Improvement of Gene Delivery by Minimal Bacteriophage Particles.

Direct delivery of therapeutic genes is a promising approach for treating cancers and other diseases. The current human viral vectors, however, suffer from several drawbacks, including poor cell-type specificity and difficult large-scale production. The M13 phage provides an alternative vehicle for gene therapy with engineerable specificity, but the low transduction efficiency seriously limits its translational application.

Fragment-Directed Random Mutagenesis by the Reverse Kunkel Method.

Two fundamentally different approaches are routinely used for protein engineering: user-defined mutagenesis and random mutagenesis, each with its own strengths and weaknesses. Here, we invent a unique mutagenesis protocol, which combines the advantages of user-defined mutagenesis and random mutagenesis. The new method, termed the reverse Kunkel method, allows the user to create random mutations at multiple specified regions in a one-pot reaction.

phiC31 integrase for recombination-mediated single-copy insertion and genome manipulation in Caenorhabditis elegans.

Caenorhabditis elegans benefits from a large set of tools for genome manipulation. Yet, the precise single-copy insertion of very large DNA constructs (>10 kb) and the generation of inversions are still challenging. Here, we adapted the phiC31 integrase system for C.

Development of a Novel Cytokine Vehicle Using Filamentous Phage Display for Colorectal Cancer Treatment.

Due to its highly immunogenic nature and the great engineerability, filamentous phage has shown promising antitumor activities in preclinical studies. Previous designs of antitumor phage mainly focused on tumor targeting using a cancer-specific moiety displayed on the minor capsid protein, pIII. In this work, we developed a new therapeutic platform of filamentous phage, in which the major capsid protein pVIII was utilized for displaying an antitumor cytokine.

Direct Antibody Isolation on Cells Using Affinity-Tag-Guided Proximity Selection.

Traditional antibody generation, using either phage display or animal immunization, relies on purified antigens. Many membrane proteins, such as G protein-coupled receptors, solute carriers, or ion channels, are important drug targets but very challenging for the formation of antibodies due to the difficulty of protein purification. Whole-cell panning is an alternative approach for generating antibodies without the need for antigen purification.

Non-Mendelian assortment of homologous autosomes of different sizes in males is the ancestral state in the Caenorhabditis lineage.

Organismal genome sizes vary by six orders of magnitude and appear positively correlated with organismal size and complexity. Neutral models have been proposed to explain the broad patterns of genome size variation based on organism population sizes. In the Caenorhabditis genus, hermaphrodite genomes are smaller than those of gonochoristic species.

Evolution of long centromeres in fire ants.

Background: Centromeres are essential for accurate chromosome segregation, yet sequence conservation is low even among closely related species. Centromere drive predicts rapid turnover because some centromeric sequences may compete better than others during female meiosis. In addition to sequence composition, longer centromeres may have a transmission advantage.

Pulsed radiofrequency of cervical medial branches for treatment of whiplash-related cervical zygapophysial joint pain.

Background: The aim of this study is to assess the efficacy of pulsed RF lesioning of cervical medial branches in patients with whiplash-related chronic cervical zygapophysial joint pain in whom other conservative treatments failed.

Methods: Cervical zygapophysial joint pain was confirmed in 14 patients undergoing double diagnostic blocks. These patients underwent pulsed RF lesioning of the cervical medial branches.