Aaron F. Straight scite author profile

Like neutrophilic leukocytes, differentiated HL-60 cells respond to chemoattractant by adopting a polarized morphology, with F-actin in a protruding pseudopod at the leading edge and contractile actin-myosin complexes at the back and sides. Experiments with pharmacological inhibitors, toxins, and mutant proteins show that this polarity depends on divergent, opposing "frontness" and "backness" signals generated by different receptor-activated trimeric G proteins. Frontness depends upon Gi-mediated production of 3'-phosphoinositol lipids (PI3Ps), the activated form of Rac, a small GTPase, and F-actin. G12 and G13 trigger backness signals, including activation of a second GTPase (Rho), a Rho-dependent kinase, and myosin II. Functional incompatibility causes the two resulting actin assemblies to aggregate into separate domains, making the leading edge more sensitive to attractant than the back. The latter effect explains both the neutrophil's ability to polarize in uniform concentrations of chemoattractant and its response to reversal of an attractant gradient by performing a U-turn.

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Self- and Actin-Templated Assembly of Mammalian Septins

Kinoshita

et al. 2002

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Septins are polymerizing GTPases required for cytokinesis and cortical organization. The principles by which they are targeted to, and assemble at, specific cell regions are unknown. We show that septins in mammalian cells switch between a linear organization along actin bundles and cytoplasmic rings, approximately 0.6 microm in diameter. A recombinant septin complex self-assembles into rings resembling those in cells. Linear organization along actin bundles was reconstituted by adding an adaptor protein, anillin. Perturbation of septin organization in cells by expression of a septin-interacting fragment of anillin or by septin depletion via siRNA causes loss of actin bundles. We conclude that septins alone self-assemble into rings, that adaptor proteins recruit septins to actin bundles, and that septins help organize these bundles.

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Interphase chromosomes undergo constrained diffusional motion in living cells

et al. 1997

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We conclude that chromatin is free to undergo substantial Brownian motion, but that a given chromatin segment is confined to a subregion of the nucleus. This constrained diffusion is consistent with a highly defined nuclear architecture, but also allows enough motion for processes requiring chromosome motility to take place. These results lead to a model for the regulation of chromosome interactions by nuclear architecture.

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In vivo localization of DNA sequences and visualization of large-scale chromatin organization using lac operator/repressor recognition.

et al. 1996

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Abstract. We report a new method for in situ localization of DNA sequences that allows excellent preservation of nuclear and chromosomal ultrastructure and direct, in vivo observations. 256 direct repeats of the lac operator were added to vector constructs used for transfection and served as a tag for labeling by lac repressor. This system was first characterized by visualization of chromosome homogeneously staining regions (HSRs) produced by gene amplification using a dihydrofolate reductase (DHFR) expression vector with methotrexate selection. Using electron microscopy, most HSRs showed ~100-nm fibers, as described previously for the bulk, large-scale chromatin organization in these cells, and by light microscopy, distinct, large-scale chromatin fibers could be traced in vivo up to 5 txm in length. Subsequent experiments demonstrated the potential for more general applications of this labeling technology. Single and multiple copies of the integrated vector could be detected in living CHO cells before gene amplification, and detection of a single 256 lac operator repeat and its stability during mitosis was demonstrated by its targeted insertion into budding yeast cells by homologous recombination. In both CHO cells and yeast, use of the green fluorescent protein-lac repressor protein allowed extended, in vivo observations of the operator-tagged chromosomal DNA. Future applications of this technology should facilitate structural, functional, and genetic analysis of chromatin organization, chromosome dynamics, and nuclear architecture. How chromatin is packaged into higher order structures above the 30-nm chromatin fiber in higher eukaryotic cells and what this level of organization implies for regulation of transcription, DNA replication, and recombination represents a major question in cell biology today. For the mammalian metaphase chromosome, the packing ratio is estimated as 10,000:1, roughly 250 times the 30-40-fold packing ratio measured for the 30-nm higher order chromatin fiber (Alberts et al., 1994). A similar estimate of the packing ratio is more difficult to obtain for interphase chromatids, but several experiments suggest a packing ratio at least an order of magnitude higher than the 30-nm chromatin fiber (Lawrence et al., 1990). The folding motifs accounting for this additional compaction are poorly understood, to a large degree because of the lack of

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GFP tagging of budding yeast chromosomes reveals that protein–protein interactions can mediate sister chromatid cohesion

et al. 1996

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Aaron F. Straight

Divergent Signals and Cytoskeletal Assemblies Regulate Self-Organizing Polarity in Neutrophils

Self- and Actin-Templated Assembly of Mammalian Septins

Interphase chromosomes undergo constrained diffusional motion in living cells

In vivo localization of DNA sequences and visualization of large-scale chromatin organization using lac operator/repressor recognition.

GFP tagging of budding yeast chromosomes reveals that protein–protein interactions can mediate sister chromatid cohesion

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