Nov
15
Mon
Meet and Greet with Nature Communications Editor Doaa Megahed
Nov 15 @ 11:00 am – 12:00 pm
Meet and Greet with Nature Communications Editor Doaa Megahed

Demystifying Scientific Publishing from the Perspective of a Researcher Turned Professional Editor

Registration for this virtual event is required. A Zoom link will be emailed to registrants the day of and the morning of the event. 

Join us for a virtual meet and greet with Nature Communications editor Doaa Megahed. Doaa will discuss the publication process at Nature journals and Nature Communications in particular. During the session the audience can ask questions about the editorial process, what it’s like to be an editor, and more.

In preparation for the event, the guest speaker has a survey for attendees to gather their interests and insights about scientific publications.

Register now on Eventbrite. 

Biography
Doaa Megahed (aka Douaa Mugahid) has been an Associate Editor at Nature Communications since September 2020, where she handles computational and systems biology-related papers. Prior to that she was a post-doc at the Department of Systems Biology at Harvard Medical School, where she used a variety of methods to understand the role of YAP as a regulator of non-cell autonomous signaling in the liver and in cultured cells. As a graduate student at Heidelberg University and the Max Delbrueck Center in Germany she studied how hibernating bears avoid the loss of muscle mass. She was part of the inaugural class of Heidelberg University’s Master’s program in Systems Biology, and has been a member of the systems biology community ever since. She continues to serve science by advocating for papers that advance human knowledge, democratize scientific research, and improve scientific reproducibility.

Megahed is passionate about education and mentorship, which is why she serves as COO of Maqal 3elmy, an initiative that makes science accessible to the Arab world through pop-science pieces. She also volunteers with the Journal of Emerging Investigators. In this capacity she coordinates their Ask-A-Scientist program through which students get to ask questions related to science and the publication process. She is also one of JEI’s proofing editors, and an occasional reviewer.

When not doing any of the above Megahed enjoys reading, traveling, spinning, running, crafting and upholstering old furniture.

 

Jan
4
Tue
Advances in Immunoengineering: Fundamentals and Cutting Edge Advances (2022) @ Virtual
Jan 4 @ 4:00 pm – Jan 27 @ 5:30 pm
Advances in Immunoengineering: Fundamentals and Cutting Edge Advances (2022) @ Virtual

The Johns Hopkins Translational Immunoengineering is hosting a workshop series every Tuesday and Thursday in January.

The immunoengineering field is transforming cancer, autoimmunity, regeneration, and transplantation treatments by combining the diverse and complex fields of engineering and immunology. There is a significant need to train engineers in immunology and immunologists in quantitative engineering techniques. Moreover, there is a need to bridge basic immunological discoveries with advances in clinical application. This workshop will review immune system fundamentals and components, engineering strategies to modulate the immune system, and clinical applications.

After attending this workshop, the learner will demonstrate the ability to:
– Review the fundamentals and recent discoveries in the function of the immune system.
– Identify engineering strategies to manipulate the immune system.
– Describe the clinical applications of immunoengineering.

Go to their website to see schedule, speakers, topics, and registration information. Register by December 30, 2021. A late fee is applied for registering after the deadline.

This workshop is eligible for CME credit and offered as a two-credit course for Johns Hopkins students.

Mar
30
Wed
Freezer Challenge Strategy Session @ Virtual
Mar 30 @ 11:00 am – 12:00 pm
Freezer Challenge Strategy Session @ Virtual

Is your lab ready to reduce its environmental impact?

Join My Green Lab on for a virtual panel discussion with previous Freezer Challenge participants, including JHU’s own James Leatherman, Clinical Sample Manager in the GI Oncology Research Lab at School of Medicine. They will share the strategies they used to be successful in this competition, encourage their lab colleagues to participate, and implement cold storage best practices in a variety of lab environments.

The discussion will be pertinent for lab groups already participating in the 2022 Freezer Challenge and those yet to sign up! This will be a fun, engaging conversation between colleagues with the goal of encouraging more scientists and laboratories from around the world to participate in the current Freezer Challenge. The 2022 Freezer Challenge runs until July 1, but it is not too late for additional labs to participate!

Register for the session.

For questions about the JHU Freezer Challenge, email sustainability@jhu.edu or Green Labs Specialist, Ryan Weeks, rweeks3@jhu.edu.

Jun
10
Fri
15th Nano-Bio Symposium @ Hybrid
Jun 10 @ 8:00 am – 5:00 pm
15th Nano-Bio Symposium @ Hybrid

All are welcome to attend our hybrid 15th Nano-Bio Symposium on Engineering Genes and Genomes.

From draft sequencing the human genome in 2001, to the development of CRISPR editing tools in 2012, to the first FDA approved gene therapy in 2017, recent progress in genetics and genomics has been astonishing. This year’s symposium will feature the frontiers of this exciting bioengineering research with lectures, panels, and posters to showcase diverse approaches to interrogate genome structure and manipulate gene products. Attendees will learn about nanoscale system developments to deliver gene therapies in tissue and cell specific ways, RNA regulatory dynamics that govern how genotype manifests as phenotype, genomic tagging to reveal lineage relationships in development and disease, and how to bring these advances to patients through safe, efficacious, and equitable genetic medicine development. By surveying this progress, engineers, biologists, and their partners can better understand the grand challenges to altering biological systems.

This is a hybrid event where the lectures and panels will be virtual and the poster session with a reception will be in-person. Registration is required.

Learn more about the agenda, speakers, and more here.

Jul
1
Fri
Adopt-a-Student Uniform & Supply Drive
Jul 1 – Aug 22 all-day
Adopt-a-Student Uniform & Supply Drive

Since 2011, Johns Hopkins employees have stepped up with generous donations to the Adopt-a-Student Uniform Drive, which assists families in purchasing the uniforms required for elementary, middle, and high school students in Baltimore City Public Schools. Donations were also expanded last year to include the purchase of essential school supplies. You can adopt one or more students by making a donation to uniforms, school supplies, or both.

If you have a question or need technical assistance, email Arnetta Shelton, Community Programs manager in the Johns Hopkins Office of Economic Development & Community Partnerships, at communityprograms@jhu.edu.

Jul
28
Thu
CARES Symposium 2022 @ Virtual
Jul 28 @ 11:00 am – 2:20 pm
CARES Symposium 2022 @ Virtual

We invite you to see presentations by our summer students in INBT’s Research Experience for Undergraduates program at the CARES Symposium. Registration is required as the event is virtual.

The Hopkins C.A.R.E.S. Symposium (Career, Academic, and Research Experiences for Students) is on July 28, 2022, from 11 AM – 2:20 PM EST. The symposium provides opportunities for students who participated in a Johns Hopkins University School of Medicine pathway program to share their summer research presentations to the Hopkins community, faculty, recruits from local colleges and universities, and network with high-achieving undergraduates. All efforts will be made to make this event inclusive and accessible. To request accommodations or discuss other accessibility needs, please contact somdiversity@jhmi.edu.

INBT presenters include

Ayanna Horsford – poster presentation
Gaby Bentolila – poster presentation
Nyssa Engebo – oral presentation
Peyton Panovich – oral presentation
Christine Wei – oral presentation
Sulaiman Jenkins, Director of Academic Programs – moderator and closing remarks

 

Aug
8
Mon
Summer 2022 REU Student Presentations @ Malone Hall and Zoom
Aug 8 @ 1:00 pm – 3:00 pm
Summer 2022 REU Student Presentations @ Malone Hall and Zoom

Every summer for 12 years, the INBT has welcomed undergraduate students to the Nanotechnology for Biology and Bioengineering Research Experience for Undergraduates (REU) program.  Students spend 10-weeks with INBT faculty and mentors heavily engaged in research projects ranging from developing cancer therapies and diagnostic tools to using regenerative engineering to heal the body. They also participate in professional development training, networking activities, and explore Baltimore and other surrounding cities. We welcome you to join us to see presentations by our 2022 summer students as they showcase their research projects.

This event is hybrid. Space is limited in Malone Hall G33/G35 to 35 people. If space is unavailable we ask you to join by Zoom.

Zoom information
https://wse.zoom.us/j/94977263610?pwd=WFRNRU1TbEFhclBOdkxvdkxwNGI0Zz09
Meeting ID: 949 7726 3610
Passcode: 146035

 

Summer 2022 REU Student Presentations @ Malone Hall and Zoom
Aug 8 @ 1:00 pm – 3:00 pm
Summer 2022 REU Student Presentations @ Malone Hall and Zoom

Every summer for 12 years, the INBT has welcomed undergraduate students to the Nanotechnology for Biology and Bioengineering Research Experience for Undergraduates (REU) program.  Students spend 10-weeks with INBT faculty and mentors heavily engaged in research projects ranging from developing cancer therapies and diagnostic tools to using regenerative engineering to heal the body. They also participate in professional development training, networking activities, and explore Baltimore and other surrounding cities. We welcome you to join us to see presentations by our 2022 summer students as they showcase their research projects.

This event is hybrid. Space is limited in Malone Hall G33/G35 to 35 people. If space is unavailable we ask you to join by Zoom.

Zoom information
https://wse.zoom.us/j/94977263610?pwd=WFRNRU1TbEFhclBOdkxvdkxwNGI0Zz09
Meeting ID: 949 7726 3610
Passcode: 146035

 

Aug
15
Mon
FastForward U Accelerator Program
Aug 15 – Aug 21 all-day
FastForward U Accelerator Program

FastForward U’s accelerator programming is an opportunity for student teams from across the University to work collaboratively to make progress on their ventures. These engaging, cross-disciplinary initiatives build skills, grow networks, and connect founders with other entrepreneurial students.

Teams are grouped by stage to allow students to learn together at a pace that makes sense for where they are on their entrepreneurial journey. Spark and Fuel tracks include a stipend and the chance to win additional funds at Demo Days.

Learn more about each track.

Sep
15
Thu
Seminar with Mechanical Engineer Assistant Professor Yun Chen @ Hodson Hall 210
Sep 15 @ 3:00 pm – 4:00 pm
Seminar with Mechanical Engineer Assistant Professor Yun Chen @ Hodson Hall 210

“The Discovery of Viscosity Sensor that Facilitates the Counterintuitive Acceleration of Migrating Cells in Highly Viscous Fluids”

Yun Chen is an assistant professor of mechanical engineering at Johns Hopkins University.  Her research is focused on developing tools to measure key parameters in mechanobiology, understanding the fundamental biophysical mechanisms that contribute to diseases, and applying knowledge gained from basic mechanobiology research to clinical applications. While a vast amount of effort has been invested in characterizing the biophysical properties in diseased cells and tissues, most of these efforts are limited to measuring the stiffness, diffusion, and viscosity of samples. Those properties are regarded as consequences of the diseases, rather than the causes. The abnormal biophysical traits can be the causes of the diseases, and her research has been dedicated to uncovering this commonly overlooked causality. Similarly, the unusual biophysical properties associated with diseases have been exploited as diagnosis tools, but few treatments, if any, employ biophysical principles to correct the errant biological processes known as pathology. Chen’s research group has been making significant progress on these uncharted territories. Their goal is to understand how altered biophysics in biological systems contribute to pathological processes in order to develop treatments for diseases. Their efforts include developing measurement tools to quantitatively characterize biophysical phenomena, such as axial stiffness of twisted DNA strands, differential force generation profiles and viscoelasticity of cancer cells compared to their normal counterparts, and identifying the underlying mechanisms for such differences, which can be exploited for disease diagnosis and treatment.

Extracellular fluid (ECF) is a critical component of the body.  Cells are surrounded by and move through biological fluids that span orders of magnitudes of viscosity in vivo, including mucus, saliva, blood, and synovial fluid, among others. Interstitial fluid in the tumor microenvironment is viscous, ascites in cancer patients is highly viscous, and the mucus of patients with cystic fibrosis is highly viscous. Elevated viscosity in the tumor microenvironment and in ascites can increase the rate of cancer cell motility and promote metastasis.  Elevated viscosity in mucus can inappropriately increase the migration of fibroblasts to airway wounds incurred in patients with cystic fibrosis, resulting in the worsening of fibrosis. Increases in ECF viscosity are also associated with aging and many other diseases.  Despite the profound implications of ECF viscosity, our understanding of the mechanosignaling pathways that allow cells to respond to viscosity changes and the underlying mechanism leading to increased cell speeds is very limited. To gain more insights, we used bio-compatible polymers to mimic viscous ECF, aims to fill this knowledge void. We conducted detailed characterization of the cellular responses to viscosity – from the time point immediately after viscosity is increased to hours afterwards, and from single molecule force measurement to dynamic 3D cellular morphology profiling. We observed that cells immersed in highly viscous medium, which had a consistency similar to that of honey, drastically changed morphology and began moving nearly twice as fast.  Step by step, we dissected the molecular cascade leading to the cell speed increase in response to elevated viscosity.  Combining numerical simulation and experimental data, we showed that membrane ruffling, a common feature of adherent cells, acts in effect as a sensor of ECF viscosity, probing the hydraulic resistance of the surrounding fluid and triggering adaptive responses. In summary, we demonstrate for the first time that a universal viscosity sensing mechanism exists in adherent cells to actively probe and adapt to changes in the viscosity of the microenvironment.  The physical interplay between mechanical forces that power membrane ruffling and the counteracting hydraulic resistance is at the heart of this sensing mechanism.