Spotlights 2024

brian-amburn

November 2024 Spotlight
Brian Amburn

Hi everyone! I am an MD-PhD candidate currently in my graduate school years in Dr. Sam Faggs lab. Our lab focuses on cell fate decisions and transcriptional regulation, and how to apply these basic sciences to regenerative medicine. My research is primarily focused on determining the interaction between a long noncoding RNA and a specific RNA binding protein within the human heart during development and disease. I approach this research from multiple different angles, ranging from direct human proteomic and transcriptomic data down to sub-cellular localization of specific RNAs. This project may lead to a deeper understanding of human heart development and the intricate interplay of noncoding RNAs and critical RNA binding proteins.

My interest in research started a long time ago when my mom took me to interactive science museums, encouraging my curiosity and desire to learn how all things work. This interest stayed with me throughout my school years leading me to undergraduate university at Michigan State University where I first co-led the international Genetically Engineered Machines team in 2017 there, then joined a lab focused on how fatty acid biosynthesis impacts cardiac development.

Currently I have multiple ‘biggest’ goals. One of which is simply to continue my research and publish a paper on it, and of course, in doing so, discover something incredible. My other goals are farther out and include getting into my choice residency (UTMB Emergency Medicine/Aerospace medicine) and following that to run an independently funded lab while practicing medicine, ensuring that the next generation of astronauts can safely get to space and perform long duration space travel.

When I’m not in the lab you’ll probably find me in the gym, hanging out with friends, reading, or travelling. 

Flores, Victoria09

October 2024 Spotlight
Victoria Flores

I am a fourth-year student in BCMB on the cell track in Dr. Guy Nir’s lab. My project is trying to understand genomic organization of the bacterial chromosome. I am using super-resolution microscopy to determine the structure of the Salmonella chromosome as a determinant for lifestyle infection.  For the 2024-2025 term I am serving as a co-chair of BCSO.

Prior to starting graduate school, I participated in the PREP program at UTMB under the mentorship of Dr. Modis where we investigated the effects of enzymatic H2S production in tumor angiogenesis. In 2020, I earned my B.S. in Biochemistry from the University of Dallas where my senior project relied on scanning electron microscopy. 

In addition to being a grad student, I am the aunt to the cutest baby girl in the world ( well that’s what my friends say) who I try to spoil! When the weather is good, I enjoy sitting on the beach with a book in hand.

Naveen

September 2024 Spotlight
Naveen Ganji

I am a graduate student in the Biochemistry and Molecular Biology (BCMB) program, focusing on the Structural Biology and Biophysics (SBB) track. My academic journey began with a bachelor's and master's degree in pharmacy from Kakatiya University in India. Currently, under the mentorship of Dr. Matthieu Gagnon, I am investigating the structural aspects of ribosome translation and rescue mechanisms using cryo-electron microscopy (cryo-EM). Our research seeks to elucidate the structural details of ribosomal function and translation processes, aiming to provide insights that could guide the design and development of new antibiotics. My interest in structural biology and its potential applications in therapeutic development inspired me to pursue a Ph.D. in this field. I am driven by a desire to understand the complexities of ribosome structure and its critical role in cellular mechanisms. Looking ahead, I aspire to translate fundamental structural biology research into practical applications and the development of strategies to combat antibiotic resistance. Outside the lab, I am passionate about exploring nature, finding joy in exploring new places.

Katherine Buchanan

August 2024 Spotlight
Katherine Buchanan

I graduated Cum Laude from The University of Texas A&M in College Station, TX with a Bachelor of Science in Biomedical Sciences in May 2021. For my career, I aspire to teach Anatomy and Physiology in higher education. I have enjoyed learning about Anatomy and Physiology since first taking the course as an elective in high school. My interest in academia was sparked when I took Biomedical Physiology as an undergrad. Thankfully, my professor advised me to “teach the material as a method of studying”. It was during this course that I absolutely fell in love with teaching the material to others. This realization led me to pursue graduate school to further my knowledge. As an undergrad, I explored different careers in healthcare and shadowed professionals in their fields. To expand my research experience, I took a year and volunteered as a student assistant in Dr. Michelle Hook’s lab at the Texas A&M University Health Science Center in Bryan, TX. In Dr. Hook’s lab, I was primarily assisting in collecting preliminary data for an R01 by examining the role of osteoblast and osteoclast activity following spinal cord injury. I thoroughly enjoyed my time in Dr. Hook’s lab, which further affirmed my interest in academia. When I was not scheduled in the lab, I also worked as a substitute teacher for the Magnolia Independent School District.

I began my graduate studies in Fall 2022 in the Biochemistry and Molecular Biology track within the Biochemistry, Cellular, and Molecular Biology program at the University of Texas Medical Branch in Galveston, TX. I am now a rising third year PhD candidate in Dr. Jonathan Hommel’s lab in the Center for Addiction Sciences and Therapeutics. I am studying the activation of neuromedin u receptor 2 in regulating a neural pathway from the infralimbic region of the prefrontal cortex to the nucleus accumbens shell and its relevance in binge-like drinking behavior in a rat model. In my lab, we primarily utilize in vivo calcium imaging techniques in freely behaving rodents, behavioral paradigms, and confocal imaging.

Outside of the lab, I enjoy spending time with my family and friends, dancing, drawing, and reading! If I were to choose a fun fact, it would be that I absolutely love loaded baked potatoes… or that I have two black belts in martial arts: Modern Martial Arts and Chun Kuk Do.

BMBspotlight_photoNV3

July 2024 Spotlight
Nicolette Valdez

I am currently a rising second-year PhD student in Dr. Matthieu Gagnon’s lab in the department of Biochemistry and Molecular Biology. My undergraduate research experience in environmental microbiology sparked my interest in pursuing research, particularly involving protein synthesis and antimicrobial resistance. During my graduate studies, I focused on expanding my research experience in biochemistry and structural biology techniques where I solidified my interests in bacterial translation and antibiotic resistance.  
My current work is focused on investigating the molecular mechanisms by which bacterial translation is regulated. I am particularly interested in using cryogenic electron microscopy coupled with biochemical approaches to understand how ribosome rescue factors bind and rescue the ribosome from peptide- and antibiotic-mediated stalling to resume protein synthesis.  
Outside of the lab I enjoy reading, playing/watching sports, and talking about my dog! A fun fact about me is that I used to play the violin.  

DSC_1385

June 2024 Spotlight
E. Renee Matthews

I am a postdoctoral fellow in Dr. Michelle Ward’s laboratory in the department of Biochemistry and Molecular Biology.  My current work is focused on understanding how the transcriptional landscape changes in cardiomyocytes after treatment with breast cancer drugs.  I am interested in understanding how cis-regulatory elements contribute to transcriptional responses after treatment with anthracyclines, a class of chemotherapeutics which are known to cause cardiotoxicity. I enjoy working with my lab to dissect the global role of regulatory elements in response to stress or varied environmental conditions.

I completed my Ph.D. in Biochemistry under Dr. Yu Liu at the University of Houston.   I studied how small non-coding RNA, called microRNA (miRNA) affected the transcription and timing of key heart development genes. More specifically, my work focused on CRISPR-mediated miRNA knockout effects on cardiac cellular development and cell fate choice. 

I am a long-time resident of League City, and I enjoy spending time indoors reading and avoiding mosquitos.  I have two nearly grown children, a husband, and three cats.  Most people would be surprised to know that science is my second career.  I was a music teacher that fell in love with biochemistry and genetics. 

Joon Park

May 2024 Spotlight
Joon Park

I am a postdoctoral fellow in Dr. Whitney Yin’s laboratory in the department of Biochemistry and Molecular Biology. My current work is focused on mitochondrial DNA replication and transcription fidelity in regard to human health. Specifically, I use cryogenic electron microscopy as a main tool coupled with biochemical approaches to discover the molecular basis of antiviral toxicity in mitochondrial DNA and RNA polymerases, which are often off target to antivirals.

My passion for research kindled while I was shadowing a physician. During my shadowing experience, I learned first-hand that effective therapeutics are still not available for many illnesses, and their effectiveness vary greatly from person to person despite active research being carried out in the field. These realities hit me and diverted my attention to the importance of discovering detailed mechanisms behind pathogenesis of diseases for developing new and effective cures.

My doctoral work focused on establishing the foundation for antivirals studies. Since it was not clear how replicative DNA polymerases detect and excise incorporation errors, I first characterized this mechanism in DNA polymerase g, only replicative DNA polymerase in human mitochondria. Additionally, we further probed to find key residues that participate in detecting errors in DNA. Continuing on from this foundational work, now the study focuses on interaction between the antiviral drugs and DNA polymerase g. By testing and studying antivirals with various modifications, we can assign degree of toxicity to each modification on different antivirals, which can help facilitate current and future antiviral design to minimize side effects in patients.


Ultimately, I would like to be an established, independent researcher and discover broad-spectrum antivirals that can be effectively used in medical settings.

Outside of the laboratory, my wife and I devote all our time to our new baby boy, whom we welcomed in March. 

Singh, Aditi05

April 2024 Spotlight
Aditi Singh

I am currently a 3rd year PhD candidate in the Department of Biochemistry and Molecular Biology at UTMB. I graduated with Bachelor of Pharmacy from Birla Institute of Technology and Science (BITS), Pilani, Rajasthan (India) in 2020. As part of my bachelor’s dissertation, I worked under the supervision of Prof. Mike Sheetz in Mechanobiology Institute at NUS, Singapore where we worked on augmenting cancer cell apoptosis using low frequency ultrasound. That, along with other impactful internships within the realm of biology, sparked my interest to pursue graduate studies in similar research area. Currently, we are investigating mechanisms pertaining to ER and mitochondria that might be involved in differential cancer cell killing upon ultrasound treatment. Besides science, I enjoy reading non-fiction, painting, singing and exploring art galleries in downtown Galveston. Beyond science, I do believe the dots connect! 

 

Picture1 chen

March 2024 Spotlight
John Yun-Chung Chen

I am a graduate student in Dr. Xuping Xie's lab. I study variants within SARS-CoV-2 and the roles that nonstructural proteins play. I am a biological engineer by training, and many of my past research projects have involved virology. Prior to UTMB, I worked on an adeno-associated virus gene therapy project at UC Berkeley, and subsequently worked to study HIV-1 at the NIH. 

Our lab at UTMB originally worked primarily on Zika virus and Dengue virus. During to the coronavirus pandemic, our lab quickly pivoted towards SARS-CoV-2 work, and I have been fortunate to receive related training from our lab in a time-efficient manner. This involves not only in-vitro work in BSL3 containment, but also animal studies in the corresponding animal BSL3 (ABSL3) facilities. I now have independent access to both types of facilities and will be training incoming trainees in our lab to work safely in containment labs. 

In my spare time, I enjoy learning foreign languages and listening to music. I play the violin and a little bit of piano. I enjoy karaoke and always appreciate a supportive audience if I were to sing anything from the microphone. 

Jose

February 2024 Spotlight
Jose Gutierrez

A proud native of Laredo, Texas, I obtained both my bachelor's and master's degrees in biology from Texas A&M International University (TAMIU) as a first-generation college student. Growing up, I always had an appreciation for biology and chemistry, deciding from a very early age (5) that I wanted to enter the field for the privilege of wearing a lab coat. Over the years, my interest in biology shifted from the attire to a more defined field of study. 

Under the instruction of such wonderful professors as Dr. Ruby Ynalvez and Dr. Micheal Kidd, I gained a deep appreciation for molecular biology and genetics. I decided to complete my master's degree under the instruction of Dr. Ynalvez, studying the effects of different heavy metals on two strains of Chlamydomonas reinhardtii in an attempt to elucidate the role of a specific gene whose function was, at the time, unknown. Following several years of teaching biology labs at TAMIU, I decided to broaden my research experience by finding work outside of Laredo. 

Through immense luck and more than 100 applications across various job postings, I was hired as the Lab Manager of Dr. Michelle Ward's lab in the Medical Research Building. My research focus primarily involves culturing and differentiating human iPSCs into iPSC-derived Cardiomyocytes for use by other members in the lab. I am also tasked with lab upkeep, ordering, reagent preparation, and ensuring compliance with all university policies and requirements. 

I deeply cherish the work that I do, and not a single day can be classified as mundane. My biggest goal is to continue to expand my repertoire of laboratory techniques, and to continue to play a role in the Ward Lab's success. I have also gotten our lab awarded 2 medals for exemplary lab safety by EHS (and the title of Safety Champion for 2022 and 2023).

When I am not in the lab, I enjoy de-stressing by playing music, and challenging others at video games (competitive fighting games). I am also constantly foraging and attempting to visually catalog mushrooms in any city that I live in. as something of an amateur mycologist. Most people would be surprised to know that I broke both of my elbows back in 2022 in a tripping accident on my way to pick up some reagents for our lab. The X-rays have since been immortalized as teaching material in some of the classes at UTMB. 

January 2024 Spotlight
Dr. Anat Galis Vivante

I am a postdoc in Dr. Guy Nir’s lab (Department of Biochemistry & Molecular Biology). My research, in collaboration with Prof. Michael Sheetz’s lab (UTMB) and Prof. Erez Lieberman Aiden’s lab (Baylor College of Medicine), explores the effect of the matrix rigidity sensor on genome organization and gene expression, from ensemble-level to single-level methods. Recent studies have shown that variations in rigidity sensing (which is critical for proper cell growth) can alter the nuclear morphology and the gene expression profile. However, the mechanism by which the rigidity matrix can regulate gene expression remains unclear. By using genome-wide and single-cell methods, we aim to determine whether genome organization is altered in response to variations in matrix rigidity and may result in gene expression changes, and if these changes correlate with cell morphology. We suggest that regulation of gene expression through rigidity sensing is facilitated by repositioning Lamina-Associated Domains (LADs). Since LADs are coupled to actin-myosin contraction, a change in this contraction, may induce structural variations and can alter transcriptional program. Prior to my arrival at UTMB, originally from Israel, I conducted my Ph.D. research in biophysics at the Physics Department and Nanotechnology and Advanced Materials Institute, Bar-Ilan University (BIU), Israel. My PhD research focused on genome organization in the eukaryotic cell nucleus. Specifically, I studied the effect of nuclear structural proteins on chromatin dynamics. I employed live imaging methods to characterize the dynamic and elastic properties of the chromatin and its organization in living cells. I developed and used advanced optical microscopy and biophysical methods, and required the use of physical models for interpreting the data. I have a great interest in comprehensive research questions in cell biology and genetics, aimed to shed light on the fundamental function, organization and mechanisms of the DNA and RNA in the cell, with an emphasis on disease therapy and pathologies. My love for research, along with my desire to learn new things, make my time at the lab truly enjoyable! Outside the lab, I love drawing, sketching, dancing, and traveling with my family, exploring the Lone Star State.