Rembrandthuis, el Museo Casa de Rembrandt en Ámsterdam

Rembrandthuis, el Museo Casa de Rembrandt en Ámsterdam (crédito de foto: Ivo Antonie de Rooij / Shutterstock.com). INTI No. 101-102, Primavera - Otoño 2025, page 301.https://digitalcommons.providence.edu/inti_gallery/1566/thumbnail.jp

Frankenstein (Student Production) 2025 Production Photo

Providence College Department of Theatre, Dance, & Film Bowab Studio Theatre, Smith Center for the Arts Frankenstein by Peggy Webling, Based on the novel by Mary Wollstonecraft Shelley, Adapted and directed by Christina Schwab \u2725 February 7, 2025, 7:30pm February 8, 2025, 2pm Scenic Design, Lighting Design, & Properties Design, Kathryn Genest \u2725 Costume Design & Sound Design, Maisie Meehan \u2725 Faculty Advisor and Intimacy Coordinator, Erin Joy Schmidt Vocal Coach, Megan Chang Cast: Victor Moritz - Jude Larson; Henry Frankenstein - Owen Kruger; Dr. Waldman - Rodney Lopez; Baron Frankenstein - Gabe Joseph; Frankenstein - Kevin Bongiorno; Emilie Lavenza - Olivia Black; Baroness Frankenstein - Victoria Cannon; Katrine - Sara D\u27Andrea; Elizabeth - Madelyn Young Photography by Peter Goldberghttps://digitalcommons.providence.edu/frankenstein_photos/1007/thumbnail.jp

Newport Dorrites and the 1842 Dorr Rebellion

The Dorr Rebellion Project http://library.providence.edu/dorr The Dorr Letters Project https://library-projects.providence.edu/dorrletter

Discovery, Purification and Annotation of a Novel Mycobacteriophage Discovered on the Providence College Campus

Jenna Greene ’26, Biochemistry major Faculty mentor: Dr. Kathleen Cornely, Chemistry and Biochemistry Bacteriophages—viruses that infect bacteria—offer a promising alternative to antibiotics in the face of rising antibiotic resistance. In this project, I isolated a novel phage from a soil sample collected in front of Raymond Dining Hall at Providence College. Using Mycobacterium smegmatis as the host, the sample underwent multiple rounds of purification until a single phage, named GMonster (a nod to my family nickname, “Greene Monster”), was isolated. GMonster was submitted to the PhagesDB database and confirmed through sequencing to belong to the A1 cluster—the first of its kind discovered on the Providence College campus. Gene annotation was performed based on sequence and functional similarities to closely related phages. Additionally, a lysogen was successfully created, meaning GMonster can integrate its DNA into the host genome without immediately destroying the bacterial cell. Future research will focus on performing BRED (Bacteriophage Recombineering of Electroporated DNA) to engineer GMonster and related phages for broader host infectivity, potentially enabling them to target a wider range of mycobacterial species like m. tuberculosis the causative agent of Tuberculosis. This work contributes to the ongoing search for alternative therapies to combat bacterial infections in a post-ant