Uncategorized

Jul 23, 2024

Foldscopes: A Swift and Low-Cost Technology Solution to Crop Loss

By Katya Frazier, Ian Kriel, Karen Chien A low-cost and lightweight alternative to the compound microscope, a Foldscope presents an effective way to quickly determine size and viability of pollen and germination. Foldscopes can be used as a tool in agriculture to detect signs of environmental stressors, such as climate change, in which moderate droughts… 

Jul 14, 2024

3D tumour spheroid models for in vitro therapeutic screening3D tumour spheroid models for in vitro therapeutic screening: a systematic approach to enhance the biological relevance of data obtained.3D tumour spheroid models for in vitro therapeutic screening

By Ian Kriel, Adam Nahor, Kaelyn Coates, and Resa Nelson A map of the earth fails to accurately describe the shape of the planet when compared to a globe. Similarly, 2D cancer cultures fail to capture the scope, morphology, and organisation present in a tumor. Using 3D spheroids to replace 2D cell cultures, dynamics of… 

Jul 6, 2024

Confocal Light Field Microscopy: High Resolution and Signal-to-Noise Ratio Through a Confocal and 3D Tracking System

By: Katya Frazier, Nicholas Yeboah, Kayla Saychien, Amadou Dai Modification within light field microscopy has led to the development of confocal light field microscope (LFM) designs through an addition of a confocal and 3D tracking system designed to track freely moving animals, such as zebrafish and mice. According to the study, the confocal LFM was… 

Jul 6, 2024

DNA Origami Meets AFM: A Promising Duo in Nanoscience

By: Karen Chen, Kaelyn Coates, and Aloha Das DNA and other similar structures often coil up, obstructing the view of their molecular interactions to researchers. By combining the techniques of AFM (Atomic Force Microscopy) with DNA origami-based scaffolding methods, this paper showcases ways to visualize and study many nanometer-scale common interactions and structures formed by… 

Jun 17, 2024

Expansion microscopy technique optimized for viewing meiotic protein structures

By Dr. Stefanie Chen By testing three different expansion protocols (ProExM, MAP, and U-ExM) and using three types of super-resolution microscopy (dSTORM, SIM, and re-scan confocal microscopy), researchers were able to determine that MAP-SIM worked best for imaging the fine features of the meiosis-specific synaptonemal complex from mouse spermatocytes. In order to view small molecular… 

May 15, 2023

Biotechnology Program Receives NSF REU Funding!

NC State professors Dr. Stefanie Chen and Dr. Melissa Srougi received funding from the National Science Foundation to host a Research Experience for Undergraduates program focused on imaging of biological systems. The program will start in the summer of 2024 and run for three years. Student researchers participating in the Modeling the Dynamics of Biological Systems…