An expanded nuclear phylogenomic PCR toolkit for Sapindales.

Premise Of The Study: We tested PCR amplification of 91 low-copy nuclear gene loci in taxa from Sapindales using primers developed for (Burseraceae).

Methods And Results: Cross-amplification of these markers among 10 taxa tested was related to their phylogenetic distance from . On average, each Sapindalean taxon yielded product for 53 gene regions (range: 16-90).

Cell cycle-regulated cortical dynein/dynactin promotes symmetric cell division by differential pole motion in anaphase.

In cultured mammalian cells, how dynein/dynactin contributes to spindle positioning is poorly understood. To assess the role of cortical dynein/dynactin in this process, we generated mammalian cell lines expressing localization and affinity purification (LAP)-tagged dynein/dynactin subunits from bacterial artificial chromosomes and observed asymmetric cortical localization of dynein and dynactin during mitosis. In cells with asymmetrically positioned spindles, dynein and dynactin were both enriched at the cortex distal to the spindle.

Dynamic reorganization of Eg5 in the mammalian spindle throughout mitosis requires dynein and TPX2.

Kinesin-5 is an essential mitotic motor. However, how its spatial-temporal distribution is regulated in mitosis remains poorly understood. We expressed localization and affinity purification-tagged Eg5 from a mouse bacterial artificial chromosome (this construct was called mEg5) and found its distribution to be tightly regulated throughout mitosis.

Centrosome biogenesis continues in the absence of microtubules during prolonged S-phase arrest.

When CHO cells are arrested in S-phase, they undergo repeated rounds of centrosome duplication without cell-cycle progression. While the increase is slow and asynchronous, the number of centrosomes in these cells does rise with time. To investigate mechanisms controlling this duplication, we have arrested CHO cells in S-phase for up to 72 h, and coordinately inhibited new centriole formation by treatment with the microtubule poison colcemid.

Kinesins to the core: The role of microtubule-based motor proteins in building the mitotic spindle midzone.

In mammalian cultured cells the initiation of cytokinesis is regulated - both temporally and spatially - by the overlapping, anti-parallel microtubules of the spindle midzone. This region recruits several key central spindle components: PRC-1, polo-like kinase 1 (Plk-1), the centralspindlin complex, and the chromosome passenger complex (CPC), which together serve to stabilize the microtubule overlap, and also to coordinate the assembly of the cortical actin/myosin cytoskeleton necessary to physically cleave the cell in two. The localization of these crucial elements to the spindle midzone requires members of the kinesin superfamily of microtubule-based motor proteins.