Our Mission
RootToReceptor aims to advance the scientific understanding of how biofield sciences, consciousness-based practices, integrative and traditional healing modalities influence human energetics, molecular signaling and physiological regulation to restore balance and promote holistic well-being.
Our mission is to bridge the long-standing gap between modern biomedical science and consciousness-based healing practices through rigorous evidence-based and transdisciplinary research. RootToReceptor seeks to develop a unified model that explains how energy, emotions and inherited energetic or epigenetic patterns influence health, and how these healing modalities regulate the system back toward coherence and wholeness. The initiative works to illuminate the mechanisms that connect consciousness with biology and to advance the scientific understanding of human healing and resilience.
Our Purpose
RootToReceptor serves as both a scientific research platform and an educational bridge for integrative medicine and health. Its purpose is to translate emerging scientific insights into awareness, education and empowerment.
Through collaborative research, consultation and advisory services and public education initiatives, RootToReceptor works to make the science of healing accessible, practical and evidence informed. It encourages conscious engagement in self-care and community wellness by inviting individuals to explore the interplay of mind, body and spirit through knowledge, reflection and experiential learning.
By integrating science with ancient wisdom traditions, RootToReceptor brings the study of healing into everyday life. It helps people reconnect with their innate intelligence and the natural coherence of the human system, from the root cause to the receptor level where biology and consciousness meet.
Meet the Founder
Dr. Suchita Pande earned a PhD in Biomedical Engineering and Biotechnology from the University of Massachusetts Lowell, USA. Her doctoral training focused on molecular and structural biology with an emphasis on protein-level mechanisms and molecular regulation. She completed postdoctoral research in molecular cardiology and cardiovascular science at Tufts Medical Center, Boston, USA. She has served as an Assistant Professor at UPES, Dehradun, India, in the School of Health Sciences and Technology.
Her curiosity about healing deepened through her own experience of recovery and renewed self-awareness. Through lived experience with Reiki, yoga, and sound-based practices, she observed shifts in inner coherence and regulation that felt meaningful in the body. This led her to explore how these modalities may influence physiology through modulation of molecular signaling, epigenetics and gene regulation, and systems-level regulation.
RootToReceptor™ is a transdisciplinary platform that convenes scientific, clinical, and practitioner perspectives to build research frameworks and investigate mechanisms of stress regulation, molecular signaling, epigenetics and gene regulation, and whole-system coherence across consciousness-informed modalities. These include yoga, meditation, Ayurveda, nutrition, biofield science, Reiki and energy medicine, and sound- and vibration-based therapies.
Dr. Pande is also committed to science-based public education in this space. She aims to translate emerging evidence into accessible workshops, talks, and learning programs for students, practitioners, and the wider public, while strengthening research literacy and supporting meaningful collaboration between scientific, clinical, and practitioner communities.
Selected Peer-Reviewed Publications
Featured publications reflecting mechanistic cardiovascular biology and structural protein science.
- MLK3 mediates impact of PKG1α on cardiac function and controls blood pressure through separate mechanisms. JCI Insight (2021).
- Mixed lineage kinase 3 requires a functional CRIB domain for regulation of blood pressure, cardiac hypertrophy, and left ventricular function. American Journal of Physiology: Heart and Circulatory Physiology (2022).
- The splicing factor hnRNPL demonstrates conserved myocardial regulation across species and is altered in heart failure. FEBS Letters (2024).
- Structural basis of a point mutation that causes the genetic disease aspartylglucosaminuria. Structure (2014).
- The T99K variant of glycosylasparaginase shows a new structural mechanism of the genetic disease aspartylglucosaminuria. Protein Science (2019).
Research Profiles : Google Scholar | ORCID