Adenosine-5′-d: rotational conformation of the 5′-carbinol group

A synthesis of adenosine-5′-d (4), and its p.m.r. spectral characteristics, are described. The presence of deuterium in 4 gives rise to a 2:1 mixture of R and S configurations at C-5, thereby permitting specific assignments for the resonances of the residual 5′-protons. From the observed spin-spin coupling between the latter and H-4′, and estimate has been made of the rotamer population of the exocyclic 5′-carbinol group. It is shown that the gauche-gauche rotamer is preponderant (≈70%) and the gauche-trans one of minor importance (≈20%) in aqueous solution, which contrasts markedly with the preference for the latter rotamer exhibited by adenosine in the solid state.     

Phage T1-mediated transduction of a plasmid containing the T1 pac site

The T1 pac site has been cloned into a plasmid vector. This recombinant plasmid was tested for T1-mediated transduction efficiency in comparison with a plasmid containing the phage lambda T1-pac-like site esp-lambda, plasmids containing T1 sequences other than the pac site, and plasmids containing neither T1 sequences nor known pac sites. The data obtained indicate that there are at least two distinct mechanisms of T1-mediated plasmid transduction. One requires the presence of any T1 sequence on the plasmid and probably takes place via cointegrate formation with the homologous region of an infecting T1 genome. The other is specifically dependent on the presence of a pac site on the plasmid. Plasmids are packaged as head-to-tail multimers that have one heterogeneous molecular end and the other terminated at pac, and the direction of packaging with respect to the pac site is the same for plasmids as for T1. Possible roles of pac in plasmid packaging and their implications with regard to the packaging of phage DNA are discussed.     

The braincase and palate of the tetrapodomorph sarcopterygian mandageria fairfaxi: morphological variability near the fish–tetrapod transition

The braincase of the Late Devonian tristichopterid sarcopterygian Mandageria fairfaxi , from Canowindra, NSW, Australia, differs radically from the conservative pattern present in other 'osteolepiforms' (stem–group tetrapodomorph fishes) and non–dipnoan sarcopterygian fishes in general. The basioccipital region is short, displaced anteriorly, and either unossified or loosely articulated to the exoccipital, leaving most or all of the notochordal tunnel open ventrally. The exoccipital complex, which is developed into a large saddle that would have rested on top of the notochord, carries large, triangular articular facets on its posterior face and appears to have formed part of a functional neck joint, a synovial articulation between the skull and vertebral column that allows the former to rotate against the latter. Such a joint is characteristic of post–Devonian tetrapods, but unknown in other sarcopterygians. We infer that the ventrally open notochordal tunnel allowed gentle flexion of the cranial notochord during (predominantly vertical) rotational movement at the occiput; this is a mechanically unique solution to the problem of creating a mobile neck. Other unusual features of Mandageria include a posteriorly located lateral commissure, and structures on the entopterygoid and lateral commissure that may have been associated with an elaborate spiracular tract.