A servo-mechanical bladder dynamic simulator.

A method is described for the physical simulation of the dynamic behaviour of the urinary bladder. It has been found that the model can be controlled to an arbitrary pressure-volume characteristic essentially independent of the properties of the bladder material. Characteristic relationships between pressure and flow rate have also been observed in studies of the bladder, and this behaviour is also amenable to simulation.

Opine synthesis in wild-type plant tissue.

Opine production is associated with crown gall tissue, a neoplastic growth caused by infection of dicotyledonous plants with Agrobacterium tumefaciens. Recent publications have claimed that tissues of certain monocotyledonous plants can also be infected by Agrobacterium. Following infection, a part of the Agrobacterium Ti plasmid, T-DNA, is integrated into the chromosome of the infected plant. T-DNA, which codes for opine-synthesizing enzymes, is now used to add foreign genes to plants. A number of laboratories have used opine production in plant tissue, often after arginine feeding or preincubation as evidence for plant transformation by T-DNA vectors. In this report we provide microbiological, chromatographic, spectroscopic and chemical evidence indicating that opines can be formed in normal callus and plant tissue as a result of arginine metabolism. Therefore, researchers studying T-DNA should be aware of the capability of plant tissue to metabolize arginine to opines. Opine production following infection with T-DNA may not always be sufficient evidence to indicate transformation by the Agrobacterium Ti plasmid.