Bio-computers are systems comprised of biologically derived molecules, such as DNA and proteins. Accordingly, these synthetic biologics are used to build circuitry inside cells which can perform computational calculations involving … Continue Reading Artificial protein builds autonomous circuits to control any cellular process.
In early evolution gene duplication is an important event that resulted in new genes and genetically novel organisms. A classic example is the small soluble protein ferredoxin, an iron-sulfur protein … Continue Reading Researchers insert a synthetic primordial protein into a living organism.
One of the greatest failures in drug treatments is adherence with many patients currently being treated with several different medications at fixed intervals, which can increase the risk of doses … Continue Reading Synthetic DNA controls release of active ingredients from drugs.
Mining the gut microbiota, the trillions of microbes living in our digestive system is a promising approach for developing new sensors providing a response to disease and abnormalities in the … Continue Reading Bacteria containing DNA computer provides diagnostics for the gut microbiota.
Cancer immunotherapy, which uses the body’s immune defenses to fight cancer, has transformed cancer treatment over the past decade, however, only a handful of solid tumors have responded to treatment, … Continue Reading Synthetic bacteria delivers nanobodies to kill cancer.
Ever evolving, getting more and more minute, the imaging of cells and tissues has been a cornerstone of biology ever since cells were discovered under the light microscope centuries ago. … Continue Reading Imaging gets reinvented with new DNA microscopy technique.
Platelets are cells found circulating in the bloodstream, helping to form blood clots to stop bleeding and promote healing when a person is injured. However, their hyperactivation can also contribute … Continue Reading Synthetic platelet ‘decoys’ outsmart both clots and cancer.
Synthetic biology is quickly moving towards a future where genomes can be engineered-to-order, with researchers using this discipline to better define the minimal set of genes required for a living … Continue Reading Living artificial life constructed using human DNA.
Recent progress in synthetic biology offers the potential to optimize the production of virtually any compound, as well as the development of previously unknown ones. Engineered synthetic biological systems are … Continue Reading Intelligent cells improve production of pharmaceutical raw materials.
Technologies are quickly advancing the way they store information in computers, CDs, DVDs, and even DNA. Despite these advancements, threats as simple as water and as complex as cyber-attacks can … Continue Reading Basic biological molecules used to store data, doesn’t use DNA.
In biology, cells sense and process many environmental inputs. These inputs are then processed to produce outputs, such as development, differentiation, or immune responses modulated via the regulation of specific … Continue Reading CRISPR used to develop first biosynthetic dual-core cell computer.
Cellular metabolism is the sum of all chemical changes occurring in living organisms in order to maintain life, including the synthesis of new molecules, and the breakdown and removal of … Continue Reading Researchers induce artificial metabolism in synthetic DNA.
The Zika virus is a mosquito-borne disease designated a global public health concern, with more than two billion people at risk. For most people Zika manifests as a mild infection, … Continue Reading Synthetic antibody protects mice and monkeys from Zika.
It is hoped constructing living artificial cells will help understand the evolutionary transition from non-living to living matter on earth and help develop biology-based devices capable of sensing light and … Continue Reading Artificial cells produce their own energy and synthesize themselves.
Computing using DNA relies on information being encoded very concisely onto the base pair sequence joining strands, making DNA a focus of attention for very high-density molecular memories, however, the … Continue Reading Reprogrammable self-assembling DNA computer developed.
DNA computing is a form of synthetic biology using DNA and biotechnical hardware on the nano-scale to store data and compute information. As the makeup of all organisms on earth … Continue Reading Synthetic cells use DNA computers to communicate and compute data.