AIMS and SCOPE

AIMS and SCOPE

Registers of Physiology and Biological Physics is an open-access, peer-reviewed journal dedicated to publishing high-quality research articles, reviews, and communications that cover all aspects of physiology and biological physics. The journal aims to advance the understanding of the complex mechanisms underlying the functioning of living systems, from molecular and cellular levels to whole organisms and ecosystems. The journal welcomes submissions from researchers worldwide working in any area of physiology and biological physics.

The scope of Registers of Physiology and Biological Physics includes, but is not limited to:

  • Cellular physiology
  • Molecular physiology
  • Systems physiology
  • Comparative physiology
  • Neurophysiology
  • Cardiovascular physiology
  • Respiratory physiology
  • Gastrointestinal physiology
  • Renal physiology
  • Endocrine physiology
  • Reproductive physiology
  • Immunology
  • Pharmacology
  • Biophysics
  • Biological physics
  • Mathematical modeling in physiology
  • Integrative physiology
  • Ecology and environmental physiology
  • Evolutionary physiology
  • Developmental biology
  • Genetics
  • Biochemistry
  • Proteomics
  • Metabolomics
  • Genomics
  • Omics technologies

The journal also publishes articles on emerging technologies and techniques in physiology and biological physics, including imaging, bioinformatics, and nanotechnology.

Our goal is to provide a platform for researchers to disseminate their latest findings and ideas, and to stimulate scientific discussion and collaboration. The journal aims to be a valuable resource for physiologists, biological physicists, and researchers in related fields.

Keywords/Sub-topics:

  1. Cellular physiology
  2. Molecular physiology
  3. Systems physiology
  4. Comparative physiology
  5. Neurophysiology
  6. Cardiovascular physiology
  7. Respiratory physiology
  8. Gastrointestinal physiology
  9. Renal physiology
  10. Endocrine physiology
  11. Reproductive physiology
  12. Immunology
  13. Pharmacology
  14. Biophysics
  15. Biological physics
  16. Mathematical modeling in physiology
  17. Integrative physiology
  18. Ecology and environmental physiology
  19. Evolutionary physiology
  20. Developmental biology
  21. Genetics
  22. Biochemistry
  23. Proteomics
  24. Metabolomics
  25. Genomics
  26. Omics technologies
  27. Imaging
  28. Bioinformatics
  29. Nanotechnology
  30. Ion channels
  31. Signal transduction
  32. Membrane transport
  33. Energy metabolism
  34. Stress response
  35. Aging
  36. Cancer
  37. Neurodegeneration
  38. Cardiomyopathy
  39. Diabetes
  40. Obesity
  41. Infectious diseases
  42. Immunotherapy
  43. Stem cells
  44. Gene regulation
  45. Genome editing
  46. Epigenetics
  47. Biomaterials
  48. Synthetic biology
  49. Biomechanics
  50. Biomechanical modeling
  51. Physiological systems modeling
  52. Machine learning
  53. Artificial intelligence
  54. Data science
  55. Big data
  56. Open science
  57. Reproducibility
  1. Protein structure and function
  2. Radiobiology
  3. Regenerative medicine
  4. Reproductive physiology
  5. Respiratory physiology
  6. RNA biology
  7. Signal transduction
  8. Skeletal muscle physiology
  9. Stem cell biology
  10. Stress and adaptation
  11. Structural biology
  12. Systems biology
  13. Synthetic biology
  • Thermoregulation
  1. Tissue engineering
  2. Transcriptional regulation
  3. Transport physiology
  4. Tumor biology
  5. Vascular biology
  6. Viral immunology
  7. Viral pathogenesis
  8. Viral replication
  9. Virus-host interactions
  • Vision science
  1. Xenobiotic metabolism
  2. Muscle physiology
  3. Myogenesis
  4. Neuroendocrinology
  5. Neuroimmunology
  6. Neuromuscular physiology
  7. Obesity physiology
  8. Oncology
  9. Ophthalmic physiology
  • Oral physiology
  1. Osteology
  2. Otolaryngology
  3. Pain physiology
  4. Pathophysiology
  5. Pediatric physiology
  6. Pharmacology
  7. Physiology education
  8. Plant physiology
  9. Pregnancy physiology
  10. Pulmonary physiology
  11. Quantitative physiology
  12. Radiation biology
  13. Renal physiology
  14. Reproductive physiology
  15. Respiratory physiology
  16. Sarcopenia
  17. Sensory physiology
  18. Signal transduction
  19. Sleep physiology
  20. Speech physiology
  21. Stem cell physiology
  22. Stress physiology
  23. Structural biology
  24. Synaptic physiology
  25. Systems biology
  26. Systems physiology
  27. Toxicology
  28. Translational physiology
  29. Transplantation physiology
  30. Transport physiology
  31. Trauma physiology
  32. Tumor physiology
  33. Vascular biology
  34. Vascular physiology
  35. Vision physiology
  36. Vocal physiology
  37. Women's health physiology
  38. Wound healing physiology
  39. Xenobiotic metabolism
  40. Zoology
  41. zebrafish physiology
  42. Model organisms in physiology
  43. Enzymology
  44. Neurological disorders
  45. Hormonal regulation
  46. Cardiac output
  47. Biomedical research methods
  48. Bioengineering
  49. Ecological physiology
  50. Immunology
  51. Cell signaling
  52. Cell metabolism
  53. Gene regulation
  54. Epigenetics
  55. Aging physiology
  56. Mitochondrial physiology
  57. Biochemical pathways
  58. Electrophysiology
  59. Cryobiology
  60. Cardiopulmonary resuscitation (CPR)
  61. Biophysics
  62. Ion channels
  63. Bioinformatics
  64. Single-cell physiology
  65. Functional genomics
  66. Evolutionary physiology.
  1. Pharmacology and toxicology
  2. Proteomics
  3. Pulmonary physiology
  4. Radiobiology
  5. Regenerative medicine
  6. Reproductive physiology
  7. Signal transduction
  8. Sleep physiology
  9. Stem cells
  10. Structural biology
  11. Systems biology
  12. Synthetic biology
  13. Tissue engineering
  14. Transcriptional regulation
  15. Translational research
  16. Transport physiology
  17. Vascular physiology
  18. Viral pathogenesis
  19. Virology
  20. Xenobiotics metabolism
  21. Aging and senescence
  22. Alternative medicine
  23. Biochemistry
  24. Bioethics
  25. Biological rhythms
  26. Biomechanics
  27. Biomedical engineering
  28. Biophysics
  29. Cancer biology
  30. Cardiovascular physiology
  31. Cell adhesion and migration
  32. Cell differentiation and development
  33. Cell growth and division
  34. Cell signaling and communication
  35. Cell structure and function
  36. Chemical biology
  37. Clinical trials
  38. Computational biology
  39. Cytopathology

In conclusion, the "Registers of Physiology and Biological Physics" journal aims to publish high-quality research articles related to the broad areas of physiology and biological physics, with a focus on understanding the underlying mechanisms of biological processes at various levels, from molecular to systemic. Our mission is to provide a platform for scientists to share their innovative ideas and discoveries, and our vision is to promote advancements in the field of physiology and biological physics for the betterment of human health. We hope to attract researchers from diverse backgrounds and facilitate interdisciplinary collaborations through our open-access publishing model.