Purification and Characterization of qTBP42, a New Single-stranded and Quadruplex Telomeric DNA-binding Protein from Rat Hepatocytes

Sarig, Galit; Weisman-Shomer, Pnina; Erlitzki, Ronit; Fry, Michael

doi:10.1074/jbc.272.7.4474

Cited by 63 publications

(56 citation statements)

References 62 publications

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“…The hnRNP-related proteins qTBP42 and uqTBP25 tightly bind and stabilize single-stranded and tetraplex telomeric sequences (37,39). However, a survey of the interaction of qTBP42 and uqTBP25 with tetraplex structures of different DNA sequences revealed that neither protein detectably bound d(CGG) n tetrahelices.…”

Section: Bimolecular Tetraplex Forms Of D(cgg) N But Not Of a Telomermentioning

confidence: 99%

“…Previously identified as proteins that tightly bind and stabilize quadruplex telomeric DNA (37)(38)(39), it is shown here that qTBP42 and uqTBP25 destabilized bimolecular tetraplex structures of d(CGG) n without detectably binding these tetrahelices. Destabilization of tetraplex d(CGG) n by either protein did not require ATP or Mg 2ϩ or the presence of an unpaired single-strand tail at the ends of the tetrahelix.…”

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confidence: 94%

“…In this paper we report that two hnRNP-related nuclear DNA-binding proteins from rat liver, quadruplex telomeric DNA-binding protein 42 (qTBP42) (37,38), and unimolecular quadruplex telomeric DNA-binding protein 25 (uqTBP25) (39) destabilized tetraplex structures of d(CGG) n . Previously identified as proteins that tightly bind and stabilize quadruplex telomeric DNA (37)(38)(39), it is shown here that qTBP42 and uqTBP25 destabilized bimolecular tetraplex structures of d(CGG) n without detectably binding these tetrahelices.…”

mentioning

confidence: 99%

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Tetrahelical Forms of the Fragile X Syndrome Expanded Sequence d(CGG) Are Destabilized by Two Heterogeneous Nuclear Ribonucleoprotein-related Telomeric DNA-binding Proteins

Weisman-Shomer

Naot

Fry

2000

Journal of Biological Chemistry

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Section: Bimolecular Tetraplex Forms Of D(cgg) N But Not Of a Telomermentioning

confidence: 99%

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confidence: 94%

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confidence: 99%

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Tetrahelical Forms of the Fragile X Syndrome Expanded Sequence d(CGG) Are Destabilized by Two Heterogeneous Nuclear Ribonucleoprotein-related Telomeric DNA-binding Proteins

Weisman-Shomer

Naot

Fry

2000

Journal of Biological Chemistry

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“…Interestingly, a protein from Trypanosoma, ST-1, binds to the telomeric double-stranded repeat as well as to its singlestranded C-rich component [14]. In vertebrates, the nuclear protein from rat hepatocytes, qTBP42, has been shown to recognize each of the single-stranded forms of the telomeric repeat [9]. Several proteins that interact with polypyrimidine ssDNA have been described.…”

mentioning

confidence: 99%

“…Another group of proteins, ST-2 from Trypanosoma [8], qTBP42 from rat [9], human replication factor C [10], and murine STBP [11] and A1/UP1 [12], also bind to the single-stranded G-rich telomeric motif, although their function has not been fully ascertained. The last of these, however, is the first ssDNA-binding protein shown to be directly involved in mammalian telomere biogenesis, suggesting a possible mechanism by which telomere length can be modulated [13].…”

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A chicken hnRNP of the A/B family recognizes the single‐stranded d(CCCTAA)_n telomeric repeated motif

Marsich¹,

Bandiera²,

Tell³

et al. 2001

European Journal of Biochemistry

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With the aim of identifying proteins able to interact with the C-rich single-stranded telomeric repeated motif, three nuclear polypeptides, CBNPa, CBNPb and CBNPg, with apparent mobilities in SDS/PAGE of 38, 44 and 55 kDa, respectively, were isolated from mature chicken erythrocytes by affinity chromatography. In situ UV-cross-linking experiments demonstrated that CBNPa and CBNPg interact directly with the telomeric d(CCCTAA) n repeat, whereas CBNPb does not. Moreover, they provided information on the protein components responsible for each electrophoretic mobility-shift assay signal. Ion spray and matrix-assisted laser desorption ionization MS allowed us to identify CBNPa with single-stranded D-box-binding factor (ssDBF), a protein previously characterized as a transcription factor belonging to the A/B family of heterogeneous nuclear ribonucleoproteins, and CBNPb with an isoform of this protein containing an extra exon. Similarly, CBNPg was shown to be probably the chicken homolog of hnRNP K, a ribonuclear protein able to bind to polyC oligonucleotides. The relation of CBNPa (i.e. ssDBF), CBNPb and CBNPg to a number of similar proteins in the protein and nucleotide sequence databank is discussed. A rather diversified spectrum of functional roles has been assigned to some of these proteins despite the strong sequence homology among them.Keywords: heterogeneous ribonucleoproteins (hnRNPs); nuclear proteins; ssDNA recognition; telomeric C-rich motif.Since the discovery of the special features of repetitive DNA which constitutes the majority of telomeres of eukaryotic organisms, and of its specific replication machinery, considerable attention has also been directed to identifying and characterizing nuclear proteins that specifically bind to this DNA, in the normal Watson±Crick duplex form, as well as to the protruding single-stranded G-rich 3 H overhang at the telomere terminus. Many proteins such as TRF1 and TRF2 that bind to duplex telomeric DNA in mammalian cells [1] and Rap1p in yeast [2] have been reported to be involved in telomere length maintenance and regulation of telomerase activity. In unicellular organisms, several proteins, such as ab protein from Oxytricha , also bind to the single-stranded G-rich telomeric motif, although their function has not been fully ascertained. The last of these, however, is the first ssDNA-binding protein shown to be directly involved in mammalian telomere biogenesis, suggesting a possible mechanism by which telomere length can be modulated [13]. Much less attention has been given to identifying nuclear components able to recognize the complementary single-stranded C-rich DNA repeat. Interestingly, a protein from Trypanosoma, ST-1, binds to the telomeric double-stranded repeat as well as to its singlestranded C-rich component [14]. In vertebrates, the nuclear protein from rat hepatocytes, qTBP42, has been shown to recognize each of the single-stranded forms of the telomeric repeat [9]. Several proteins that interact with polypyrimidine ssDNA have been described. They includ...

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Quadruplex structures in nucleic acids

2000

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DNA oligonucleotides that have repetitive tracts of guanine bases can form G‐quadruplex structures that display an amazing polymorphism. Structures of several new G‐quadruplexes have been solved recently that greatly expand the known structural motifs observed in nucleic acid quadruplexes. Base triads, base hexads, and quartets that contain cytosine have recently been identified stacked over the familiar G‐quartets. The current status of the diverse array of structural features in quadruplexes is described and used to provide insight into the polymorphism and folding pathways. This review also summarizes recent progress in the techniques used to probe the structures of G‐quadruplexes and discusses the role of ion binding in quadruplex formation. Several of the quadruplex structures featured in this review can be accessed in the online version of this review as CHIME representations. © 2001 John Wiley & Sons, Inc. Biopolymers (Nucleic Acid sci) 56: 123–146, 2001

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Purification and Characterization of qTBP42, a New Single-stranded and Quadruplex Telomeric DNA-binding Protein from Rat Hepatocytes

Cited by 63 publications

References 62 publications

Tetrahelical Forms of the Fragile X Syndrome Expanded Sequence d(CGG) Are Destabilized by Two Heterogeneous Nuclear Ribonucleoprotein-related Telomeric DNA-binding Proteins

Tetrahelical Forms of the Fragile X Syndrome Expanded Sequence d(CGG) Are Destabilized by Two Heterogeneous Nuclear Ribonucleoprotein-related Telomeric DNA-binding Proteins

A chicken hnRNP of the A/B family recognizes the single‐stranded d(CCCTAA)_n telomeric repeated motif

Quadruplex structures in nucleic acids

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Purification and Characterization of qTBP42, a New Single-stranded and Quadruplex Telomeric DNA-binding Protein from Rat Hepatocytes

Cited by 63 publications

References 62 publications

Tetrahelical Forms of the Fragile X Syndrome Expanded Sequence d(CGG) Are Destabilized by Two Heterogeneous Nuclear Ribonucleoprotein-related Telomeric DNA-binding Proteins

Tetrahelical Forms of the Fragile X Syndrome Expanded Sequence d(CGG) Are Destabilized by Two Heterogeneous Nuclear Ribonucleoprotein-related Telomeric DNA-binding Proteins

A chicken hnRNP of the A/B family recognizes the single‐stranded d(CCCTAA)n telomeric repeated motif

Quadruplex structures in nucleic acids

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A chicken hnRNP of the A/B family recognizes the single‐stranded d(CCCTAA)_n telomeric repeated motif