Genetic Annotation of Bacteriophages MScarn, Knocker, and Neos5

We annotated the genomes of three recently discovered bacteriophages to learn more about their genetic composition. MScarn is a lytic bacteriophage that infects Gordonia terrae 3612. It was discovered and purified from soil collected in Iroquois, SD. MScarn is a cluster CT phage, one of only 37 discovered to date. Its genome is 45,677 base pairs long and has 10-nucleotide 3’ sticky overhanging ends. Its GC content is 60.3% which is typical of CT cluster members. Knocker is a cluster B9 phage that was isolated on the host Mycobacterium smegmatis mc²155 from soil collected in Watertown, SD. Its circularly permuted genome contains 71,459 base pairs, and it has a high GC content of 69.7%. Similar to the other three members of the B9 cluster, it exhibits a lytic life cycle. Neos5, a lytic bacteriophage, was also isolated on Mycobacterium smegmatis mc²155 from soil collected in Baltimore, MD. It is a cluster B3 phage with a circularly permuted genome of 68,886 base-pairs and a 67.5% GC content, synonymous to the other 37 members of the cluster. All three phages were discovered, purified, and annotated by Northwestern College students

Using a Genetic Screen to Discover Gene Functions in Mycobacteriophages Sbash and Island3

Sbash is a temperate bacteriophage that infects Mycobacterium smegmatis. It was assigned to cluster I2 based on gene-content similarity of 35% or higher to sequenced bacteriophages present in the Actinobacteriophage database, phagesDB. Its genome was annotated in 2014 and found to include 89 protein-coding genes, only 22 of which were assigned functions based on bioinformatic analysis. We are using a genetic screen to identify functions of phage genes for which no function is currently known. We cloned 40 of the genes in Sbash’s genome with sizes ranging from 90 bp to 3,666 bp. We screened each gene for cytotoxicity and identified six genes that reduced growth of the host cells when expressed. We also screened for defense, the ability of each gene product to protect the host cell from infection by another phage. We identified eight Sbash gene products that defend host cells from infection by other mycobacteriophages. We have also analyzed genes in Mycobacteriophage Island3, a cluster I1 phage, for cytotoxicity and defense to complete the screen of this phage started by students in previous research groups

Understanding the Antiproliferative Activity of Plant Extracts

Many plants possess medicinal properties. Some, such as the Pacific yew, have yielded chemotherapeutic drugs (taxanes). Scientists report that other extracts such as the leaves of Calendula officinalis (marigold), Vinca rosea (periwinkle), Viscum cruciatum (mistletoe), and Rosmarinus officinalis (rosemary) have anti-tumor activity. In most cases, the chemical components responsible for antiproliferative activity have not been identified and it is unclear if any individual components are as effective in isolation as they are in the context of the whole extract. Furthermore, in most cases, there are no data indicating whether these extracts have synergistic effects or cause negative reactions when used with other drugs. We are using HeLa (adenocarcinoma), RAW 264.7 (leukemia), HepG2 (hepatoma), MDA-MB-231 (adenocarcinoma), and human foreskin fibroblasts (HFF, non-tumorigenic) to test the antiproliferative activity of several plant extracts. We identified five extracts, grapeseed, guava, yew, juniper berry, and Vinca, that slow the growth of all five cell lines in a dose-dependent manner. We are using a variety of methods to understand the mechanism by which these extracts are blocking cell growth