BioBlocksLab: A portable DIY Bio Lab using BioBlocks language.

Standard molecular biology laboratories are usually made with complex, sophisticated, and expensive equipment. Unfortunately, most of these labs are not affordable for everyone. In this paper, we show how we built a portable bio lab BioBlocksLab, made of four modules: a centrifuge, a thermocycler, electrophoresis, and an incubator. We also propose a new version of a blockly programming language to describe experimental lab protocols, called BioBlocks 2.0, which is based on the Microsoft MakeCode platform from the open-source project Microsoft Programming Experience Toolkit (PXT). We run BioBlocks programs of real lab protocols to control different hardware modules with biological reagents and get positive results. We offer an easy, affordable, and open-source way for everyone to do experiments with Do-It-Yourself (DIY) portable bio-labs.

Small Universal Bacteria and Plasmid Computing Systems.

Bacterial computing is a known candidate in natural computing, the aim being to construct "bacterial computers" for solving complex problems. In this paper, a new kind of bacterial computing system, named the bacteria and plasmid computing system (BP system), is proposed. We investigate the computational power of BP systems with finite numbers of bacteria and plasmids. Specifically, it is obtained in a constructive way that a BP system with 2 bacteria and 34 plasmids is Turing universal. The results provide a theoretical cornerstone to construct powerful bacterial computers and demonstrate a concept of paradigms using a "reasonable" number of bacteria and plasmids for such devices.