Stepping statistics of single HIV-1 reverse transcriptase molecules during DNA polymerization.

DNA polymerases are protein machines that processively incorporate complimentary nucleotides into a growing double-stranded DNA (ds-DNA). Single-base nucleotide incorporation rates have been determined by stalling and restarting various polymerases, but intrinsic processive rates have been difficult to obtain, particularly for polymerases with low processivity, such as the human immunodeficiency virus type 1 reverse transcriptase (HIV RT) polymerase. Here we find, using a new fluorescence-based single-molecule polymerization assay, that the intrinsic processive DNA-dependent polymerization of HIV RT is approximately Poissionian (i.

Transient mixed-valence character of Re(I)(4)(CO)(12)(4,4'-bpy)(4)Cl(4).

This study addresses, in detail, the orbital nature and the extent of metal-metal communication in the lowest emitting triplet state of Re(4)(CO)(12)(4,4'-bpy)(4)Cl(4) (where 4,4'-bpy = 4,4'-bipyridine) as well as the symmetry of the lowest (3)MLCT manifold in comparison to that of the ground state. All spectral evidence points to (1). a (3)MLCT excited manifold localized between a single Re(I) corner and an adjacent bridging ligand, (2).

Non-localized ligand-to-metal charge transfer excited states in (Cp)2Ti(IV)(NCS)2.

The bent d(0) titanium metallocene (Cp)(2)Ti(NCS)(2) exhibits an intense phosphorescence from a ligand-to-metal charge transfer triplet excited state at 77 K in an organic glass substrate and a poly(methyl methacrylate) plastic substrate. Quantum chemical calculations and spectroscopic studies show that the orbital parentage of this triplet state arises from the promotion of an electron from an essentially nonbonding symmetry adapted pi molecular orbital located on the NCS(-) ligands to a d(z)2-(y)2 orbital located on the Ti metal. Standard infrared spectroscopy of (Cp)(2)Ti(NCS)(2) in its ground electronic state at 77 K reveals a pair of closely spaced absorptions at (2072 cm(-1), 2038 cm(-1))(glass) and (2055 cm(-1), 2015 cm(-1))(plastic) that are assigned, respectively, to the symmetric and antisymmetric CN stretching modes of the two coordinated NCS(-) ligands.