Surface decorated metal carbonyl clusters: bridging organometallic molecular clusters and atomically precise ligated nanoclusters.

In this Frontier Article, the work carried out within our research group in Bologna in the field of surface decorated metal carbonyl clusters will be outlined and put in a more general context. After a short Introduction, clusters composed of a metal carbonyl core decorated on the surface by metal-ligand fragments will be analyzed. Both metal-ligand fragments behaving as Lewis acids and Lewis bases will be considered.

Atomically precise rhodium-indium carbonyl nanoclusters: synthesis, characterization, crystal structure and electron-sponge features.

In this paper we present the investigation of the reactivity of [Rh(CO)] with InCl, with the aim of expanding the more general study that allowed us to obtain, among other species, the icosahedral [RhE(CO)] ( = 4 when E = Ge or Sn; = 3 when E = Sb or Bi) family of clusters. Indeed, the study resulted in the isolation and characterization of the analogous In-centred icosahedral [RhIn(CO)] nanocluster (1), which is isoelectronic and isostructural with the [RhE(CO)] congeners. During the course of the reaction two more new species, namely the octahedral [Rh(CO)InCl] (2) and the dimeric [{Rh(CO)InCl}] (3) have also been identified.

Expression analysis of during development.

The tRNA-histidine guanylyltransferase 1-like (), also known as induced in high glucose-1 (), encodes for an essential mitochondria-associated protein highly conserved throughout evolution, that catalyses the 3'-5' addition of a guanine to the 5'-end of tRNA-histidine (tRNA). Previous data indicated that THG1L plays a crucial role in the regulation of mitochondrial biogenesis and dynamics, in ATP production, and is critically involved in the modulation of apoptosis, cell-cycle progression and survival, as well as in cellular stress responses and redox homeostasis. Dysregulations of THG1L expression play a central role in various pathologies, including nephropathies, and neurodevelopmental disorders often characterized by developmental delay and cerebellar ataxia.

Peraurated ruthenium hydride carbonyl clusters: aurophilicity, isolobal analogy, structural isomerism, and fluxionality.

The stepwise addition of increasing amounts of Au(PPh)Cl to [HRu(CO)] (1) results in the sequential formation of [HRu(CO)(AuPPh)] (2), [HRu(CO)(AuPPh)] (3), and HRu(CO)(AuPPh) (4). Alternatively, 4 can be obtained upon addition of HBF·EtO (two mole equivalents) to 3. Further addition of acid to 3 (three mole equivalents) results in the formation of the tetra-aurated cluster Ru(CO)(AuPPh) (5).