, 213-221.
PDB codes: 3k6g 3owt
20231318 A.J.Zaug, E.R.Podell, J.Nandakumar, and T.R.Cech (2010).
Functional interaction between telomere protein TPP1 and telomerase.
  Genes Dev, 24, 613-622.  
20559389 G.Papai, M.K.Tripathi, C.Ruhlmann, J.H.Layer, P.A.Weil, and P.Schultz (2010).
TFIIA and the transactivator Rap1 cooperate to commit TFIID for transcription initiation.
  Nature, 465, 956-960.  
20231876 H.Lavoie, H.Hogues, J.Mallick, A.Sellam, A.Nantel, and M.Whiteway (2010).
Evolutionary tinkering with conserved components of a transcriptional regulatory network.
  PLoS Biol, 8, e1000329.  
21187328 J.A.Palacios, D.Herranz, M.L.De Bonis, S.Velasco, M.Serrano, and M.A.Blasco (2010).
SIRT1 contributes to telomere maintenance and augments global homologous recombination.
  J Cell Biol, 191, 1299-1313.  
19942858 J.Lu, and Y.Liu (2010).
Deletion of Ogg1 DNA glycosylase results in telomere base damage and length alteration in yeast.
  EMBO J, 29, 398-409.  
19846312 N.F.Lue (2010).
Plasticity of telomere maintenance mechanisms in yeast.
  Trends Biochem Sci, 35, 8.  
20169127 R.Hernandez-Rivas, K.Pérez-Toledo, A.M.Herrera Solorio, D.M.Delgadillo, and M.Vargas (2010).
Telomeric Heterochromatin in Plasmodium falciparum.
  J Biomed Biotechnol, 2010, 290501.  
  20948311 S.Kabir, A.Sfeir, and T.de Lange (2010).
Taking apart Rap1: an adaptor protein with telomeric and non-telomeric functions.
  Cell Cycle, 9, 4061-4067.  
19360118 G.Freckleton, S.I.Lippman, J.R.Broach, and S.Tavazoie (2009).
Microarray profiling of phage-display selections for rapid mapping of transcription factor-DNA interactions.
  PLoS Genet, 5, e1000449.  
19763083 J.Sarthy, N.S.Bae, J.Scrafford, and P.Baumann (2009).
Human RAP1 inhibits non-homologous end joining at telomeres.
  EMBO J, 28, 3390-3399.  
19767613 K.B.Swamy, C.Y.Cho, S.Chiang, Z.T.Tsai, and H.K.Tsai (2009).
Impact of DNA-binding position variants on yeast gene expression.
  Nucleic Acids Res, 37, 6991-7001.  
19345190 X.Yang, L.M.Figueiredo, A.Espinal, E.Okubo, and B.Li (2009).
RAP1 is essential for silencing telomeric variant surface glycoprotein genes in Trypanosoma brucei.
  Cell, 137, 99.  
18840288 E.R.Ko, D.Ko, C.Chen, and J.S.Lipsick (2008).
A conserved acidic patch in the Myb domain is required for activation of an endogenous target gene and for chromatin binding.
  Mol Cancer, 7, 77.  
18367475 S.Ko, S.H.Jun, H.Bae, J.S.Byun, W.Han, H.Park, S.W.Yang, S.Y.Park, Y.H.Jeon, C.Cheong, W.T.Kim, W.Lee, and H.S.Cho (2008).
Structure of the DNA-binding domain of NgTRF1 reveals unique features of plant telomere-binding proteins.
  Nucleic Acids Res, 36, 2739-2755.
PDB code: 2ckx
17499040 N.S.Bae, and P.Baumann (2007).
A RAP1/TRF2 complex inhibits nonhomologous end-joining at human telomeric DNA ends.
  Mol Cell, 26, 323-334.  
17139254 A.J.Bird, M.Gordon, D.J.Eide, and D.R.Winge (2006).
Repression of ADH1 and ADH3 during zinc deficiency by Zap1-induced intergenic RNA transcripts.
  EMBO J, 25, 5726-5734.  
16292553 S.W.Wong-Deyrup, Y.Kim, and S.J.Franklin (2006).
Sequence preference in DNA binding: de novo designed helix-turn-helix metallopeptides recognize a family of DNA target sites.
  J Biol Inorg Chem, 11, 17-25.  
16096640 B.Pardo, and S.Marcand (2005).
Rap1 prevents telomere fusions by nonhomologous end joining.
  EMBO J, 24, 3117-3127.  
15692568 D.Rudra, Y.Zhao, and J.R.Warner (2005).
Central role of Ifh1p-Fhl1p interaction in the synthesis of yeast ribosomal proteins.
  EMBO J, 24, 533-542.  
15688221 M.G.Hwang, K.Kim, W.K.Lee, and M.H.Cho (2005).
AtTBP2 and AtTRP2 in Arabidopsis encode proteins that bind plant telomeric DNA and induce DNA bending in vitro.
  Mol Genet Genomics, 273, 66-75.  
16132818 M.T.Teixeira, and E.Gilson (2005).
Telomere maintenance, function and evolution: the yeast paradigm.
  Chromosome Res, 13, 535-548.  
15608617 R.Court, L.Chapman, L.Fairall, and D.Rhodes (2005).
How the human telomeric proteins TRF1 and TRF2 recognize telomeric DNA: a view from high-resolution crystal structures.
  EMBO Rep, 6, 39-45.
PDB codes: 1w0t 1w0u
15608118 S.Hanaoka, A.Nagadoi, and Y.Nishimura (2005).
Comparison between TRF2 and TRF1 of their telomeric DNA-bound structures and DNA-binding activities.
  Protein Sci, 14, 119-130.
PDB codes: 1vf9 1vfc
15189140 A.Smogorzewska, and T.de Lange (2004).
Regulation of telomerase by telomeric proteins.
  Annu Rev Biochem, 73, 177-208.  
15075267 D.H.Underwood, C.Carroll, and M.J.McEachern (2004).
Genetic dissection of the Kluyveromyces lactis telomere and evidence for telomere capping defects in TER1 mutants with long telomeres.
  Eukaryot Cell, 3, 369-384.  
15100233 M.S.O'Connor, A.Safari, D.Liu, J.Qin, and Z.Songyang (2004).
The human Rap1 protein complex and modulation of telomere length.
  J Biol Chem, 279, 28585-28591.  
15005708 S.H.Yoshimura, H.Maruyama, F.Ishikawa, R.Ohki, and K.Takeyasu (2004).
Molecular mechanisms of DNA end-loop formation by TRF2.
  Genes Cells, 9, 205-218.  
15543148 S.Mukherjee, M.F.Berger, G.Jona, X.S.Wang, D.Muzzey, M.Snyder, R.A.Young, and M.L.Bulyk (2004).
Rapid analysis of the DNA-binding specificities of transcription factors with DNA microarrays.
  Nat Genet, 36, 1331-1339.  
15228524 T.A.Leonard, P.J.Butler, and J.Löwe (2004).
Structural analysis of the chromosome segregation protein Spo0J from Thermus thermophilus.
  Mol Microbiol, 53, 419-432.
PDB code: 1vz0
15364931 Z.N.Karamysheva, Y.V.Surovtseva, L.Vespa, E.V.Shakirov, and D.E.Shippen (2004).
A C-terminal Myb extension domain defines a novel family of double-strand telomeric DNA-binding proteins in Arabidopsis.
  J Biol Chem, 279, 47799-47807.  
14565979 B.Li, and T.de Lange (2003).
Rap1 affects the length and heterogeneity of human telomeres.
  Mol Biol Cell, 14, 5060-5068.  
14685173 L.R.Vega, M.K.Mateyak, and V.A.Zakian (2003).
Getting to the end: telomerase access in yeast and humans.
  Nat Rev Mol Cell Biol, 4, 948-959.  
12646586 S.W.Yang, D.H.Kim, J.J.Lee, Y.J.Chun, J.H.Lee, Y.J.Kim, I.K.Chung, and W.T.Kim (2003).
Expression of the telomeric repeat binding factor gene NgTRF1 is closely coordinated with the cell division program in tobacco BY-2 suspension culture cells.
  J Biol Chem, 278, 21395-21407.  
12475927 D.Rhodes, L.Fairall, T.Simonsson, R.Court, and L.Chapman (2002).
Telomere architecture.
  EMBO Rep, 3, 1139-1145.  
11816032 J.Wahlin, and M.Cohn (2002).
Analysis of the RAP1 protein binding to homogeneous telomeric repeats in Saccharomyces castellii.
  Yeast, 19, 241-256.  
12354778 L.Mohrmann, A.J.Kal, and C.P.Verrijzer (2002).
Characterization of the extended Myb-like DNA-binding domain of trithorax group protein Zeste.
  J Biol Chem, 277, 47385-47392.  
12045106 P.Borst, and R.O.Elferink (2002).
Mammalian ABC transporters in health and disease.
  Annu Rev Biochem, 71, 537-592.  
12029082 R.Sabatini, N.Meeuwenoord, J.H.van Boom, and P.Borst (2002).
Site-specific interactions of JBP with base and sugar moieties in duplex J-DNA. Evidence for both major and minor groove contacts.
  J Biol Chem, 277, 28150-28156.  
11861910 Z.Morávek, S.Neidle, and B.Schneider (2002).
Protein and drug interactions in the minor groove of DNA.
  Nucleic Acids Res, 30, 1182-1191.  
11376157 A.Ray, and K.W.Runge (2001).
Yeast telomerase appears to frequently copy the entire template in vivo.
  Nucleic Acids Res, 29, 2382-2394.  
11676925 J.Kanoh, and F.Ishikawa (2001).
spRap1 and spRif1, recruited to telomeres by Taz1, are essential for telomere function in fission yeast.
  Curr Biol, 11, 1624-1630.  
11545737 L.Fairall, L.Chapman, H.Moss, T.de Lange, and D.Rhodes (2001).
Structure of the TRFH dimerization domain of the human telomeric proteins TRF1 and TRF2.
  Mol Cell, 8, 351-361.
PDB codes: 1h6o 1h6p
11571752 R.Haw, A.D.Yarragudi, and H.Uemura (2001).
Isolation of a Candida glabrata homologue of RAP1, a regulator of transcription and telomere function in Saccharomyces cerevisiae.
  Yeast, 18, 1277-1284.  
11597504 R.Stracke, M.Werber, and B.Weisshaar (2001).
The R2R3-MYB gene family in Arabidopsis thaliana.
  Curr Opin Plant Biol, 4, 447-456.  
11689701 S.Grossi, A.Bianchi, P.Damay, and D.Shore (2001).
Telomere formation by rap1p binding site arrays reveals end-specific length regulation requirements and active telomeric recombination.
  Mol Cell Biol, 21, 8117-8128.  
11738049 T.Nishikawa, H.Okamura, A.Nagadoi, P.König, D.Rhodes, and Y.Nishimura (2001).
Solution structure of a telomeric DNA complex of human TRF1.
  Structure, 9, 1237-1251.
PDB codes: 1ity 1iv6
11405224 T.Simonsson (2001).
G-quadruplex DNA structures--variations on a theme.
  Biol Chem, 382, 621-628.  
11726497 Y.Tanaka, O.Nureki, H.Kurumizaka, S.Fukai, S.Kawaguchi, M.Ikuta, J.Iwahara, T.Okazaki, and S.Yokoyama (2001).
Crystal structure of the CENP-B protein-DNA complex: the DNA-binding domains of CENP-B induce kinks in the CENP-B box DNA.
  EMBO J, 20, 6612-6618.
PDB code: 1hlv
10850490 B.Li, S.Oestreich, and T.de Lange (2000).
Identification of human Rap1: implications for telomere evolution.
  Cell, 101, 471-483.  
10871358 J.Wahlin, and M.Cohn (2000).
Saccharomyces cerevisiae RAP1 binds to telomeric sequences with spatial flexibility.
  Nucleic Acids Res, 28, 2292-2301.  
10606652 K.G.Spink, R.J.Evans, and A.Chambers (2000).
Sequence-specific binding of Taz1p dimers to fission yeast telomeric DNA.
  Nucleic Acids Res, 28, 527-533.  
11092831 M.J.McEachern, A.Krauskopf, and E.H.Blackburn (2000).
Telomeres and their control.
  Annu Rev Genet, 34, 331-358.  
10679817 M.J.Wortman, C.P.Krachmarov, J.H.Kim, R.G.Gordon, L.G.Chepenik, J.N.Brady, G.L.Gallia, K.Khalili, and E.M.Johnson (2000).
Interaction of HIV-1 Tat with Puralpha in nuclei of human glial cells: characterization of RNA-mediated protein-protein binding.
  J Cell Biochem, 77, 65-74.  
  11104519 N.M.Luscombe, S.E.Austin, H.M.Berman, and J.M.Thornton (2000).
An overview of the structures of protein-DNA complexes.
  Genome Biol, 1, REVIEWS001.  
11745112 R.H.Shafer, and I.Smirnov (2000).
Biological aspects of DNA/RNA quadruplexes.
  Biopolymers, 56, 209-227.  
10523316 A.Bianchi, R.M.Stansel, L.Fairall, J.D.Griffith, D.Rhodes, and T.de Lange (1999).
TRF1 binds a bipartite telomeric site with extreme spatial flexibility.
  EMBO J, 18, 5735-5744.  
10611335 A.Ray, and K.W.Runge (1999).
Varying the number of telomere-bound proteins does not alter telomere length in tel1Delta cells.
  Proc Natl Acad Sci U S A, 96, 15044-15049.  
  9858529 A.Ray, and K.W.Runge (1999).
The yeast telomere length counting machinery is sensitive to sequences at the telomere-nontelomere junction.
  Mol Cell Biol, 19, 31-45.  
10581239 I.Ohki, N.Shimotake, N.Fujita, M.Nakao, and M.Shirakawa (1999).
Solution structure of the methyl-CpG-binding domain of the methylation-dependent transcriptional repressor MBD1.
  EMBO J, 18, 6653-6661.
PDB code: 1d9n
  10523636 I.R.Graham, R.A.Haw, K.G.Spink, K.A.Halden, and A.Chambers (1999).
In vivo analysis of functional regions within yeast Rap1p.
  Mol Cell Biol, 19, 7481-7490.  
10026283 K.Nadassy, S.J.Wodak, and J.Janin (1999).
Structural features of protein-nucleic acid recognition sites.
  Biochemistry, 38, 1999-2017.  
  10082571 T.Kophengnavong, A.S.Carroll, and T.K.Blackwell (1999).
The SKN-1 amino-terminal arm is a DNA specificity segment.
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9501060 A.J.Lustig (1998).
DNA dynamics: different means to a common end?
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9427759 B.Ganter, S.Fu, and J.S.Lipsick (1998).
D-type cyclins repress transcriptional activation by the v-Myb but not the c-Myb DNA-binding domain.
  EMBO J, 17, 255-268.  
9504045 E.M.Stone, and L.Pillus (1998).
Silent chromatin in yeast: an orchestrated medley featuring Sir3p [corrected]
  Bioessays, 20, 30-40.  
9666330 J.Heringa (1998).
Detection of internal repeats: how common are they?
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9451007 J.Iwahara, T.Kigawa, K.Kitagawa, H.Masumoto, T.Okazaki, and S.Yokoyama (1998).
A helix-turn-helix structure unit in human centromere protein B (CENP-B).
  EMBO J, 17, 827-837.
PDB code: 1bw6
9565750 J.P.Schneider, A.Lombardi, and W.F.DeGrado (1998).
Analysis and design of three-stranded coiled coils and three-helix bundles.
  Fold Des, 3, R29-R40.  
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Nucleosome assembly on telomeric sequences.
  Biochemistry, 37, 6727-6737.  
9826662 M.C.López, J.B.Smerage, and H.V.Baker (1998).
Multiple domains of repressor activator protein 1 contribute to facilitated binding of glycolysis regulatory protein 1.
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Sequence-specific DNA recognition by the myb-like domain of the human telomere binding protein TRF1: a model for the protein-DNA complex.
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A novel DNA-binding motif in MarA: the first structure for an AraC family transcriptional activator.
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PDB code: 1bl0
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Eukaryotic transcription factors.
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Solution structure of the DNA-binding domain of human telomeric protein, hTRF1.
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PDB code: 1ba5
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TRF1 is a dimer and bends telomeric DNA.
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Proteins that bind to double-stranded regions of telomeric DNA.
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Human telomeres contain two distinct Myb-related proteins, TRF1 and TRF2.
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DNA-Binding properties of the replication telomere protein.
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Telomerase and telomere-binding proteins: controlling the endgame.
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  9278137 J.Alcedo, and M.Noll (1997).
Hedgehog and its patched-smoothened receptor complex: a novel signalling mechanism at the cell surface.
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  9271441 J.M.Weitzel, H.Buhrmester, and W.H.Strätling (1997).
Chicken MAR-binding protein ARBP is homologous to rat methyl-CpG-binding protein MeCP2.
  Mol Cell Biol, 17, 5656-5666.  
  9389643 L.Harrington, W.Zhou, T.McPhail, R.Oulton, D.S.Yeung, V.Mar, M.B.Bass, and M.O.Robinson (1997).
Human telomerase contains evolutionarily conserved catalytic and structural subunits.
  Genes Dev, 11, 3109-3115.  
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Solution conformations and interactions of alpha and beta subunits of the Oxytricha nova telomere binding protein: investigation by Raman spectroscopy.
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Identification of a putative mitochondrial telomere-binding protein of the yeast Candida parapsilosis.
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Investigation of the pyrimidine preference by the c-Myb DNA-binding domain at the initial base of the consensus sequence.
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9391075 M.Shen, C.Haggblom, M.Vogt, T.Hunter, and K.P.Lu (1997).
Characterization and cell cycle regulation of the related human telomeric proteins Pin2 and TRF1 suggest a role in mitosis.
  Proc Natl Acad Sci U S A, 94, 13618-13623.  
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Recognition of telomeric DNA.
  Trends Biochem Sci, 22, 43-47.  
9782776 R.E.Dickerson, and T.K.Chiu (1997).
Helix bending as a factor in protein/DNA recognition.
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Molecular mechanisms of platelet adhesion and activation.
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TRF1, a mammalian telomeric protein.
  Trends Genet, 13, 21-26.  
8646530 D.Shore (1996).
The means to bind the ends.
  Nat Struct Biol, 3, 491-493.  
8913682 H.S.Pappa, A.E.Stewart, and N.Q.McDonald (1996).
Incorporating anomalous scattering centres into macromolecules.
  Curr Opin Struct Biol, 6, 611-616.  
8982452 V.A.Zakian (1996).
Structure, function, and replication of Saccharomyces cerevisiae telomeres.
  Annu Rev Genet, 30, 141-172.  
8898191 V.Lundblad, and W.E.Wright (1996).
Telomeres and telomerase: a simple picture becomes complex.
  Cell, 87, 369-375.  
The most recent references are shown first. Citation data come partly from CiteXplore and partly from an automated harvesting procedure. Note that this is likely to be only a partial list as not all journals are covered by either method. However, we are continually building up the citation data so more and more references will be included with time. Where a reference describes a PDB structure, the PDB codes are shown on the right.

 

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