AIMS and SCOPE

AIMS and SCOPES:

The Journal of Research in Fungal Biology aims to publish original research articles, reviews, and other scientific content in the field of fungal biology. The journal welcomes submissions on the following topics, but not limited to:

  • Fungal ecology and biogeography
  • Fungal physiology and metabolism
  • Fungal genetics and genomics
  • Fungal cell biology and molecular biology
  • Fungal pathogenesis and host-pathogen interactions
  • Fungal systematics and taxonomy
  • Fungal evolution and biodiversity
  • Fungal biotechnology and industrial applications
  • Fungal ecology and conservation
  • Fungal interactions with other microorganisms

We encourage submissions from researchers, scientists, and scholars from diverse backgrounds and disciplines, including but not limited to mycology, microbiology, ecology, evolution, biotechnology, and bioinformatics.

As an open-access journal, we adhere to all necessary regulations and guidelines set forth by various organizations. We ensure that published research adheres to ethical standards and guidelines, and that all authors are given proper credit for their contributions. We are committed to promoting transparency, reproducibility, and open science in fungal biology research.

In summary, the Journal of Research in Fungal Biology aims to provide a platform for researchers, scientists, and scholars to share their innovative research ideas, findings, and insights on various aspects of fungal biology. Our mission is to promote and disseminate high-quality research in the field of fungal biology, and our vision is to become a leading open-access journal in the field. We welcome submissions from diverse backgrounds and disciplines, and we adhere to all necessary regulations and guidelines to promote transparency and ethical standards in fungal biology research.

Keyword/Subtopics:

  1. Fungal ecology
  2. Biogeography of fungi
  3. Fungal physiology
  4. Fungal metabolism
  5. Fungal genetics
  6. Fungal genomics
  7. Fungal cell biology
  8. Fungal molecular biology
  9. Fungal pathogenesis
  10. Host-pathogen interactions in fungi
  11. Fungal systematics
  12. Fungal taxonomy
  13. Fungal evolution
  14. Fungal biodiversity
  15. Fungal biotechnology
  16. Fungal industrial applications
  17. Fungal ecology and conservation
  18. Fungal interactions with other microorganisms
  19. Fungal growth and development
  20. Fungal morphology
  21. Fungal reproduction
  22. Fungal spores
  23. Fungal mycelium
  24. Fungal toxins
  25. Fungal secondary metabolites
  26. Fungal diseases
  27. Fungal infections
  28. Fungal immune response
  29. Fungal virulence factors
  30. Fungal resistance mechanisms
  31. Fungal adaptation
  32. Fungal symbiosis
  33. Fungal mutualism
  34. Fungal commensalism
  • Fungal parasitism
  1. Fungal endophytes
  • Fungal biogeography
  • Fungal communities
  • Fungal diversity
  1. Fungal taxonomy and classification
  2. Fungal systematics and phylogeny
  3. Fungal biogeography and distribution patterns
  4. Fungal biogeography and environmental factors
  5. Fungal biogeography and biotic interactions
  6. Fungal biogeography and climate change
  7. Fungal biogeography and conservation
  8. Fungal biogeography and ecosystem services
  9. Fungal biogeography and human health
  10. Fungal biogeography and agriculture
  11. Fungal biotechnology and bioprospecting
  12. Fungal biotechnology and biofuels
  13. Fungal biotechnology and food production
  • Fungal biotechnology and pharmaceuticals
  1. Fungal biotechnology and enzymes
  2. Fungal biotechnology and bioremediation
  • Fungal biotechnology and plant growth promotion
  1. Fungal biotechnology and stress tolerance
  2. Fungal biotechnology and biocontrol
  3. Fungal biotechnology and bioreactors
  4. Fungal biotechnology and fermentation
  5. Fungal biotechnology and waste management
  6. Fungal biotechnology and sustainability
  7. Fungal biotechnology and circular economy
  8. Fungal biotechnology and innovation
  • Fungal genetics and genomics
  1. Fungal molecular biology and biochemistry
  • Fungal transcriptomics and proteomics
  • Fungal epigenetics
  • Fungal gene expression
  1. Fungal gene regulation
  2. Fungal gene editing
  3. Fungal genetic engineering
  • Fungal genome sequencing
  1. Fungal comparative genomics
  2. Fungal functional genomics
  • Fungal population genetics
  1. Fungal genetic diversity
  2. Fungal genetic adaptation
  3. Fungal genetic variability
  4. Fungal genetic evolution
  5. Fungal genetics and disease resistance
  6. Fungal genetics and virulence
  • Fungal genetics and symbiosis
  1. Fungal genetics and mutualism
  2. Fungal genetics and biotechnology
  • Fungal genetics and bioremediation
  1. Fungal genetics and plant-fungi interactions
  2. Fungal genetics and ecosystem services
  3. Fungal genetics and conservation
  4. Fungal genetics and evolutionary biology
  5. Fungal physiology and metabolism
  6. Fungal nutrient uptake
  7. Fungal respiration
  8. Fungal photosynthesis
  9. Fungal energy storage
  10. Fungal signal transduction
  11. Fungal stress responses
  12. Fungal osmoregulation
  13. Fungal ion homeostasis
  14. Fungal pH regulation
  15. Fungal carbon and nitrogen metabolism
  16. Fungal lipid metabolism
  17. Fungal polysaccharide metabolism
  18. Fungal enzymology
  19. Fungal proteomics
  20. Fungal metabolomics
  21. Fungal metabolites and their roles
  22. Fungal signaling and communication
  23. Fungal extracellular vesicles
  24. Fungal biofilms
  25. Fungal quorum sensing
  26. Fungal adhesion
  27. Fungal invasion
  28. Fungal penetration
  29. Fungal degradation of biopolymers
  30. Fungal lignocellulose degradation
  31. Fungal chitin and cellulose degradation
  32. Fungal lignin degradation
  33. Fungal enzymes and biodegradation
  34. Fungal enzymes and biorefineries
  35. Fungal enzymes and waste valorization
  36. Fungal enzymes and food processing
  37. Fungal enzymes and paper industry
  38. Fungal enzymes and textile industry
  39. Fungal enzymes and pharmaceuticals
  40. Fungal enzymes and cosmetics
  41. Fungal enzymes and biopesticides
  42. Fungal enzymes and biofuels
  43. Fungal enzymes and biotechnology
  44. Fungal enzymes and molecular evolution
  45. Fungal enzymes and protein engineering
  46. Fungal enzymes and directed evolution
  47. Fungal enzymes and enzyme immobilization
  48. Fungal enzymes and enzyme optimization
  49. Fungal enzymes and enzyme kinetics
  50. Fungal enzymes and enzyme structure
  51. Fungal enzymes and enzyme function
  52. Fungal enzymes and enzyme mechanism
  53. Fungal enzymes and enzyme regulation
  54. Fungal enzymes and enzyme inhibitors
  55. Fungal enzymes and enzyme purification
  56. Fungal enzymes and enzyme production
  57. Fungal enzymes and enzyme applications
  58. Fungal enzymes and enzyme technology
  59. Fungal enzymes and enzyme-based biosensors
  60. Fungal enzymes and enzyme-based bioreactors
  61. Fungal enzymes and enzyme-based diagnostics
  62. Fungal enzymes and enzyme-based therapies
  63. Fungal enzymes and enzyme-based biocatalysis
  64. Fungal enzymes and enzyme-based synthesis
  65. Fungal enzymes and enzyme-based bioconjugation
  66. Fungal enzymes and enzyme-based nanotechnology
  67. Fungal enzymes and enzyme-based drug delivery
  68. Fungal enzymes and enzyme-based biomanufacturing
  69. Fungal enzymes and enzyme-based green chemistry
  70. Fungal enzymes and enzyme-based biotechnology
  71. Fungal enzymes and enzyme-based bioinformatics
  72. Fungal enzymes and enzyme-based high-throughput screening
  73. Fungal enzymes and enzyme-based automation
  74. Fungal enzymes and enzyme-based industrial processes
  75. Fungal enzymes and enzyme-based quality control
  76. Fungal enzymes and enzyme-based process optimization
  77. Fungal enzymes and enzyme-based scale-up
  78. Fungal enzymes and enzyme-based commercialization
  79. Fungal enzymes and enzyme-based business models
  80. Fungal enzymes and enzyme-based intellectual property
  81. Fungal enzymes and enzyme-based regulations
  82. Fungal enzymes and enzyme-based safety
  83. Fungal enzymes and enzyme-based ethical considerations
  84. Fungal enzymes and enzyme-based sustainability
  85. Fungal enzymes and enzyme-based circular economy
  86. Fungal enzymes and enzyme-based social responsibility
  87. Fungal enzymes and enzyme
  88. Fungal diversity and systematics
  89. Fungal taxonomy
  90. Fungal phylogeny
  91. Fungal evolution
  92. Fungal genetics
  93. Fungal genomics
  94. Fungal transcriptomics
  95. Fungal epigenetics
  96. Fungal epigenomics
  97. Fungal metagenomics
  98. Fungal population genetics
  99. Fungal evolutionary ecology
  100. Fungal biogeography
  101. Fungal symbiosis
  102. Fungal mutualism
  103. Fungal commensalism
  104. Fungal parasitism
  105. Fungal pathogenesis
  106. Fungal host-pathogen interactions
  107. Fungal immunity
  108. Fungal biocontrol
  109. Fungal endophytes
  110. Fungal mycorrhizae
  111. Fungal lichens
  112. Fungal ecology
  113. Fungal biogeography

In conclusion, the Journal of Research in Fungal Biology aims to provide a platform for researchers, academics, and professionals to publish and access high-quality research in all areas of fungal biology. The journal's mission is to promote the advancement of knowledge and understanding of fungal biology and its applications, and to contribute to the development of sustainable solutions for societal challenges through interdisciplinary research.

The journal's vision is to be recognized as a leading open-access journal in the field of fungal biology, promoting the dissemination of innovative and impactful research worldwide. The journal's aims and scope encompass a broad range of topics, including but not limited to fungal physiology, ecology, genomics, biotechnology, and bioinformatics.

Furthermore, the journal is committed to upholding the highest standards of scientific integrity and ethical conduct in publishing research. It adheres to all necessary regulations from organizations and ensures that authors follow the guidelines for open-access publishing. Overall, the Journal of Research in Fungal Biology aims to foster collaboration and communication among researchers and contribute to the advancement of knowledge in the field of fungal biology.