Takumi Ishizuka scite author profile

Human telomeric RNA has been identified as a key component of the telomere machinery. Recently, the growing evidence suggests that the telomeric RNA forms G-quadruplex structures to play an important role in telomere protection and regulation. In the present studies, we developed a 19F NMR spectroscopy method to investigate the telomeric RNA G-quadruplex structures in vitro and in living cells. We demonstrated that the simplicity and sensitivity of 19F NMR approach can be used to directly observe the dimeric and two-subunits stacked G-quadruplexes in vitro and in living cells and quantitatively characterize the thermodynamic properties of the G-quadruplexes. By employing the 19F NMR in living cell experiment, we confirmed for the first time that the higher-order G-quadruplex exists in cells. We further demonstrated that telomere RNA G-quadruplexes are converted to the higher-order G-quadruplex under molecular crowding condition, a cell-like environment. We also show that the higher-order G-quadruplex has high thermal stability in crowded solutions. The finding provides new insight into the structural behavior of telomere RNA G-quadruplex in living cells. These results open new avenues for the investigation of G-quadruplex structures in vitro and in living cells.

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Consecutive Formation of G‐Quadruplexes in Human Telomeric‐Overhang DNA: A Protective Capping Structure for Telomere Ends

Ishizuka

Kurabayashi

et al. 2009

Angew Chem Int Ed

127

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The end of the line: Structural studies demonstrate the consecutive formation of G‐quadruplexes in human single‐stranded telomeric‐overhang DNA. A higher‐order DNA G‐quadruplex structure was found to protect DNA double‐strand ends from being recognized as double‐strand breaks and to direct against nuclease hydrolysis, suggesting that the superhelix structure may provide protective “capping” for the telomere ends.

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Solid-phase synthesis of pseudo-complementary peptide nucleic acids

et al. 2008

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Pseudo-complementary peptide nucleic acid (pcPNA) is a DNA analog in which modified DNA bases 2,6-diaminopurine (D) and 2-thiouracil (U(s)) 'decorate' a poly[N-(2-aminoethyl)glycine] backbone, together with guanine (G) and cytosine (C). One of the most significant characteristics of pcPNA is its ability to effect double-duplex invasion of predetermined DNA sites inducing various changes in the biological and the physicochemical properties of the DNA. This protocol describes solid-phase synthesis of pcPNA. The monomers for G and C are commercially available, but the monomers for D and U(s) need to be synthesized (or can be ordered to custom synthesis companies). Otherwise, the procedure is the same as that employed for Boc-strategy synthesis of conventional PNA. This protocol, if the synthesis of D and U(s) monomers is not factored in, takes approximately 7 d to complete.

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Chiral introduction of positive charges to PNA for double-duplex invasion to versatile sequences

Ishizuka

Yoshida

Yamamoto

et al. 2008

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Invasion of two PNA strands to double-stranded DNA is one of the most promising methods to recognize a predetermined site in double-stranded DNA (PNA = peptide nucleic acid). In order to facilitate this ‘double-duplex invasion’, a new type of PNA was prepared by using chiral PNA monomers in which a nucleobase was bound to the α-nitrogen of N-(2-aminoethyl)-d-lysine. These positively charged monomer units, introduced to defined positions in Nielsen's PNAs (poly[N-(2-aminoethyl)glycine] derivatives), promoted the invasion without impairing mismatch-recognizing activity. When pseudo-complementary nucleobases 2,6-diaminopurine and 2-thiouracil were bound to N-(2-aminoethyl)-d-lysine, the invasion successfully occurred even at highly G–C-rich regions [e.g. (G/C)7(A/T)3 and (G/C)8(A/T)2] which were otherwise hardly targeted. Thus, the scope of sequences available as the target site has been greatly expanded. In contrast with the promotion by the chiral PNA monomers derived from N-(2-aminoethyl)-d-lysine, their l-isomers hardly invaded, showing crucial importance of the d-chirality. The promotion of double-duplex invasion by the chiral (d) PNA monomer units was ascribed to both destabilization of PNA/PNA duplex and stabilization of PNA/DNA duplexes.

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Takumi Ishizuka

Influenza Virus Z-RNAs Induce ZBP1-Mediated Necroptosis

Characterization of human telomere RNA G-quadruplex structures in vitro and in living cells using 19F NMR spectroscopy

Consecutive Formation of G‐Quadruplexes in Human Telomeric‐Overhang DNA: A Protective Capping Structure for Telomere Ends

Solid-phase synthesis of pseudo-complementary peptide nucleic acids

Chiral introduction of positive charges to PNA for double-duplex invasion to versatile sequences

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