Disappearance of the budding yeast Bub2-Bfa1 complex from the mother-bound spindle pole contributes to mitotic exit

Budding yeast spindle position checkpoint is engaged by misoriented spindles and prevents mitotic exit by inhibiting the G protein Tem1 through the GTPase-activating protein (GAP) Bub2/Bfa1. Bub2 and Bfa1 are found on both duplicated spindle pole bodies until anaphase onset, when they disappear from the mother-bound spindle pole under unperturbed conditions. In contrast, when spindles are misoriented they remain symmetrically localized at both SPBs. Thus, symmetric localization of Bub2/Bfa1 might lead to inhibition of Tem1, which is also present at SPBs. Consistent with this hypothesis, we show that a Bub2 version symmetrically localized on both SPBs throughout the cell cycle prevents mitotic exit in mutant backgrounds that partially impair it. This effect is Bfa1 dependent and can be suppressed by high Tem1 levels. Bub2 removal from the mother-bound SPB requires its GAP activity, which in contrast appears to be dispensable for Tem1 inhibition. Moreover, it correlates with the passage of one spindle pole through the bud neck because it needs septin ring formation and bud neck kinases.     

The conserved tyrosine residues 401 and 1044 in ATP sites of human P-glycoprotein are critical for ATP binding and hydrolysis: evidence for a conserved subdomain, the A-loop in the ATP-binding cassette

Each nucleotide-binding domain (NBD) of mammalian P-glycoproteins (Pgps) and human ATP-binding cassette (ABC) B subfamily members contains a tyrosine residue approximately 25 residues upstream of the Walker A domain. To assess the role of the conserved Y401 and Y1044 residues of human Pgp, we substituted these residues with F, W, C, or A either singly or together. The mutant proteins were expressed in a Vaccinia virus-based transient expression system as well as in baculovirus-infected HighFive insect cells. The Y401F, Y401W, Y1044F, Y1044W, or Y401F/Y1004F mutants transported fluorescent substrates similar to the wild-type protein. On the other hand, Y401L and Y401C exhibited partial (30-50%) function, and transport was completely abolished in Y401A, Y1044A, and Y401A/Y1044A mutant Pgps. Similarly, in Y401A, Y1044A, and Y401A/Y1044A mutants, TNP-ATP binding, vanadate-induced trapping of nucleotide, and ATP hydrolysis were completely abolished. Thus, an aromatic residue upstream of the Walker A motif in ABC transporters is critical for binding of ATP. Additionally, the crystal structures of several NBDs in the nucleotide-bound form, data mining, and alignment of 18,514 ABC domains with the consensus conserved sequence in a database of all nonredundant proteins indicate that an aromatic residue is highly conserved in approximately 85% of ABC proteins. Although the role of this aromatic residue has previously been studied in a few ABC proteins, we provide evidence for a near-universal structural and functional role for this residue and recognize its presence as a conserved subdomain approximately 25 amino acids upstream of the Walker A motif that is critical for ATP binding. We named this subdomain the "A-loop" (aromatic residue interacting with the adenine ring of ATP).     

Know Your Enemy: How to Build and Vanquish a Global Fungal Scourge

The 8th International Conference on Cryptococcus and Cryptococcosis, chaired by Maurizio Del Poeta (Medical University of South Carolina), and organized together with June Kwon-Chung (National Institute of Allergy and Infectious Diseases), Stuart Levitz (University of Massachusetts Medical School), and John Perfect (Duke University), occurred in May 2011. This meeting brought together the world's leading researchers on Cryptococcus and cryptococcosis, including basic scientists, epidemiologists, and clinicians, to discuss new developments in Cryptococcus biology. With more than 60 oral presentations and 180 posters, this meeting enhanced our understanding of pathogenicity of Cryptococcus and served as a robust forum that facilitated cross-disciplinary discussions, research, and clinical collaborations. Due to space constraints, this brief overview highlights only a few of the topics discussed in this meeting, focusing on the evolution of virulence, host and pathogen interactions, fungal and host signaling, new advances of genomics studies on Cryptococcus, and the current status of the outbreak caused by C. gattii. The 8th International Conference on Cryptococcus and Cryptococcosis brought together scientists from across the globe in the beautiful historical downtown setting of Charleston to share their latest findings and highlight advances in Cryptococcus research. With more than 250 participants, this meeting was the largest gathering of the Cryptococcus international community in the 24-year history. Here, we review the advances presented and the current state of knowledge in the field.