Anam Ashraf | Structural Biology | Women Researcher Award

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Dr. Anam Ashraf | Structural Biology | Women Researcher Award 

DHR Young Scientist, at Jamia Millia Islamia, India.

Dr. Anam Ashraf is a dynamic and accomplished researcher with a Ph.D. in Life Sciences, specializing in molecular and structural biology, drug discovery, and research communication. Her scholarly journey spans prestigious institutions like the National Institute of Immunology and Jamia Millia Islamia. With a flair for both benchwork and penwork, Dr. Ashraf excels in scientific writing, grant proposals, and research translation. She has significantly contributed to the understanding of pathogen biology, cancer therapeutics, and microbial resistance. Her collaborative projects and high-impact publications reflect her innovative mindset and interdisciplinary approach. As a co-corresponding author on multiple articles, she demonstrates leadership and scientific clarity. Dr. Ashraf continues to bridge the gap between complex molecular mechanisms and translational science, aspiring to channel her research acumen into impactful scientific writing and policy communication. She brings passion, precision, and purpose to every project she undertakes. 📚💡

Professional Profile

Scopus

ORCID

🎓 Education

Dr. Anam Ashraf’s academic foundation is rooted in premier Indian institutions, beginning with a Bachelor’s in Biotechnology from Jamia Millia Islamia (2010–2013), where she cultivated her interest in molecular biology. She then pursued an M.Sc. in Biotechnology from South Asian University (2013–2015), engaging in research on microRNA-181a and its role in liver fibrosis. Her scholarly trajectory culminated in a Ph.D. from the National Institute of Immunology (2015–2021), focusing on the mechanistic properties of the enzyme HisI and histidine biosynthesis dynamics in Mycobacterium tuberculosis. During her doctoral research, Dr. Ashraf developed deep expertise in structural biology, molecular dynamics, and host-pathogen interactions. Her academic record is complemented by her qualification of the highly competitive DBT-JRF (Category I) national-level examination in 2015. Each stage of her education has honed her analytical thinking, experimental rigour, and communication skills, making her a standout scholar in the life sciences domain. 🎓🔬

🧪 Experience

Dr. Anam Ashraf’s professional journey reflects over a decade of laboratory and academic excellence. Currently serving as a DHR-Young Scientist at Jamia Millia Islamia (since September 2022), she previously held a Senior Research Fellowship (SRF) there from 2021 to 2022. Her experience encompasses structural analysis of enzymes, inhibitor screening, and molecular dynamics simulations. Dr. Ashraf’s diverse skill set includes scientific manuscript writing, bioinformatics, grant proposal development, and public speaking. She has played key roles in multiple interdisciplinary research teams, contributing as both experimentalist and co-corresponding author. Her collaborative work spans microbiology, oncology, and computational biology, positioning her at the forefront of translational biomedical research. Dr. Ashraf’s research outputs have been presented at leading global forums and published in prestigious journals. Her combination of scientific depth and communicative clarity makes her uniquely qualified for both research-intensive and science communication roles. 🧫🧠

🔍 Research Interests

Dr. Anam Ashraf’s research interests lie at the confluence of molecular biology, structural biology, and computational drug discovery. Her doctoral work on Mycobacterium tuberculosis explored enzyme dynamics in host infection contexts, laying a foundation for antimicrobial development. Passionate about solving real-world biomedical challenges, she actively explores oxidative stress pathways, transcriptional regulation in pathogens, and cancer therapeutics via natural compound screening. She is particularly interested in structure-guided drug design, using techniques like X-ray crystallography, molecular docking, and MD simulations. Her recent focus on targeting proteins like RfaH and Aurora Kinase B with plant-derived compounds reflects a translational vision for therapy. Additionally, Dr. Ashraf is intrigued by the gut-brain axis, microbial endocrinology, and the interface between microbiota and host metabolism. Her interdisciplinary expertise empowers her to dissect complex mechanisms and identify novel therapeutic targets. Her work exemplifies how basic science can fuel next-generation treatment strategies. 🔬💊🧠

🏆 Awards

Dr. Anam Ashraf has garnered numerous accolades throughout her academic and research career. She qualified for the prestigious DBT-JRF Category I examination in 2015, which supported her doctoral research at the National Institute of Immunology. Her oral and poster presentations have been recognized at both national and international platforms, including the AsCA 2024 Conference in Malaysia, Keystone Symposia in the USA, and INCD 2023 in Chandigarh, where her innovative work on antimicrobial and cancer therapeutics was spotlighted. Her selection as a DHR-Young Scientist further reflects the national recognition of her scientific contributions. Dr. Ashraf’s ability to distill complex research into accessible formats has also earned her commendation in interdisciplinary forums such as “Global Bio-India” and “Biophysika.” Her consistent presence at high-impact events demonstrates not only her scientific merit but also her commitment to disseminating knowledge across academia and industry. 🥇📢

📚Top Noted Publications

Dr. Anam Ashraf has published extensively in high-impact journals, with over 19 peer-reviewed articles, several as co-corresponding or equal author. Her publications span antimicrobial research, structural biology, oncology, and microbial endocrinology.

🔬 Structural Biology & Enzymology

  1. Crystal Structure of Thymidine Kinase

    • Authors: [Authors not specified]

    • Journal: BBA – Proteins and Proteomics

    • Year: 2025

    • Citations: 5+

    • DOI: [DOI not available]PubMed+6PubMed+6Frontiers+6PubMed+11PubMed+11Directory of Open Access Journals – DOAJ+11

  2. Structure-Guided Identification of MTH1 Inhibitors

    • Authors: [Authors not specified]

    • Journal: Chemical Papers

    • Year: 2025

    • Citations: 3

    • DOI: [DOI not available]

  3. PDB Structure Submission

    • PDB ID: 8Y7W

    • Year: 2024

    • Details: Structural data from a protein crystallography study

    • Link: RCSB PDB Entry

  4. Conformational Switch in PIM-1

    • Authors: [Authors not specified]

    • Journal: Computational Biology and Chemistry

    • Year: 2024

    • Citations: 2

    • DOI: [DOI not available]PubMed+6PubMed+6Frontiers+6Frontiers+10PubMed+10PubMed+10

  5. Effect of pH on TK Enzyme

    • Authors: [Authors not specified]

    • Journal: Journal of Biomolecular Structure and Dynamics

    • Year: 2023

    • DOI: [DOI not available]

🧬 Molecular Mechanisms & Disease Links

  1. Role of MTH1 in Oxidative Stress and Therapeutic Targeting of Cancer

    • Authors: [Authors not specified]

    • Journal: Redox Biology

    • Year: 2024

    • Citations: 4

    • DOI: 10.1016/j.redox.2024.103394ScienceDirect

  2. Microbial Endocrinology and Metabolism

    • Authors: [Authors not specified]

    • Journal: Molecular and Cellular Endocrinology

    • Year: 2024

    • Citations: 1

    • DOI: [DOI not available]PubMed+9PubMed+9ResearchGate+9Frontiers+4PubMed+4SpringerLink+4

  3. Targeting Transcriptional Regulatory Protein RfaH with Natural Compounds to Develop Novel Therapies Against Klebsiella pneumoniae

    • Authors: Anam Ashraf, Arunabh Choudhary, Mohammad Ali Khan, Saba Noor, Afzal Hussain, Mohamed F. Alajmi, Md Imtaiyaz Hassan

    • Journal: Journal of Biomolecular Structure and Dynamics

    • Year: 2024

    • DOI: 10.1080/07391102.2024.2427376Taylor & Francis Online+1ResearchGate+1

  4. Repurposing Rifaximin

    • Authors: [Authors not specified]

    • Year: 2024

    • Details: [Details not available]

🧪 Drug Discovery & Natural Compound Research

  1. Investigating the Chemo-Preventive Role of Noscapine in Lung Carcinoma via Therapeutic Targeting of Human Aurora Kinase B

    • Authors: [Authors not specified]

    • Journal: Molecular and Cellular Biochemistry

    • Year: 2024

    • Citations: 3

    • DOI: 10.1007/s11010-024-05036-7

  2. Probing Baicalin as Potential Inhibitor of Aurora Kinase B: A Step Towards Lung Cancer Therapy

    • Authors: Noor Saba, Arunabh Choudhury, Ali Raza, Anam Ashraf

    • Journal: International Journal of Biological Macromolecules

    • Year: 2024

    • DOI: 10.1016/j.ijbiomac.2023.128813

  3. Natural Compounds vs. Klebsiella

    • Authors: [Authors not specified]

    • Journal: Fitoterapia

    • Year: 2023

    • DOI: [DOI not available]

  4. CDK5 as Neuro Target

    • Authors: [Authors not specified]

    • Journal: International Journal of Biological Macromolecules

    • Year: 2023

    • DOI: [DOI not available]

  5. Triazole Inhibitor for Mycobacterium tuberculosis

    • Authors: [Authors not specified]

    • Journal: Proteins

    • Year: 2022

    • DOI: [DOI not available]

🧫 Tuberculosis & Metabolic Studies

  1. Histidine Biosynthesis in TB

    • Authors: [Authors not specified]

    • Journal: Communications Biology

    • Year: 2021

    • Citations: 10+

    • DOI: [DOI not available]

  2. Lipid Utilization in TB

    • Authors: [Authors not specified]

    • Journal: Journal of Biological Chemistry

    • Year: 2017

    • DOI: [DOI not available]

  3. Bacterioferritin Structure

    • Authors: [Authors not specified]

    • Journal: Acta Crystallographica Section F

    • Year: 2018

    • DOI: [DOI not available]

🫁 Disease-Focused Studies

  1. Molecular Blueprint of COPD

    • Authors: [Authors not specified]

    • Journal: Oxidative Medicine and Cellular Longevity

    • Year: 2023

    • Citations: 6

    • DOI: [DOI not available]

  2. Mineral Pitch and Cancer

    • Authors: [Authors not specified]

    • Journal: BMC Complementary and Alternative Medicine

    • Year: 2016

    • DOI: [DOI not available]

Conclusion

Dr. Anam Ashraf is highly suitable for the Research for Women Researcher Award, particularly based on:

  • Her consistent and impactful contributions to life sciences,

  • Strong publication and presentation record in relevant domains,

  • And her leadership in scientific writing, drug discovery, and structural biology.

With modest improvements in formal recognitions, mentorship visibility, and community science engagement, she could emerge as a leading candidate not only for this award but for broader international recognition.

Christo Nanev | Proteomics | Best Researcher Award

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Prof. Dr. Christo Nanev | Proteomics | Best Researcher Award 

Professor Doctorate, at INST PHYSICAL CHEMISTRY BAS, Bulgaria.

Prof. Christo N. Nanev is a distinguished Bulgarian physical chemist renowned for his pioneering contributions to crystal growth and nucleation. He earned his PhD under the mentorship of Academician Rostislaw Kaischew and later achieved a Doctor of Science degree in Physical Chemistry from the Bulgarian Academy of Sciences. His research spans various domains, including protein crystallization, semiconductor thin films, and electrocrystallization. Notably, his images of insulin crystals were featured in the 8th edition of the textbook “Biochemistry” by Berg et al. Prof. Nanev has authored over 150 scientific papers and holds five patents. He serves on the Advisory Board of Crystal Research and Technology and is a fellow of the Humboldt Union in Bulgaria. As the principal investigator of Bulgaria’s first space experiment, he was honored with the ‘Interkosmos’ medal. His work continues to influence the fields of crystallography and physical chemistry.

Professional Profile

Scopus

ORCID

Google Scholar​

🎓 Education

Prof. Nanev completed his undergraduate studies at the Chemical Faculty of Sofia University “St. Kliment Ohridski” in Bulgaria. During his academic tenure, he specialized in the growth of crystal whiskers at the Institute of Physics, Czechoslovak Academy of Sciences in Prague. He pursued his PhD in crystal growth under the guidance of Academician Rostislaw Kaischew, a luminary in the field. Subsequently, he attained the Doctor of Science degree in Physical Chemistry from the Bulgarian Academy of Sciences, reflecting his profound expertise and contributions to the discipline. His educational journey laid a robust foundation for his illustrious career in crystallography and physical chemistry.

🧪 Experience

With a career spanning several decades, Prof. Nanev has been at the forefront of research in crystal nucleation and growth. His experimental and theoretical work encompasses protein crystallization, semiconductor thin films, metal electrocrystallization, and the growth of quartz crystals. He has also delved into surface leveling during the deposition of galvanic coatings. His expertise has been recognized through his role as a principal investigator in Bulgaria’s inaugural space experiment, earning him the ‘Interkosmos’ medal. Beyond research, he contributes to the scientific community as a member of the Advisory Board for Crystal Research and Technology and as a fellow of the Humboldt Union in Bulgaria. His extensive experience continues to inspire advancements in the field.

🔬 Research Interests

Prof. Nanev’s research interests are deeply rooted in the mechanisms of crystal nucleation and growth. He has extensively studied protein crystallization, providing insights crucial for structural biology and pharmaceutical applications. His work on semiconductor thin films and metal electrocrystallization has implications for electronic materials and surface engineering. Additionally, he has explored the growth processes of quartz crystals and the dynamics of surface leveling in galvanic coatings. His interdisciplinary approach bridges physical chemistry with materials science, contributing to both theoretical frameworks and practical applications in crystallography.

🏅 Awards

Prof. Nanev’s contributions have been recognized through various accolades. Notably, he received the ‘Interkosmos’ medal for his role as the principal investigator in Bulgaria’s first space experiment. His election as a fellow of the Humboldt Union in Bulgaria underscores his esteemed position in the scientific community. His work has not only advanced scientific understanding but also garnered international recognition, reflecting his impact on the field of physical chemistry.

📚 Top Noted Publications

Prof. Nanev has an extensive publication record, with over 150 scientific papers and five patents. His research has been featured in reputable journals, contributing significantly to the fields of crystallography and physical chemistry. Notably, his images of insulin crystals were included in the 8th edition of the textbook “Biochemistry” by Berg et al., published by W. H. Freeman in 2015. For a comprehensive list of his publications, you can refer to his Google Scholar profile.

📌 1. Nucleation of Lysozyme Crystals Under External Electric and Ultrasonic Fields

Authors: CN Nanev, A Penkova
Journal: Journal of Crystal Growth, 232 (1–4), 285–293 (2001)
Citations: 145
DOI: Link
Summary: Explores how electric and ultrasonic fields affect the nucleation rate of lysozyme crystals. Concludes that ultrasonic fields enhance nucleation via cavitation effects, while electric fields influence nucleation through electrostatic and convection mechanisms.

📌 2. Heterogeneous Nucleation (and Adhesion) of Lysozyme Crystals

Authors: D Tsekova, S Dimitrova, CN Nanev
Journal: Journal of Crystal Growth, 196 (2–4), 226–233 (1999)
Citations: 94
DOI: Link
Summary: Investigates heterogeneous nucleation of lysozyme on various substrates, focusing on adhesion forces and how they determine crystal orientation and location.

📌 3. Temperature-Independent Solubility and Interactions Between Apoferritin Monomers and Dimers in Solution

Authors: DN Petsev, BR Thomas, ST Yau, D Tsekova, CN Nanev, WW Wilson, et al.
Journal: Journal of Crystal Growth, 232 (1–4), 21–29 (2001)
Citations: 80
DOI: Link
Summary: Explores the unique solubility behavior of apoferritin, with a focus on dimer–monomer interactions. Highlights the role of solution thermodynamics in protein crystallization.

📌 4. Protein Crystal Nucleation in Pores

Authors: CN Nanev, E Saridakis, NE Chayen
Journal: Scientific Reports, 7 (1), 35821 (2017)
Citations: 56
DOI: Link
Summary: Shows how nanoscale confinement can be used to initiate and control protein nucleation. Potentially important for crystallizing proteins that are otherwise difficult to nucleate.

📌 5. Kinetics of Insulin Crystal Nucleation, Energy Barrier, and Nucleus Size

Authors: CN Nanev, FV Hodzhaoglu, IL Dimitrov
Journal: Crystal Growth & Design, 11 (1), 196–202 (2011)
Citations: 56
DOI: Link
Summary: Analyzes insulin crystallization kinetics to determine the energy barrier and size of critical nuclei using experimental and theoretical models.

📌 6. Enhancement and Suppression of Protein Crystal Nucleation Due to Electrically Driven Convection

Authors: A Penkova, O Gliko, IL Dimitrov, FV Hodjaoglu, CN Nanev, PG Vekilov
Journal: Journal of Crystal Growth, 275 (1–2), e1527–e1532 (2005)
Citations: 56
DOI: Link
Summary: Demonstrates how convection currents caused by electric fields influence nucleation via spatial inhomogeneities of supersaturation.

📌 7. On the Slow Kinetics of Protein Crystallization

Author: CN Nanev
Journal: Crystal Growth & Design, 7 (8), 1533–1540 (2007)
Citations: 50
DOI: Link
Summary: Proposes that kinetic barriers and specific protein interactions cause delays in nucleation, explaining difficulties in crystallizing many proteins.

📌 8. Theory of Nucleation

Author: CN Nanev
In: Handbook of Crystal Growth (Second Ed.), Ed. Nishinaga T., Vol. 1, 315–358 (2015)
Citations: 47
Summary: A comprehensive chapter covering classical and non-classical nucleation theories, including the effect of impurities and solution dynamics.

📌 9. Heterogeneous Nucleation of Hen‐Egg‐White Lysozyme—Molecular Approach

Authors: CN Nanev, D Tsekova
Journal: Crystal Research and Technology, 35 (8), 949–956 (2000)
Citations: 47
DOI: Link
Summary: A closer look at lysozyme-substrate interaction, proposing a molecular-level interpretation of heterogeneous nucleation.

📌 10. Protein Crystal Nucleation: Recent Notions

Author: CN Nanev
Journal: Crystal Research and Technology, 42 (8), 817–825 (2007)
Citations: 44
DOI: Link
Summary: Reviews advances in understanding protein crystal nucleation, contrasting protein-specific behavior with small-molecule crystallization.

Conclusion 

Prof. Christo N. Nanev is an outstanding candidate for the Best Researcher Award. His decades-long scientific leadership, broad interdisciplinary contributions, and international recognition exemplify the essence of the award. While additional emphasis on current collaborative initiatives would enhance his profile, his longstanding impact, innovation, and dedication to science strongly support his nomination.