3D Printed hydroponic system

Hydroponic systems have been around for many years and there is a large variety of designs. This project approaches the design of a stackable hydroponic system for domestic use aiming for high yield. The 3-D printed prototype consisted of cylindrical elements each with three entries for seeding. These elements can be stacked up and rotated around one another providing configuration flexibility. In addition, the cap of our system is a half cylindrical element. A preliminary test included the use of Rockwool to grow coriander for 14 days. Being a prototype, it is still necessary to optimize the design, fine-tune its operation beyond its initial feasibility to both, maximize yield and minimize cost, which implies compromising on these two conflicting objectives.Los sistemas hidropónicos existen desde hace ya varios años en una amplia variedad de diseños y configuraciones. El proyecto que aquí se describe comprende el diseño de un sistema hidropónico modular apilable para uso doméstico, con miras a que sea uno con alta productividad. Una impresora 3D se utilizó para desarrollar el prototipo que consta de elementos cilíndricos, cada uno con tres receptáculos. A los elementos cilíndricos apilables se les puede rotar con respecto de su eje, añadiendo así mayor flexibilidad de configuración. Convenientemente, la tapa del sistema está formada por medio elemento cilíndrico. Para la prueba preliminar que aquí se describe, se depositaron semillas de cilantro por un período de 14 días en Rockwool. En su fase prototípica, se determinó la factibilidad del sistema, aunque se reconoce que es aún necesario optimizar el diseño y afinar su operación. Esto implicará conciliar dos objetivos en conflicto: maximizar la productividad del sistema y minimizar su costo total

Reproducibility of fluorescent expression from engineered biological constructs in E. coli

We present results of the first large-scale interlaboratory study carried out in synthetic biology, as part of the 2014 and 2015 International Genetically Engineered Machine (iGEM) competitions. Participants at 88 institutions around the world measured fluorescence from three engineered constitutive constructs in E. coli. Few participants were able to measure absolute fluorescence, so data was analyzed in terms of ratios. Precision was strongly related to fluorescent strength, ranging from 1.54-fold standard deviation for the ratio between strong promoters to 5.75-fold for the ratio between the strongest and weakest promoter, and while host strain did not affect expression ratios, choice of instrument did. This result shows that high quantitative precision and reproducibility of results is possible, while at the same time indicating areas needing improved laboratory practices.Peer reviewe