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Mg^sup 2+^-Induced Compaction of Single RNA Molecules Monitored by Tethered Particle Microscopy
We have applied tethered particle microscopy (TPM) as a single molecule analysis tool to studies of the conformational dynamics of poly-uridine(U) messenger (m)RNA and 16S ribosomal (r)RNA molecules. Using stroboscopic total internal reflection illumination and rigorous selection criteria to disting...
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| Published in: | Biophysical journal 2006-05, Vol.90 (10), p.3672 |
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| Language: | English |
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| container_title | Biophysical journal |
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| creator | Meredith Newby Lambert Vöcker, Eva Blumberg, Seth Redemann, Stefanie |
| description | We have applied tethered particle microscopy (TPM) as a single molecule analysis tool to studies of the conformational dynamics of poly-uridine(U) messenger (m)RNA and 16S ribosomal (r)RNA molecules. Using stroboscopic total internal reflection illumination and rigorous selection criteria to distinguish from nonspecific tethering, we have tracked the nanometer-scale Brownian motion of RNA-tethered fluorescent microspheres in all three dimensions at pH 7.5, 22°C, in 10 mM or 100 mM NaCl in the absence or presence of 10 mM MgCl^sub 2^. The addition of Mg^sup 2+^ to low-ionic strength buffer results in significant compaction and stiffening of poly(U) mRNA, but not of 16S rRNA. Furthermore, the motion of poly(U)-tethered microspheres is more heterogeneous than that of 16S rRNA-tethered microspheres. Analysis of in-plane bead motion suggests that poly(U) RNA, but less so 16S rRNA, can be modeled both in the presence and absence of Mg^sup 2+^ by a statistical Gaussian polymer model. We attribute these differences to the Mg^sup 2+^-induced compaction of the relatively weakly structured and structurally disperse poly(U) mRNA, in contrast to Mg^sup 2+^-induced reinforcement of existing secondary and tertiary structure contacts in the highly structured 16S rRNA. Both effects are nonspecific, however, as they are dampened in the presence of higher concentrations of monovalent cations. [PUBLICATION ABSTRACT] |
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Using stroboscopic total internal reflection illumination and rigorous selection criteria to distinguish from nonspecific tethering, we have tracked the nanometer-scale Brownian motion of RNA-tethered fluorescent microspheres in all three dimensions at pH 7.5, 22°C, in 10 mM or 100 mM NaCl in the absence or presence of 10 mM MgCl^sub 2^. The addition of Mg^sup 2+^ to low-ionic strength buffer results in significant compaction and stiffening of poly(U) mRNA, but not of 16S rRNA. Furthermore, the motion of poly(U)-tethered microspheres is more heterogeneous than that of 16S rRNA-tethered microspheres. Analysis of in-plane bead motion suggests that poly(U) RNA, but less so 16S rRNA, can be modeled both in the presence and absence of Mg^sup 2+^ by a statistical Gaussian polymer model. We attribute these differences to the Mg^sup 2+^-induced compaction of the relatively weakly structured and structurally disperse poly(U) mRNA, in contrast to Mg^sup 2+^-induced reinforcement of existing secondary and tertiary structure contacts in the highly structured 16S rRNA. Both effects are nonspecific, however, as they are dampened in the presence of higher concentrations of monovalent cations. 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Using stroboscopic total internal reflection illumination and rigorous selection criteria to distinguish from nonspecific tethering, we have tracked the nanometer-scale Brownian motion of RNA-tethered fluorescent microspheres in all three dimensions at pH 7.5, 22°C, in 10 mM or 100 mM NaCl in the absence or presence of 10 mM MgCl^sub 2^. The addition of Mg^sup 2+^ to low-ionic strength buffer results in significant compaction and stiffening of poly(U) mRNA, but not of 16S rRNA. Furthermore, the motion of poly(U)-tethered microspheres is more heterogeneous than that of 16S rRNA-tethered microspheres. Analysis of in-plane bead motion suggests that poly(U) RNA, but less so 16S rRNA, can be modeled both in the presence and absence of Mg^sup 2+^ by a statistical Gaussian polymer model. We attribute these differences to the Mg^sup 2+^-induced compaction of the relatively weakly structured and structurally disperse poly(U) mRNA, in contrast to Mg^sup 2+^-induced reinforcement of existing secondary and tertiary structure contacts in the highly structured 16S rRNA. Both effects are nonspecific, however, as they are dampened in the presence of higher concentrations of monovalent cations. [PUBLICATION ABSTRACT]</abstract><cop>New York</cop><pub>Biophysical Society</pub></addata></record> |
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| ispartof | Biophysical journal, 2006-05, Vol.90 (10), p.3672 |
| issn | 0006-3495 1542-0086 |
| language | eng |
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| source | Open Access: PubMed Central |
| subjects | Changes Gene expression Mechanical properties Methods Molecular structure Molecules Ribonucleic acid RNA Studies |
| title | Mg^sup 2+^-Induced Compaction of Single RNA Molecules Monitored by Tethered Particle Microscopy |
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