VTechWorks

VTechWorks provides global access to Virginia Tech scholarship, including journal articles, books, theses, dissertations, conference papers, slide presentations, technical reports, working papers, administrative documents, videos, images, and more by faculty, students, and staff. Faculty can deposit items to VTechWorks from Elements, including journal articles covered by the University open access policy. Email vtechworks@vt.edu for help.

Recent Submissions

2025 CeZAP Infectious Diseases Research Symposium

(Virginia Tech, 2025)

The CeZAP Infectious Diseases Symposium is a great opportunity for faculty and students to network and to learn about the outstanding infectious disease research being performed at Virginia Tech. At each annual symposium we hear from faculty, students, and other renowned guest speakers about their research and future plans. From poster presentations, keynote sessions, breakout sessions, and more, this event is full of learning opportunities and scientific fun.

Homework Software Access Code Replacements and Strategies: A Roundtable Discussion

Walz, Anita R.; Russell, J. Morgan; Hart, Heath David; Lord, James K.; Grohs, Jacob R. (2025-02-13)

Homework software systems save time for instructors, particularly in large-enrollment courses. However, student-paid access codes have limited functionality and are expensive--between $50-150 per course per semester for the 30% of courses which require them. Functionality affects learning and costs disproportionally affect historically underserved students and student academic performance. Virginia Tech’s Open Education Initiative is working to establish a variety of options for instructors. Join this Roundtable to discuss with instructors from STEM and non-STEM disciplines who use university approved, no-fee-to-students alternatives including: WeBWorK, PressbooksResults, peer-reviewed test banks for LMS import, and problem set environment for engineering. Downloadable files include slides and submitted proposal.

VTC Class of 2026 Research Symposium

(2026)

A program for the Virginia Tech Carilion School of Medicine Student Research Symposium, held March 26, 2026. The event highlights student-led research across basic science, clinical research, and community health.

Investigating Toxicity of Bacteriophage Lambda N-Protein Upon Overexpression in Escherichia coli

Hite, Kristopher; Upton, Jan; Souders, Cole; Larson, Timothy J. (2026-03-09)

Over the course of two decades, cloning of a variety of native and engineered DNA fragments from bacteriophage lambda was performed as part of a capstone undergraduate course aimed at teaching fundamentals of recombinant DNA technology and regulation of gene expression in bacteria. Genomic DNA of bacteriophage lambda (λ–phage) was digested with BamHI and HindIII and the resulting DNA fragments were then ligated into similarly digested plasmid vector pUC19 to illustrate the principle of shot-gun cloning. E. coli strain TB1 was then transformed using selection for ampicillin resistance and the blue-white color screen. Upon analysis of recombinant plasmids isolated from white colonies, it became apparent that four of the five BamHI and HindIII DNA fragments were easily obtained, but one fragment was persistently missing. This 2396 bp BamHI-HindIII fragment between lambda phage genome coordinates 34500-36895 (Accession No. J02459.1) was dubbed the toxic fragment and contained the strong leftward promoter (pL) and downstream N gene encoding the transcription anti-terminator protein N, as well as the ‘rexA rexB genes. Truncation of this toxic fragment revealed that a smaller fragment (1,133 bp, spanning coordinates 34500-35632) was sufficient to confer toxicity upon cloning into pUC19. This smaller fragment contains the intact pL promoter, the open reading frame for the N-protein, and, importantly, 540 bp of 3’ untranslated DNA (UTR, which contains transcription terminator tL1). High level expression of the N-protein was hypothesized to be responsible for bacterial toxicity. This hypothesis was validated when the shorter (1,133 bp) toxic fragment was successfully transformed into strain TB1 containing pACλcI encoding lambda phage repressor protein which negatively controls expression of the N protein by binding to operators within the pL promoter. In addition, various mutations altering the pL promoter relieved toxicity. To further narrow the region of the UTR and/or N-protein responsible for bacterial toxicity, a series of truncations was created by PCR. Surprisingly, a recombinant plasmid containing the wild-type pL promoter and full length N-gene (but lacking tL1) was not toxic. Current research is focused on truncating and mutating bases within this 3’-UTR with the goal of understanding what role tL1 may be playing in toxicity

Teaching Communication in Capstone Design: The Role of the Instructor in Situated Learning

Paretti, Marie C. (ASEE, 2008-10)

Calls for engineers to communicate more effectively are ubiquitous, and engineering education literature includes numerous examples of assignments and courses that integrate writing and speaking with technical content. However, little of this literature examines in detail how engineering students develop communication skills and how those learning mechanisms influence classroom practice. To address this gap, this article synthesizes research on communication learning in college from the fields of composition and technical communication and illustrates its relevance to the engineering classroom with a case study of a capstone design course. The principles of situated learning and activity theory, in particular, provide strong evidence that the ways in which course instructors and students interact around communication tasks play a significant role in helping students develop transferable communication skills.

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