Securing the Exchange of Synthetic Genetic Constructs Using Digital Signatures.

The field of synthetic biology relies on an ever-growing supply chain of synthetic genetic material. Technologies to secure the exchange of this material are still in their infancy. Solutions proposed thus far have focused on watermarks, a dated security approach that can be used to claim authorship, but is subject to counterfeit, and does not provide any information about the integrity of the genetic material itself.

Rapid, robust plasmid verification by de novo assembly of short sequencing reads.

Plasmids are a foundational tool for basic and applied research across all subfields of biology. Increasingly, researchers in synthetic biology are relying on and developing massive libraries of plasmids as vectors for directed evolution, combinatorial gene circuit tests, and for CRISPR multiplexing. Verification of plasmid sequences following synthesis is a crucial quality control step that creates a bottleneck in plasmid fabrication workflows.

Genetic interactions derived from high-throughput phenotyping of 6589 yeast cell cycle mutants.

Over the last 30 years, computational biologists have developed increasingly realistic mathematical models of the regulatory networks controlling the division of eukaryotic cells. These models capture data resulting from two complementary experimental approaches: low-throughput experiments aimed at extensively characterizing the functions of small numbers of genes, and large-scale genetic interaction screens that provide a systems-level perspective on the cell division process. The former is insufficient to capture the interconnectivity of the genetic control network, while the latter is fraught with irreproducibility issues.

Challenges and opportunities for strain verification by whole-genome sequencing.

Laboratory strains, cell lines, and other genetic materials change hands frequently in the life sciences. Despite evidence that such materials are subject to mix-ups, contamination, and accumulation of secondary mutations, verification of strains and samples is not an established part of many experimental workflows. With the plummeting cost of next generation technologies, it is conceivable that whole genome sequencing (WGS) could be applied to routine strain and sample verification in the future.

An intron-derived motif strongly increases gene expression from transcribed sequences through a splicing independent mechanism in Arabidopsis thaliana.

Certain introns significantly increase mRNA accumulation by a poorly understood mechanism. These introns have no effect when located upstream, or more than ~1 Kb downstream, of the start of transcription. We tested the ability of a formerly non-stimulating intron containing 11 copies of the sequence TTNGATYTG, which is over-represented in promoter-proximal introns in Arabidopsis thaliana, to affect expression from various positions.

Hands-On Introduction to Synthetic Biology for Security Professionals.

The rapid pace of life sciences innovations and a growing list of nontraditional actors engaging in biological research make it challenging to develop appropriate policies to protect sensitive infrastructures. To address this challenge, we developed a five-day awareness program for security professionals, including laboratory work, site visits, and lectures.

Yeast genetic interaction screens in the age of CRISPR/Cas.

The ease of performing both forward and reverse genetics in Saccharomyces cerevisiae, along with its stable haploid state and short generation times, has made this budding yeast the consummate model eukaryote for genetics. The major advantage of using budding yeast for reverse genetics is this organism's highly efficient homology-directed repair, allowing for precise genome editing simply by introducing DNA with homology to the chromosomal target. Although plasmid- and PCR-based genome editing tools are quite efficient, they depend on rare spontaneous DNA breaks near the target sequence.

The Open Insulin Project: A Case Study for 'Biohacked' Medicines.

New innovation ecosystems are emerging that challenge the complex intellectual property and regulatory landscape surrounding drug development in the United States (US). A prime example is an initiative known as the Open Insulin Project. The goal of the project is to sidestep patents and enable generic manufacturers to produce cheaper insulin.

Cyberbiosecurity: From Naive Trust to Risk Awareness.

The cyber-physical nature of biotechnology raises unprecedented security concerns. Computers can be compromised by encoding malware in DNA sequences, and biological threats can be synthesized using publicly available data. Trust within the biotechnology community creates vulnerabilities at the interface between cyberspace and biology.

Intron DNA Sequences Can Be More Important Than the Proximal Promoter in Determining the Site of Transcript Initiation.

To more precisely define the positions from which certain intronic regulatory sequences increase mRNA accumulation, the effect of a intron on gene expression was tested from six different positions surrounding the transcription start site (TSS) of a reporter gene fusion in The intron increased expression from all transcribed positions but had no effect when upstream of the 5'-most TSS. While this implies that the intron must be transcribed to increase expression, the TSS changed when the intron was located in the 5'-untranslated region (UTR), suggesting that the intron affects transcription initiation. Remarkably, deleting 303 nucleotides of the promoter including all known TSSs and all but 18 nucleotides of the 5'-UTR had virtually no effect on the level of gene expression as long as an intron containing stimulatory sequences was included.

The enduring mystery of intron-mediated enhancement.

Within two years of their discovery in 1977, introns were found to have a positive effect on gene expression. Numerous examples of stimulatory introns have been described since then in very diverse organisms, including plants. In some cases, the mechanism through which the intron affects expression is readily understood.