Time Traveling with Timelines: Web Apps for Storytelling in Libraries

From online embeds to interactive displays, timelines can serve many purposes and tell powerful stories. At the University of Georgia’s Law Library we have teamed up with faculty and staff to bring history to life, engage students, and preserve scholarly and institutional milestones. Through trial and error we have found a variety of tools for creating timelines digitally. In this article we share our four favorite web-based applications for creating timelines including Tiki-Toki, TimeToast, Prezi and Piktochart

Born-Digital Preservation: The Art of Archiving Photos With Script and Batch Processing

With our IT department preparing to upgrade the University of Georgia’s Alexander Campbell King Law Library (UGA Law Library) website from Drupal 7 to 8 this fall, a web developer, an archivist, and a librarian teamed up a year ago to make plans for preserving thousands of born-digital images. We wanted to harvest photographs housed only in web-based photo galleries on the law school website and import them into our repository’s collection. The problem? There were five types of online photo galleries, and our current repository did not include appropriate categories for all of the photographs. The solution? Expand our archives photo series structure in Digital Commons, write and run scripts to automate the gathering of image file URLs and basic metadata, and then clean up the spreadsheets to batch load it all into the collection

Timelords & Timelines: Four Web Apps for Storytelling in Libraries

From online embeds to interactive displays, timelines can serve many purposes and tell powerful stories. In this panel librarians discuss collaboration and how to bring history to life through displays, events and online platforms for engaging students and preserving community milestones. Four of our favorite tools for creating digital timelines and gathering content will be shared including Prezi, TikiToki, TimeToast, and Piktochart. Comparisons will be given based on cost, technical limitations, and general ease of use. Specific examples will also be shared and discussed

A Time Lord, a Timeline and Legal Instruction

From online embeds to interactive displays, timelines can serve many purposes and tell powerful stories. In this session librarians team up with an archivist and a clinician to bring history to life, engage students, and preserve the scholarly and institutional milestones. A variety of tools for creating digital timelines and gathering content will be shared including TikiToki, TimeToast, and Piktochart. Comparisons will be given based on cost, technical limitations, collaborative potential, and general ease of use. Potential applications for timelines will also be shared in the form of examples including: a TimeToast embedded timeline tribute for individual faculty scholarship as a part of research guides a TikiToki multi-media timeline celebrating the growth of clinical and experiential learning programs over the course of 50 years a Piktochart timeline for classroom slides or printed display illustrating a series of significant trials Time permitting, a live demo will guide attendees through the creation of a timeline with one of the tools. This session will be of interest to technologists, librarians and faculty alike. Attendees will walk away with an overview of the tools available for making timelines, ideas for how they could be used for instructional purposes, and a guide including examples and resources

Time Lords & Timelines Panel

From self-guided online embeds to immersive live displays, timelines can serve many purposes and tell powerful stories. In this panel three members of UGA\u27s Law Library shared how they bring history to life, engage students, and preserve the scholarly and institutional milestones of the Law School with timelines by enhancing guide and repository collections, complimenting physical item displays and interacting with patrons at special events using multimedia. A variety of tools for creating digital timelines and gathering content were discussed including our four favorite applications: Prezi, TimeToast, Tiki-Toki, and Piktochart. Comparisons were given based on cost, technical limitations, collaborative potential, and general ease of use. Handouts were provided and the session was followed with an opportunity to ask questions of panelists

Noninfectious retrovirus particles drive the APOBEC3/Rfv3 dependent neutralizing antibody response.

Members of the APOBEC3 family of deoxycytidine deaminases counteract a broad range of retroviruses in vitro through an indirect mechanism that requires virion incorporation and inhibition of reverse transcription and/or hypermutation of minus strand transcripts in the next target cell. The selective advantage to the host of this indirect restriction mechanism remains unclear, but valuable insights may be gained by studying APOBEC3 function in vivo. Apobec3 was previously shown to encode Rfv3, a classical resistance gene that controls the recovery of mice from pathogenic Friend retrovirus (FV) infection by promoting a more potent neutralizing antibody (NAb) response. The underlying mechanism does not involve a direct effect of Apobec3 on B cell function. Here we show that while Apobec3 decreased titers of infectious virus during acute FV infection, plasma viral RNA loads were maintained, indicating substantial release of noninfectious particles in vivo. The lack of plasma virion infectivity was associated with a significant post-entry block during early reverse transcription rather than G-to-A hypermutation. The Apobec3-dependent NAb response correlated with IgG binding titers against native, but not detergent-lysed virions. These findings indicate that innate Apobec3 restriction promotes NAb responses by maintaining high concentrations of virions with native B cell epitopes, but in the context of low virion infectivity. Finally, Apobec3 restriction was found to be saturable in vivo, since increasing FV inoculum doses resulted in decreased Apobec3 inhibition. By analogy, maximizing the release of noninfectious particles by modulating APOBEC3 expression may improve humoral immunity against pathogenic human retroviral infections

How to Hack Outreach: An A–Z Guide of Ideas, Tips, and Tools

In this article librarians and staff collaborate to deliver an alphabetical list of tips, tools, tricks and other resources for how they effectively work inter-departmentally to promote their library and institutional resources, services and information. The piece includes specific examples featuring several ideas from past library events, exhibits and displays, and other efforts with nods to several other colleagues from UGA Law Library. This article served as written documentation of this group\u27s fall 2019 panel presentation at the Georgia Libraries Conference

How to Hack Outreach: An A to Z Guide of Collaborative Ideas, Tips & Tools

In an increasingly digital word, how do we communicate to library users? How can librarians and staff collaborate effectively on a variety of outreach efforts? In this session, panelists from UGA Law Library take turns sharing an alphabetically organized catalog of favorite tools, tips and general ideas including library displays, social media, and face-to-face offerings. At the close of the presentation attendees will have a chance to ask questions, participate in an open discussion about what has worked or not for them and why, and take a handout of our complete A to Z guide with resource links and examples

Shape-based peak identification for ChIP-Seq

We present a new algorithm for the identification of bound regions from ChIP-seq experiments. Our method for identifying statistically significant peaks from read coverage is inspired by the notion of persistence in topological data analysis and provides a non-parametric approach that is robust to noise in experiments. Specifically, our method reduces the peak calling problem to the study of tree-based statistics derived from the data. We demonstrate the accuracy of our method on existing datasets, and we show that it can discover previously missed regions and can more clearly discriminate between multiple binding events. The software T-PIC (Tree shape Peak Identification for ChIP-Seq) is available at http://math.berkeley.edu/~vhower/tpic.htmlComment: 12 pages, 6 figure