Yashika Bansal | Plant Biotechnology | Best Scholar Award

Ms. Yashika Bansal | Plant Biotechnology | Best Scholar Award

Ph.D. Scholar at Jamia Hamdard, India

Yashika Bansal is a highly accomplished Ph.D. scholar at Jamia Hamdard University, specializing in botany with expertise in advanced experimental design, R-programming, and sophisticated lab techniques such as flow cytometry and GC-MS. Her prolific research output, which includes publications in top-tier journals like Frontiers in Plant Science and Plants-MDPI, combined with a record of successful collaborations and conference presentations, makes her a promising candidate for the Best Scholar Award.

Professional Profile

Education

Yashika Bansal’s educational journey reflects her dedication to plant science and biotechnology. She is currently pursuing a Ph.D. in Botany at Jamia Hamdard University, focusing on plant molecular biology and tissue culture. Her doctoral research is informed by a strong foundation laid during her M.Sc. in Botany, also from Jamia Hamdard, where she graduated in 2019 with a focus on plant physiology and biochemistry. Prior to this, Yashika completed her B.Sc. in Life Sciences at Delhi University, where she developed a keen interest in plant biology and genetics. Throughout her studies, Yashika has honed her skills in experimental design, molecular techniques, and statistical analysis, preparing her for a successful research career. Her academic background is complemented by her participation in specialized workshops and certifications in areas such as R-programming and metabolomics, equipping her with the tools to contribute meaningfully to the fields of plant biotechnology and conservation.

Experience

Yashika Bansal is currently a Ph.D. scholar at Jamia Hamdard University, a role she has held since December 2020, where she conducts advanced research in botany and plant molecular biology. She excels in both independent and collaborative research environments, and her work involves meticulously documenting experimental results to ensure transparency and scientific rigor. Yashika has published several articles in top-tier journals, contributing valuable knowledge to her field and enhancing her expertise in qualitative and quantitative analysis. Her experience includes establishing research collaborations, presenting findings at conferences, and mentoring junior researchers. These activities have allowed her to foster professional relationships within the scientific community. Skilled in experimental design and proficient with various technical tools, including flow cytometry and GC-MS, Yashika is dedicated to advancing plant science and biotechnology. Her role has made her a central figure in her lab, contributing to projects that address key scientific questions and conservation efforts.

Research Focus

Yashika Bansal’s research is rooted in plant science, particularly focusing on molecular botany, tissue culture, and phytochemical analysis. Her work aims to understand gene regulation, tissue-specific metabolite synthesis, and plant defense mechanisms. By leveraging advanced techniques such as flow cytometry, scanning electron microscopy, and GC-MS, Yashika examines gene expression and metabolite accumulation in various plant tissues. Her research often includes comparative studies of in vitro and in vivo plant tissues, which reveal key insights into stress response and medicinal compound synthesis. Yashika also investigates the conservation potential of her findings, exploring ways to apply biotechnology to habitat preservation and species resilience. Her publications reflect her commitment to advancing plant biotechnology, and her studies in R-programming and statistical analysis ensure her findings are robust. Through her work, Yashika contributes to sustainable plant research with implications for agriculture, medicinal plant development, and environmental conservation.

Awards and Honors

Yashika Bansal has received several prestigious awards and recognitions, underscoring her dedication and expertise in plant science. She was awarded the CSIR-UGC NET in 2019, an esteemed qualification that highlights her comprehensive knowledge in biological sciences. In 2020, she earned the GATE-Life Sciences award, showcasing her competence in life sciences and further establishing her academic credentials. That same year, she received the DBT-JRF (Junior Research Fellowship), which provided essential support for her research pursuits. In 2023, Yashika was awarded the DBT-SRF (Senior Research Fellowship), recognizing her progress and contributions as a Ph.D. scholar. Beyond these awards, she has completed several specialized certifications, including training in electron microscopy and flow cytometry, solidifying her technical proficiency. These achievements reflect her commitment to excellence in her field, and they position her as a promising researcher within the scientific community.

Skills

Yashika Bansal possesses a wide range of skills essential for high-level research in plant science and biotechnology. Her technical expertise includes advanced laboratory techniques such as flow cytometry, scanning electron microscopy, and GC-MS (Gas Chromatography-Mass Spectrometry), which she uses for detailed cellular and molecular analyses. She is proficient in R-programming and SPSS, equipping her with the tools necessary for comprehensive statistical analysis and data visualization. Yashika is also skilled in experimental design, ensuring rigorous methodology in her research projects. Her strengths extend to scientific writing, with a demonstrated ability to communicate complex findings effectively in high-impact journals. Additionally, Yashika has excellent mentoring skills, having guided junior researchers and students in developing their research techniques. Her collaborative spirit, technical proficiency, and attention to detail make her an invaluable asset in her field, contributing to advancements in plant biotechnology and conservation.

Conclusion

Yashika Bansal is a highly capable, forward-thinking researcher whose comprehensive skill set, significant contributions to the field of plant science, and dedication to collaborative and impactful research make her a strong contender for the Best Scholar Award. With further experience and outreach, she has the potential to make even greater contributions to scientific advancement.

Publications Top Noted

Phytochemical Composition and Detection of Novel Bioactives in Anther Callus of Catharanthus roseus L.
Authors: Y. Bansal, A. Mujib, J. Mamgain, Y.H. Dewir, H.Z. Rihan
Citation: 15
Year: 2023

Genome Size and Gas Chromatography-Mass Spectrometry (GC–MS) Analysis of Field-Grown and In Vitro Regenerated Pluchea lanceolata Plants
Authors: J. Mamgain, A. Mujib, R. Syeed, B. Ejaz, M.Q. Malik, Y. Bansal
Citation: 14
Year: 2023

Ploidy Status, Nuclear DNA Content and Start Codon Targeted (SCoT) Genetic Homogeneity Assessment in Digitalis purpurea L., Regenerated In Vitro
Authors: Y. Bansal, A. Mujib, Z.H. Siddiqui, J. Mamgain, R. Syeed, B. Ejaz
Citation: 10
Year: 2022

Internal and External Regulatory Elements Controlling Somatic Embryogenesis in Catharanthus: A Model Medicinal Plant
Authors: A. Mujib, Y. Bansal, M.Q. Malik, R. Syeed, J. Mamgain, B. Ejaz
Citation: 7
Year: 2022

Elicitation Induced α-Amyrin Synthesis in Tylophora indica In Vitro Cultures and Comparative Phytochemical Analyses of In Vivo and Micropropagated Plants
Authors: J. Mamgain, A. Mujib, Y. Bansal, B. Gulzar, N. Zafar, R. Syeed, A. Alsughayyir, et al.
Citation: 5
Year: 2023

Somatic Embryogenesis in Catharanthus roseus: Proteomics of Embryogenic and Non-embryogenic Tissues; and Genome Size Analysis of Regenerated Plant
Authors: A. Mujib, M.Q. Malik, Y. Bansal, R. Syeed, B. Ejaz, J. Mamgain
Citation: 4
Year: 2022

An Efficient In Vitro Shoot Organogenesis and Comparative GC-MS Metabolite Profiling of Gaillardia pulchella Foug
Authors: M. Bansal, A. Mujib, Y. Bansal, Y.H. Dewir, N. Mendler-Drienyovszki
Citation: 3
Year: 2024

Synthesis and Accumulation of Phytocompounds in Field-, Tissue-Culture Grown (Stress) Root Tissues and Simultaneous Defense Response Activity in Glycyrrhiza glabra L.
Authors: Y. Bansal, A. Mujib, J. Mamgain, S. Kumar, Y.H. Dewir, K. Magyar-Tábori
Citation: 3
Year: 2024

Low Colchicine Doses Improved Callus Induction, Biomass Growth, and Shoot Regeneration in In Vitro Culture of Dracaena sanderiana Sander Ex Mast
Authors: A. Mujib, J. Aslam, Y. Bansal
Citation: 3
Year: 2023

In Vitro Propagation and Phytochemical Composition of Centratherum punctatum Cass—A Medicinal Plant
Authors: A. Talan, A. Mujib, B. Ejaz, Y. Bansal, Y.H. Dewir, K. Magyar-Tábori
Citation: 3
Year: 2023

Methyl Jasmonate Elicitation for In Vitro Lycorine Accumulation in Three Zephyranthes Species and Comparative Analysis of Tissue-Cultured and Field Grown Plants
Authors: R. Syeed, A. Mujib, Y.H. Dewir, M.Q. Malik, Y. Bansal, B. Ejaz, J. Mamgain, et al.
Citation: 3
Year: 2023

Influence of Arbuscular Mycorrhizal Fungi on the Growth and Development of Micropropagated Rubus fruticosus ‘P45’ Plants during Acclimatization
Authors: Y.H. Dewir, A.A. Al-Qarawi, T. Alshahrani, Y. Bansal, A. Mujib, H.N. Murthy, et al.
Citation: 3
Year: 2023

Indirect Organogenesis of Calendula officinalis L. and Comparative Phytochemical Studies of Field-Grown and In Vitro-Regenerated Tissues
Authors: T. Fatima, A. Mujib, Y. Bansal, Y.H. Dewir, N. Mendler-Drienyovszki
Citation: 1
Year: 2024

Comparative Transcriptome Analysis of Non-Organogenic and Organogenic Tissues of Gaillardia pulchella Revealing Genes Regulating De Novo Shoot
Authors: Y. Bansal, A. Mujib, M. Bansal, M. Mohsin, A. Nafees, Y.H. Dewir
Citation: –
Year: 2024

Integrated GC-MS and UPLC-ESI-QTOF-MS Based Untargeted Metabolomics Analysis of In Vitro Raised Tissues of Digitalis purpurea L
Authors: Y. Bansal, A. Mujib, J. Mamgain, R. Syeed, M. Mohsin, A. Nafees, Y.H. Dewir, et al.
Citation: –
Year: 2024