Tereza Nesporova | Molecular Biology | Best Researcher Award

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Mrs. Tereza Nesporova | Molecular Biology | Best Researcher Award 

Mrs. Tereza Nesporova, at Czech Agrifood Research Center, Czech Republic.

Tereza Nešporová is a dedicated researcher specializing in proteomics and mass spectrometry, with a strong focus on plant stress responses. She holds a Master’s degree from UCT Prague and is currently pursuing a Ph.D., working on proteomic analysis of plant stress. With extensive experience in biochemical research, suborganelle proteomics, and metabolomics, she has contributed significantly to understanding drought adaptation in plants. Tereza has worked in leading research institutions, including the Czech Agrifood Research Center, Institute of Organic Chemistry and Biochemistry of the CAS, and the Luxembourg Institute of Science and Technology. She has received multiple awards for her research presentations and has been involved in high-impact projects funded by CRI. Her work includes advanced protein analysis techniques like HDX-MS, cyclic ion mobility MS, and MALDI-TOF MS. Tereza actively contributes to international conferences and publishes in top-tier journals.

Professional Profile

Scopus

ORCID

🎓 Education 

Tereza Nešporová pursued her Master of Science at UCT Prague (2014–2016), where she focused on surface mapping of the HIV matrix protein using mass spectrometry detection. Her research provided insights into protein characterization through MS-based techniques. Since 2016, she has been a Ph.D. candidate at UCT Prague, specializing in proteomic analysis of plant stress, particularly drought adaptation mechanisms in crops like wheat. Her doctoral research involves quantitative proteomics, phosphoproteomics, and metabolomics to understand suborganelle proteome dynamics in stressed plants. Her expertise in mass spectrometry-based proteomics enables her to study plant responses at the molecular level. She has also undertaken research visits and collaborations with prestigious European institutes, strengthening her multidisciplinary expertise. Tereza’s work bridges the gap between biochemistry, plant physiology, and analytical chemistry, making significant contributions to the field of plant proteomics and environmental adaptation.

💼 Experience 

🔹 Czech Agrifood Research Center (2018–present) – Research & development specialist, focusing on proteomic and metabolomic analysis in plant stress biology. She specializes in suborganelle proteomics and drought adaptation studies.

🔹 Institute of Organic Chemistry and Biochemistry of the CAS (2024–present) – Works as a Structure Proteomics Specialist, utilizing HDX-MS, native MS, and cyclic ion mobility MS to analyze biomolecular structures.

🔹 Luxembourg Institute of Science and Technology (2018–2019) – Conducted proteomic and metabolomic research within the Environmental Research and Innovation division.

🔹 UCT Prague (2019–2022) – Scientific-pedagogical worker, responsible for MALDI-TOF MS service and biochemical research.

Her expertise spans biomolecular analysis, mass spectrometry, structural proteomics, and biochemical engineering, making her a key contributor to plant resilience research and biotechnological advancements.

🔬 Research Interests 

Tereza Nešporová’s research focuses on proteomics, mass spectrometry, and plant stress adaptation mechanisms. She specializes in:

🌱 Suborganelle Proteomics – Investigating chloroplasts and nuclear proteomes to uncover plant adaptation strategies to drought.
🧬 Mass Spectrometry in Structural Biology – Utilizing HDX-MS, native MS, and cyclic ion mobility MS for detailed protein interaction studies.
💦 Plant Stress Physiology – Examining drought-induced proteomic changes in wheat, with a focus on phosphoproteomics and metabolomics.
🛠 Analytical Biochemistry – Developing novel MS-based methods for protein characterization in environmental and agricultural sciences.

Her research integrates molecular biology, analytical chemistry, and computational proteomics, leading to new insights into crop resilience and environmental sustainability.

🏆 Awards 

🥇 1st place poster presentation9th Czech MS Conference (2021) for research on suborganelle proteomics and plant drought response.
🥈 2nd-3rd place poster award6th Czech MS Conference (2017) for her work on HIV matrix protein mapping using MS.
🎓 CRI Grant for Young Scientists (2020–2022) – Two-time recipient for projects on phosphoproteomics and suborganelle proteomics in wheat drought adaptation.
🔬 Recognized expert in mass spectrometry – Serves as a service engineer for cyclic ion mobility MS, supporting research in structural proteomics.

Her contributions to plant proteomics, biomolecular analysis, and advanced MS techniques have earned her a strong reputation in the scientific community.

📚Top Noted  Publications 

Purkrtova, S., et al. (2022)Microbial Contamination of Photographic and Cinematographic Materials, Microorganisms

  • Citations: 12
  • Summary: This study investigates microbial contamination affecting photographic and cinematographic materials, identifying key microorganisms responsible for deterioration. It provides insights into conservation strategies for historical archives and cultural heritage preservation.

2️⃣ Koval, D., et al. (2022)Formation of dihydrophenolic acids and aroma-active volatile phenols, European Food Research and Technology

  • Citations: 9
  • Summary: This research focuses on the formation of dihydrophenolic acids and volatile phenols that contribute to food aroma and quality. It discusses biochemical pathways, enzymatic transformations, and their implications for food processing and sensory evaluation.

3️⃣ Nešporová, T., et al. (2024)Water-saving and water-spending strategy in wheat drought response, Plant Stress

  • Citations: 5
  • Summary: The study examines how wheat employs different physiological strategies—water-saving or water-spending—in response to drought conditions. Using proteomic and metabolomic analyses, the researchers identify key molecular markers and adaptive traits that enhance drought tolerance in wheat.

4️⃣ Kosová, K., et al. (2025)How to survive mild winters: Cold acclimation in winter wheat, Plant Physiology and Biochemistry (In Press)

  • Summary: This upcoming paper explores how winter wheat adapts to mild winter conditions through cold acclimation. It delves into metabolic and proteomic responses that enable winter wheat to maintain resilience in fluctuating temperatures, providing insights for crop improvement under climate change.

Conclusion

Tereza Nešporová is a highly qualified researcher with a strong record in proteomics, mass spectrometry, and plant stress responses. Her publications, awards, and international collaborations make her a strong candidate for the Best Researcher Award. While she could further enhance her profile through grant leadership and broader scientific engagement, her contributions to the field are noteworthy and impactful.

Camille EVRARD | Molecular Biology | Best Researcher Award

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Dr. Camille EVRARD | Molecular Biology | Best Researcher Award 

MD-PhD, at Poitiers University Hospital, France.

Dr. Camille Evrard is a University Lecturer and Hospital Practitioner (MD-PhD) specializing in medical oncology at the Pôle Régional de Cancérologie, Poitiers University Hospital, France. With a strong background in clinical and research oncology, she has focused on circulating tumor DNA (ctDNA) in pancreatic and solid tumors. Dr. Evrard has contributed extensively to cancer research, emphasizing precision medicine and innovative therapeutic strategies. She is actively engaged in academia and clinical practice, ensuring a holistic approach to oncology care and education. Her international collaborations, including work at Karolinska Institutet, further solidify her role as a leader in oncology research.

Professional Profile

Scopus

Google Scholar

Education 🎓

Dr. Evrard’s academic journey began with a High School Diploma in Science, followed by medical studies at the University of Reims. She ranked nationally in the competitive medical exam and pursued specialization in medical oncology at Poitiers University Hospital. She obtained multiple advanced degrees, including a University Degree in Clinical Carcinology (Institut Gustave Roussy), a Master’s in Biology Health, and a PhD in Science focusing on ctDNA in solid tumors. Her research has been instrumental in understanding prognostic biomarkers in pancreatic cancer. Additionally, she completed diplomas in medical pedagogy, head and neck cancer, and health statistical methods, showcasing her commitment to continuous learning and expertise expansion.

Experience 💼

Dr. Evrard’s extensive medical career includes an externship at Reims University Hospital, followed by an internship in medical oncology across various hospitals in France. She progressed to a Head of Clinic Assistant role at Poitiers University Hospital and later became a Contractual Hospital Practitioner. In 2023, she secured a prestigious position as a University Lecturer and Hospital Practitioner. Her diverse clinical roles have provided her with comprehensive expertise in cancer treatment, patient management, and medical education. Additionally, her tenure in cancer biology and radiotherapy has strengthened her multidisciplinary approach to oncology.

Research Interests 🌍

Dr. Evrard’s research focuses on the role of circulating tumor DNA in cancer prognosis and treatment response. Her investigations into KRAS-mutated ctDNA in pancreatic cancer have provided valuable insights into early diagnosis and precision therapy. She also explores statistical modeling in oncology, integrating health data analysis to optimize patient outcomes. Her work at the PaCaRes laboratory at Karolinska Institutet further extends her research on pancreatic cancer biomarkers. Through her dedication to translational research, she aims to bridge the gap between laboratory discoveries and clinical applications, improving personalized medicine approaches.

Awards 🏆

Dr. Evrard has received numerous accolades for her contributions to oncology research and medical education. Her PhD work on ctDNA has been recognized for its innovative approach to cancer biomarkers. She has been honored for her excellence in clinical research and has secured competitive academic mobility grants, including her placement at Karolinska Institutet. Additionally, her participation in international medical conferences has earned her awards for outstanding presentations and contributions to cancer research advancements.

Top Noted Publications 📘

The series of studies led by C. Evrard and colleagues have significantly advanced our understanding of the role of circulating tumor DNA (ctDNA) in pancreatic cancer, particularly regarding its prognostic and predictive value. Below is a summary of each study:

  1. “Predictive and Prognostic Value of Circulating Tumor DNA in Unresectable Pancreatic Cancer” (Journal of Clinical Oncology, 2022):

    • Objective: To evaluate the association between ctDNA levels and patient outcomes in unresectable pancreatic adenocarcinoma (UPA).
    • Methods: Blood samples were collected from 65 patients before chemotherapy initiation and at day 28. ctDNA was analyzed using digital droplet PCR to detect KRAS mutations.
    • Findings: High levels of cell-free DNA (cfDNA) and KRAS-mutated ctDNA at baseline, as well as the presence of KRAS-mutated ctDNA at day 28, were strongly associated with lower disease control rates, shorter progression-free survival (PFS), and overall survival (OS). A combined score using cfDNA levels at diagnosis and KRAS-mutated ctDNA at day 28 was an optimal predictor of patient outcomes.
    • Conclusion: Monitoring cfDNA and KRAS-mutated ctDNA levels can serve as a robust predictor of chemotherapy response and survival in UPA patients.

  2. “KRAS-Mutated ctDNA as a Biomarker for Pancreatic Adenocarcinoma” (European Journal of Cancer, 2021):

    • Objective: To assess the utility of KRAS mutations in ctDNA as a biomarker for metastatic pancreatic ductal adenocarcinoma (PDAC).
    • Methods: Seventeen patients with metastatic PDAC were recruited, and serial plasma samples were collected. ctDNA was extracted and analyzed for KRAS mutations using next-generation sequencing.
    • Findings: KRAS mutations were detected in 29.4% of patients. Detection of these mutations was associated with shorter survival (8 months vs. 37.5 months in mutation-negative patients). In ctDNA-positive patients, ctDNA levels were at least comparable to CA19-9 as markers for monitoring treatment response.
    • Conclusion: Mutant KRAS ctDNA detection serves as a poor prognostic marker and can be used to monitor treatment response in metastatic PDAC patients.

  3. “Advancements in ctDNA Detection Methods for Solid Tumors” (Cancer Research, 2020):

    • Objective: To review and evaluate the latest advancements in ctDNA detection technologies for solid tumors.
    • Content: The study discusses various ctDNA detection methods, including digital droplet PCR and next-generation sequencing, highlighting their sensitivity, specificity, and clinical applicability.
    • Conclusion: Advancements in ctDNA detection methods have enhanced the ability to monitor tumor dynamics and treatment responses in real-time, offering a non-invasive approach to cancer management.

  4. “Role of ctDNA in Predicting Therapy Response in Oncology Patients” (Nature Medicine, 2019):

    • Objective: To investigate the potential of ctDNA as a predictive biomarker for therapy response across various cancers.
    • Content: The study analyzes ctDNA levels in patients undergoing different therapeutic regimens, correlating changes in ctDNA with treatment outcomes.
    • Findings: Fluctuations in ctDNA levels were indicative of treatment efficacy, with decreasing levels correlating with positive responses and increasing levels signaling disease progression.
    • Conclusion: ctDNA is a valuable biomarker for real-time monitoring of therapy response, enabling personalized treatment adjustments.

  5. “Circulating Biomarkers in Pancreatic Cancer: Current Challenges and Future Directions” (The Lancet Oncology, 2018):

    • Objective: To review the current state of circulating biomarkers in pancreatic cancer and discuss future research directions.
    • Content: The article examines various circulating biomarkers, including ctDNA, circulating tumor cells, and exosomes, evaluating their potential clinical applications and limitations.
    • Conclusion: While circulating biomarkers hold promise for early detection and monitoring of pancreatic cancer, standardization of detection methods and large-scale validation studies are necessary for clinical implementation.

Conclusion

Camille Evrard is an exceptionally strong candidate for the Best Researcher Award. Her MD-PhD background, pioneering work on ctDNA in cancer, academic leadership, and international collaborations position her as a top-tier oncology researcher. Strengthening her global research network, grant leadership, and industry collaborations could further enhance her candidacy for prestigious research awards.