Electron spin label radical

Figure 5 Phase of a CIDNP net effect explained with vector models (projections). From left to right, starting state influence of theg-value difference influence of the nuclear spin state through the hyperfine coupling constant resulting population difference of the nuclear spin states in the product resulting CIDNP signal. The labels on the vector models denote the electron spin of radical 1 or 2. Further explanation, see text.

The solution structures, dynamics, and interactions of and between biological macromolecules are topics of widespread interest in biochemistry. The chapter on electron spin labels, by Millhauser et al. illustrates how the EPR spectra of the stable nitroxide free radical can be used to address such problems. The chemistry of the nitroxides and their modes of attachment to the host molecules are discussed first. The details of the EPR spectra and of the spin Hamiltonian are then presented, showing how the intrinsic tensorial nature of the EPR spectrum of the reporter group is affected by motion. Such dynamic information is then extracted from some small peptides. The interaction between pairs of nitroxides is used to extract structural information. Finally, an example of Fourier transform EPR is introduced. ... 

Orbital phase continuity in triplet state. The orbital phase properties are depicted in Fig. 5c. For the triplet, the radical orbitals, p and q, and bonding n (a) orbital are donating orbitals (labeled by D in Fig. 5c) for a-spin electrons, while the antibonding jt (a ) orbital (marked by A) is electron-accepting. It can be seen from Fig. 5c that the electron-donating (D) radical orbitals, p and q, can be in phase with the accepting (a ) orbital (A), and out of phase with the donating orbital, Jt/a (D) at the same time for the triplet state. So the orbital phase is continuous, and the triplet state of 1,3-diradical (e.g., TMM and TM) is stabilized by the effective cyclic orbital interactions [29, 31]. 

We have studied demulsifier association by the electron spin resonance (ESR) technique. The spin label is covalently attached (Figure 5a) to the demulsifier. Normally, the ESR spectrum of a freely tumbling nitroxyl radical consists of three sharp peaks (Figure 5b). However, the spectrum for a tagged ethoxylated nonyl phenol resin (Figure 6a or 6b) shows only a single broad peak. 

The principles of ESR spectroscopy are very similar to NMR spectroscopy but the technique gives information about electron delocalizations rather than molecular structure and it enables the study of electron transfer reactions and the formation of paramagnetic intermediates in such reactions. In some situations, information regarding molecular structure can be obtained when suitable prosthetic groups are part of a molecule, e.g. FMN (flavin mononucleotide) in certain enzymes or the haem group in haemoglobin. Sometimes it is possible to attach suitable groups to molecules to enable their reactions to be monitored by ESR techniques. Such spin labels as they are called, are usually nitroxide radicals of the type... 

Since RNA is diamagnetic, EPR studies of RNA require incorporation of unpaired electrons into the biopolymer. Nitroxides in five- or six-membered rings that are flanked by methyl groups are stable organic free radicals that are commonly used for spin-labeling (Fig. 15.1). For a free... 

B2. With Neutral Molecules Electron Transfer Addition to Olefins Cycloaddition to Diolefins Complex Formation B3. With Ions or Dipolar Substrates Nucleophilic Capture B4. With Radicals Spin Labeling Oxygenation (302)... 

Many free radicals in their electronic ground states, and also many excited electronic states of molecules with closed shell ground states, have electronic structures in which both electronic orbital and electronic spin angular momentum is present. The precession of electronic angular momentum, L, around the intemuclear axis in a diatomic molecule usually leads to defined components, A, along the axis, and states with A =0, 1, 2, 3, etc., are called , n, A, , etc., states. In most cases there is also spin angular momentum S, and the electronic state is then labelled 2,s+1 Id, 2,s+1 A, etc. 

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