Quantitative comparison of the RNA bacteriophage Qß infection cycle in rich and minimal media.

As bacteriophages are dependent on the host for multiplication, their infection cycle is expected to be influenced by the host's physiological state. To elucidate how and which steps of the bacteriophage infection cycle are influenced by changes in the physiological state of the host, we quantitatively compared the infection cycle of lytic RNA bacteriophage Qß in Escherichia coli cultured in rich and minimal media. The adsorption rate constants in both media were almost the same. A difference of 15 min in the latent period and an approximately twofold increase in the rate of phage release were observed, although approximately 10(5) molecules of coat proteins, equivalent to approximately 600-1000 phage particles, accumulated in an infected cell prior to burst. Addition of Mg(2+) to minimal medium markedly affected the Qß infection cycle, and these results suggest that Mg(2+) is required for the stages of the infectious cycle after adsorption.

Development of anti-adhesive spongy sheet composed of hyaluronic acid and collagen containing epidermal growth factor.

Anti-adhesive products need to be designed while considering the concept of wound healing. Two main events must proceed simultaneously: facilitating wound healing in surgically excised tissue, as well as preventing injured tissue from adhering to the surrounding tissue. The present study aimed to develop an anti-adhesive spongy sheet composed of hyaluronic acid and collagen (Col) containing epidermal growth factor, and to investigate the potential of this spongy sheet using an in vitro wound surface model (placing a spongy sheet on a fibroblast-incorporating Col gel sheet) and an in vitro inter-tissue model (placing a spongy sheet between two fibroblast-incorporating Col gel sheets). These in vitro experiments demonstrated that this spongy sheet effectively stimulates fibroblasts to release an increased amount of vascular endothelial growth factor and hepatocyte growth factor, which are essential for wound healing to proceed succesfully. In addition, anti-adhesive performance of this spongy sheet was evaluated in animal experiments using Sprague Dawley rats. Under anesthesia, a 1 cm × 2 cm segment of peritoneum was superficially excised from walls, and the cecum was then abraded by scraping with a scalpel blade over a 1 cm × 2 cm area. A piece of spongy sheet was placed on the peritoneal defect. Both defects were placed in contact, and the incision was closed by suturing. Peritoneal condition was evaluated after one week. This spongy sheet was capable of facilitating the wound healing of surgically excised tissue and preventing surgically excised tissue from adhering to surrounding tissues.