https://www.selleckchem.com/products/ipa-3.html In Mycobacterium tuberculosis, heparin-binding hemagglutinin (HBHAMT) has a relevant role in infection. It is also present in non-virulent mycobacteria and ancient actinobacteria, such as Rhodococcus opacus. To have a better understanding of the underlying mechanisms that shaped the evolutionary divergence of these proteins, we performed a comprehensive phylogenetic analysis of the regulatory sequences that drive the expression of hbha in saprophytic and pathogenic mycobacterial species. The alignment of the hbha loci showed the appearance of intergenic sequences containing regulatory elements upstream the hbha gene; this sequence arrangement is present only in slow-growing pathogenic mycobacteria. The heterologous expression of HBHAMT in oleaginous R. opacus PD630 results in protein binding to lipid droplets, as it happens with HBHA proteins from saprophytic mycobacteria. We hypothesize that mycobacterial hbha gene cluster underwent functional divergence during the evolutionary differentiation of slow-growing pathogenic mycobacteria. We propose here an evolutionary scenario to explain the structural and functional divergence of HBHA in fast and slow-growing mycobacteria.Pregnancy-associated osteoporosis (PAO) is a rare condition of skeletal fragility affecting women in pregnancy or the postpartum period. During normal pregnancy and lactation, substantial changes in calcium metabolism and skeletal physiology occur in order to meet the demands of the developing foetus. Whilst these adaptations are reversible and generally of no clinical consequence for the mother, a small number of women will develop osteoporosis and suffer fragility fractures. Vertebral fractures occur most commonly in PAO and are often multiple. Due to the rarity of PAO, systematic study to date has been limited. Aetiology is poorly understood, but traditional osteoporosis risk factors and genetic factors are likely to play a role. A small number of c