In Arabidopsis thaliana, RNase P function, that is, endonucleolytic tRNA 5'-end maturation, is carried out by three homologous polypeptides ("proteinaceous RNase P" (PRORP) 1, 2 and 3). Here we present the first kinetic analysis of these enzymes. For PRORP1, a specificity constant (k(react)/K(m(sto))) of 3×10(6) M(-1) min(-1) was determined under single-turnover conditions. We demonstrate a fundamentally different sensitivity of PRORP enzymes to an Rp-phosphorothioate modification at the canonical cleavage site in a 5'-precursor tRNA substrate; whereas processing by bacterial RNase P is inhibited by three orders of magnitude in the presence of this sulfur substitution and Mg(2+) as the metal-ion cofactor, the PRORP enzymes are affected by not more than a factor of five under the same conditions, without significantly increased miscleavage. These findings indicate that the catalytic mechanism utilized by proteinaceous RNase P is different from that of RNA-based bacterial RNase P, taking place without a direct metal-ion coordination to the (pro-)Rp substituent. As Rp-phosphorothioate and inosine modification at all 26 G residues of the tRNA body had only minor effects on processing by PRORP, we conclude that productive PRORP-substrate interaction is not critically dependent on any of the affected (pro-)Rp oxygens or guanosine 2-amino groups.
The possibility of an axisymmetric tandem mirror in which stability accrues from wall stabilization is discussed. It is found that the stability requirements are compatible with thermal barrier requirements so that the thermal barrier plug cell can also provide stabilization. Thus, a single axisymmetric end cell can plug and stabilize a high-beta plasma solenoid. Self-stabilization of the central cell and other magnetic configurations are also discussed.
1,2-Diol-oligoribonucleotides were prepared using fully protected 2'-O-[2-(2,3-dihydroxypropyl)amino-2-oxoethyl]uridine 3'-phosphoramidite. Incorporation of the 2'-modified uridine residue into oligonucleotide chains does not significantly affect the thermal stability of RNA and RNA-DNA duplexes. Periodate oxidation of the 1,2-diol results in reactive 2'-aldehyde oligoribonucleotides. Further application of these oligonucleotides for cross-linking with bacterial ribonuclease P was investigated.
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