Functional Characterization and Cyclization Mechanism of a Diterpene Synthase Catalyzing the Skeleton Formation of Cephalotane-Type Diterpenoids.

CsCTS, a new diterpene synthase from Cephalotaxus sinensis responsible for forming cephalotene, the core skeleton of cephalotane-type diterpenoids with a highly rigid 6/6/5/7 tetracyclic ring system, was functionally characterized. The stepwise cyclization mechanism is proposed mainly based on structural investigation of its derailment products, and further demonstrated through isotopic labeling experiments and density functional theory calculations. Homology modeling and molecular dynamics simulation combined with site-directed mutagenesis revealed the critical amino acid residues for the unique carbocation-driven cascade cyclization mechanism of CsCTS.

Progranulin deficiency decreases gross neural connectivity but enhances transmission at individual synapses.

Frontotemporal dementia (FTD) has been linked to mutations in the progranulin gene (GRN) that lead to progranulin (PGRN) haploinsufficiency. Thus far, our understanding of the effects of PGRN depletion in the brain has been derived from investigation of gross pathology, and more detailed analyses of cellular function have been lacking. We report that knocking down PGRN levels in rat primary hippocampal cultures reduces neural connectivity by decreasing neuronal arborization and length as well as synapse density.

Progranulin deficiency leads to enhanced cell vulnerability and TDP-43 translocation in primary neuronal cultures.

Null mutations in the progranulin gene (PGRN) have been identified as a major cause of frontotemporal dementia with ubiquitinated inclusions. In this disorder, ubiquitinated, aggregated protein inclusions of a normally nuclear-located RNA processing protein called TAR DNA binding protein (TDP-43) accumulate in the neuronal cytoplasm (FTLD-TDP). To determine whether aspects of this clinical pathology can be established in primary cultures of mouse cortical neurons, PGRN levels were knocked down in neuronal cultures using lentiviral vectors to introduce mouse PGRN-siRNA constructs and subsequently rescued by overexpressing PGRN using a human PGRN-expressing lentiviral vector.

New stemona alkaloids from the roots of Stemona sessilifolia.

From the roots of Stemona sessilifolia, three new stemona-type alkaloids, namely stemosessifoine (1), isooxymaistemonine (2), and isomaistemonine (3), along with eight known alkaloids (bisdehydrostemoninine, isobisdehydrostemoninine, tuberostemonine, bisdehydrotuberostemonine, bisdehydrostemoninine, isobisdehydrostemoninine, stemoninine, and protostemonine), were isolated. Their structures were determined on the basis of extensive 2D-NMR spectroscopic-data analysis and by comparison with reported values in the literature. Compound 1 is a structurally unprecedented alkaloid, and it is depicted to be bioconverted from tuberostemonine as the precursor.

Mechanism for the TtDnaA-Tt-oriC cooperative interaction at high temperature and duplex opening at an unusual AT-rich region in Thermoanaerobacter tengcongensis.

Thermoanaerobacter tengcongensis is an anaerobic low-GC thermophilic bacterium. To further elucidate the replication initiation of chromosomal DNA at high temperature, the interaction between the replication initiator (TtDnaA) and the putative origin (Tt-oriC) in this thermophile was investigated. We found that efficient binding of TtDnaA to Tt-oriC at high temperature requires (i) at least two neighboring DnaA boxes, (ii) the specific feature of the TtDnaA Domain IV and (iii) the self-oligomerization of TtDnaA.