AIMS and SCOPES:

The aim of Records of Cell & Bioscience is to publish original research articles, reviews, and letters in all areas of cell and bioscience. We seek to provide a platform for researchers to share their findings and contribute to the advancement of science.

Our scope encompasses a broad range of topics in cell and bioscience, including but not limited to:

Molecular biology: Our scope includes research on the structure and function of DNA, RNA, and proteins, as well as the mechanisms

Involved in gene expression, DNA replication, and DNA repair.

Cell biology: Our scope includes research on the structure and function of cells, including their organelles, membranes, and cytoskeleton. We welcome research on cellular processes such as cell signaling, cell cycle regulation, and cell differentiation.

Genetics: Our scope includes research on the heredity and variation of genes and genomes, as well as the mechanisms involved in genetic inheritance, gene expression, and genetic disease.

Immunology: Our scope includes research on the immune system, including the cells, molecules, and processes involved in immune responses to pathogens and foreign substances.

Biochemistry: Our scope includes research on the chemical processes that occur within living organisms, including the structure and function of enzymes, proteins, and metabolites.

Microbiology: Our scope includes research on microorganisms, including bacteria, viruses, fungi, and protists. We welcome research on microbial ecology, evolution, and pathogenesis.

Biophysics: Our scope includes research on the physical principles that underlie biological processes, including the study of biomolecules and biological systems using physical and mathematical approaches.

Neuroscience: Our scope includes research on the structure and function of the nervous system, including the brain, spinal cord, and peripheral nerves. We welcome research on neural development, plasticity, and disease.

Developmental biology: Our scope includes research on the processes involved in the development of organisms from fertilization to adulthood. We welcome research on embryonic development, organogenesis, and regeneration.

Cancer biology: Our scope includes research on the mechanisms involved in the development and progression of cancer, as well as the identification of new targets for cancer therapy.

Stem cell research: Our scope includes research on the biology of stem cells, including their properties, differentiation, and potential applications in regenerative medicine.

Systems biology: Our scope includes research on the integration of experimental and computational approaches to understand complex biological systems, including networks of genes, proteins, and metabolites.

Computational biology: Our scope includes research on the development and application of computational methods to analyze biological data, including genomics, proteomics, and metabolomics.

In addition to original research articles, we welcome reviews and letters that provide critical analysis or perspectives on recent advances in the field. We also encourage submissions that highlight new technologies or methods that have the potential to advance cell and bioscience research.

As an open access journal, we are committed to making our articles freely available to readers worldwide. We believe that open access publishing is essential for the dissemination of scientific knowledge and encourages greater collaboration and innovation in the field.

We adhere to rigorous ethical and publishing standards, including the guidelines established by the Committee on Publication Ethics (COPE). We require all authors to disclose any conflicts of interest, provide data and materials necessary for replication of their research, and ensure that their research is conducted in an ethical and responsible manner.

Our peer review process is designed to ensure that all research articles published in Records of Cell & Bioscience meet the highest standards of quality and scientific rigor. We provide prompt, thorough, and constructive feedback to authors and aim to publish accepted articles as quickly as possible.

In conclusion, Records of Cell & Bioscience is an international open access journal that aims to publish high-quality research in all areas of cell and bioscience. Our mission is to provide a platform for researchers to share their findings and contribute to the advancement of science. Our vision is to be a leading journal in the field, widely read and respected by researchers, policymakers, funding agencies, and the wider public. We welcome submissions from researchers around the world and are committed to upholding rigorous ethical and publishing standards.

Our AIMS and SCOPES

The scope of Records of Cell & Bioscience is broad, covering research in all areas of cell and bioscience. We are particularly interested in research that advances our understanding of the fundamental processes of life, including the structure and function of cells, the regulation of gene expression, and the mechanisms of disease.

Our Aims

1. To publish high-quality research in all areas of cell and bioscience, including molecular biology, cell biology, genetics, immunology, biochemistry, microbiology, biophysics, neuroscience, developmental biology, cancer biology, stem cell research, systems biology, and computational biology.
2. To provide a platform for researchers to share their findings and contribute to the advancement of science, by publishing original research articles, reviews, and letters.
3. To promote open access publishing and ensure that our articles are freely available to readers worldwide, thereby enhancing the visibility and impact of our authors' research.
4. To uphold rigorous ethical and publishing standards, including the guidelines established by the Committee on Publication Ethics (COPE), and to ensure that our peer review process is fair, thorough, and constructive.
5. To be a leading journal in the field of cell and bioscience, widely read and respected by researchers, policymakers, funding agencies, and the wider public.

Our Scopes

1. Molecular biology: gene expression, DNA replication, DNA repair, and RNA processing.
2. Cell biology: the structure and function of cells, including organelles, membranes, and cytoskeleton; cellular processes such as cell signaling, cell cycle regulation, and cell differentiation.
3. Genetics: the heredity and variation of genes and genomes, genetic inheritance, gene expression, and genetic disease.
4. Immunology: the immune system, including the cells, molecules, and processes involved in immune responses to pathogens and foreign substances.
5. Biochemistry: the chemical processes that occur within living organisms, including the structure and function of enzymes, proteins, and metabolites.
6. Microbiology: microorganisms, including bacteria, viruses, fungi, and protists; microbial ecology, evolution, and pathogenesis.
7. Biophysics: the physical principles that underlie biological processes, including the study of biomolecules and biological systems using physical and mathematical approaches.
8. Neuroscience: the structure and function of the nervous system, including the brain, spinal cord, and peripheral nerves; neural development, plasticity, and disease.
9. Developmental biology: the processes involved in the development of organisms from fertilization to adulthood; embryonic development, organogenesis, and regeneration.
10. Cancer biology: the mechanisms involved in the development and progression of cancer, identification of new targets for cancer therapy.
11. Stem cell research: the biology of stem cells, including their properties, differentiation, and potential applications in regenerative medicine.
12. Systems biology: the integration of experimental and computational approaches to understand complex biological systems, including networks of genes, proteins, and metabolites.
13. Computational biology: the development and application of computational methods to analyze biological data, including genomics, proteomics, and metabolomics.

In conclusion, Records of Cell & Bioscience is a high-quality open access journal that welcomes submissions from researchers around the world in all areas of cell and bioscience. Our mission is to provide a platform for researchers to share their findings and contribute to the advancement of science, while upholding rigorous ethical and publishing standards. We aim to be a leading journal in the field, widely read and respected by researchers, policymakers, funding agencies, and the wider public.

Some other keywords or sub-topics that could be relevant to our new journal, Records of Cell & Bioscience, include:

• Gene regulation: mechanisms that control the expression of genes, including transcription factors, chromatin remodeling, and epigenetics.
• Protein structure and function: the structure and function of proteins, including enzymes, receptors, and transporters.
• Metabolism: the chemical processes that convert nutrients into energy and molecules required for cellular functions.
• Cell signaling: the mechanisms that cells use to communicate with each other, including the signaling pathways involved in growth, differentiation, and apoptosis.
• Infectious diseases: the study of pathogens and the immune response to infections, including the development of vaccines and antiviral therapies.
• Molecular genetics: the study of the molecular basis of genetic processes, including DNA replication, recombination, and repair.
• Omics: the analysis of large-scale biological data sets, including genomics, proteomics, and metabolomics.
• Single-cell biology: the study of individual cells, including their heterogeneity and interactions with other cells.
• Biotechnology: the use of living organisms or their components for the development of new products or technologies, including recombinant proteins, gene therapy, and synthetic biology.
• Neurodegenerative diseases: diseases that affect the nervous system, including Alzheimer's disease, Parkinson's disease, and Huntington's disease.
• Epigenetics: the study of heritable changes in gene expression that do not involve changes to the underlying DNA sequence, including DNA methylation and histone modification.
• Bioinformatics: the use of computational methods to analyze biological data, including the development of algorithms and software tools for data analysis and visualization.
• Synthetic biology: the engineering of biological systems for specific applications, including the design of new proteins, metabolic pathways, and gene circuits.
• Stem cell therapies: the development of new therapies based on the use of stem cells, including the regeneration of damaged tissues and the treatment of genetic diseases.
• CRISPR/Cas9: a revolutionary gene-editing technology that allows the precise modification of DNA sequences in living organisms.
• Nanobiotechnology: the use of nanotechnology in biological applications, including the development of nanoscale devices for drug delivery and biosensors.
• Evolutionary biology: the study of the processes that drive the diversity and adaptation of living organisms, including natural selection, genetic drift, and speciation.
• Proteomics: the study of the structure and function of proteins at the whole-protein level, including the identification and quantification of protein expression and post-translational modifications.
• Biomedical engineering: the application of engineering principles to biological systems, including the development of medical devices, biomaterials, and tissue engineering.
• Plant biology: the study of plants, including their structure, function, and interactions with the environment.
• Epitranscriptomics: the study of chemical modifications to RNA molecules that affect their function, stability, and translation.
• Host-pathogen interactions: the study of the interactions between pathogens and their hosts, including the mechanisms of infection, immune evasion, and virulence.
• Structural biology: the study of the three-dimensional structure of biological molecules, including proteins, nucleic acids, and carbohydrates.
• Bioenergetics: the study of the conversion of energy in living organisms, including the mechanisms of ATP synthesis and electron transport.
• Cell engineering: the development of techniques for the manipulation and control of cellular processes, including gene editing, synthetic biology, and tissue engineering.

As an open access journal, Records of Cell & Bioscience will also adhere to all relevant regulations from organizations such as the Committee on Publication Ethics (COPE), the International Committee of Medical Journal Editors (ICMJE), and the World Association of Medical Editors (WAME). We will also ensure that our

publication processes are transparent, fair, and ethical, with rigorous peer review and editorial processes in place to maintain the quality and integrity of our published content.

In addition, as an open access journal, we will strive to make our content accessible to as wide an audience as possible, regardless of their geographic location or financial situation. Our articles will be freely available online, without any paywalls or subscription fees, and we will actively promote our content through various channels to ensure that it reaches a broad readership.

Overall, our mission at Records of Cell & Bioscience is to provide a high-quality platform for the publication of cutting-edge research in all areas of cell and bioscience, with a particular emphasis on novel discoveries and innovative approaches. We believe that our journal has the potential to make a significant impact in the field, and we look forward to working with our authors, reviewers, and readers to achieve this goal.

Keywords/Subtopics:

1. Cell biology
2. Bioscience
3. Molecular biology
4. Genetics
5. Biochemistry
6. Proteins
7. DNA
8. RNA
9. Epigenetics
10. Chromatin
11. Genome
12. Genomics
13. Transcription
14. Translation
15. Gene expression
16. Gene regulation
17. DNA replication
18. DNA repair
19. Mitosis
20. Meiosis
21. Cell cycle
22. Apoptosis
23. Autophagy
24. Cell signaling
25. Signal transduction
26. Receptors
27. Ligands
28. Growth factors
29. Hormones
30. Cytokines
31. Kinases
32. Phosphatases
33. G proteins
34. Second messengers
35. Ion channels
36. Transporters
37. Membrane trafficking
38. Membrane fusion
39. Secretion
40. Endocytosis
41. Exocytosis
42. Vesicles
43. Lipids
44. Metabolism
45. Glycolysis
46. TCA cycle
47. Oxidative phosphorylation
48. ATP synthase
49. Photosynthesis
50. Chloroplasts
51. Mitochondria
52. Peroxisomes
53. Lysosomes
54. Endoplasmic reticulum
55. Golgi apparatus
56. Nucleus
57. Nucleolus
58. Nuclear pore complex
59. Nuclear lamina
60. Histones
61. Chromosomes
62. Telomeres
63. Telomerase
64. Spliceosomes
65. Ribosomes
66. Translation initiation
67. Translation elongation
68. Translation termination
69. Protein folding
70. Chaperones
71. Protein degradation
72. Ubiquitin
73. Proteasome
74. Autophagy-lysosomal pathway
75. Genome editing
76. CRISPR
77. TALENs
78. Zinc fingers
79. Epitranscriptomics
80. DNA methylation
81. Histone modification
82. Chromatin remodeling
83. Non-coding RNAs
84. MicroRNAs
85. Long non-coding RNAs
86. Circular RNAs
87. RNA splicing
88. RNA editing
89. RNA degradation
90. RNA transport
91. Alternative splicing
92. Alternative polyadenylation
93. Gene fusions
94. Transposable elements
95. Retroviruses
96. Endogenous retroviruses
97.             Telomere lengthening
98.             Telomere shortening
99.             Telomere dysfunction
100. Telomere diseases
101. Aging
102. Senescence
103. Cellular reprogramming
104. Pluripotency
105. Differentiation
106. Stem cells
107. Embryonic stem cells
108. Induced pluripotent stem cells
109. Neural stem cells
110. Hematopoietic stem cells
111. Cancer stem cells
112. Regeneration
113. Tissue engineering
114. Organoids
115. 3D printing
116. Biomaterials
117. Extracellular matrix
118. Cell adhesion
119. Cell migration
120. Cell polarity
121. Cytoskeleton
122. Actin
123. Microtubules
124. Intermediate filaments
125. Motor proteins
126. Axoneme
127. Cilia
128. Flagella
129. Centrosome
130. Centrioles
131. Cell division
132. Mitotic spindle
133. Kinetochore
134. Checkpoints
135. Cyclins
136. Cyclin-dependent kinases
137. Tumor suppressors
138. Oncogenes
139. DNA damage response
140. Replicative stress
141. DNA replication stress
142. Apoptotic resistance
143. Epithelial-mesenchymal transition
144. Cell adhesion molecules
145. Integrins
146. Cadherins
147. E-cadherin
148. N-cadherin
149. Adherens junctions
150. Tight junctions
151. Gap junctions
152. Desmosomes
153. Focal adhesions
154. Extracellular vesicles
155. Exosomes
156. Microvesicles
157. Tumor microenvironment
158. Cancer immunology
159. Immune checkpoints
160. T cell activation
161. T cell exhaustion
162. T cell anergy
163. Tumor infiltrating lymphocytes
164. CAR T cells
165. Chimeric antigen receptor
166. Immunotherapy
167. Checkpoint inhibitors
168. PD-1
169. CTLA-4
170. Tumor antigens
171. Neoantigens
172. Tumor immunosurveillance
173. Tumor heterogeneity
174. Tumor evolution
175. Clonal selection
176. Immune evasion
177. Immune editing
178. Tumor progression
179. Metastasis
180. Invasion
181. Angiogenesis
182. Hypoxia
183. Cancer metabolism
184. Warburg effect
185. Glycolytic switch
186. Mitochondrial metabolism
187. Oncogenic signaling pathways
188. MAPK/ERK pathway
189. PI3K/AKT pathway
190. Wnt signaling pathway
191. Hedgehog signaling pathway
192. Notch signaling pathway
193. JAK/STAT pathway
194. TGF-beta signaling pathway
195. Hippo signaling pathway
196. mTOR signaling pathway
197. NF-kB signaling pathway
198. Apoptotic pathways
199. Death receptor pathways
200. Intrinsic pathway