Aims and Scope:

AOJ Proteomics & Bioinformatics (AOJPB) stands as an esteemed peer-reviewed journal, committed to advancing the fields of proteomics and bioinformatics by providing a comprehensive platform for researchers, scientists, and practitioners to disseminate their groundbreaking findings and innovative advancements. With a broad scope covering diverse areas within these disciplines, AOJPB serves as a hub for cutting-edge research articles, comprehensive reviews, and concise short communications, fostering scientific collaboration and propelling the fields forward.

At the core of AOJPB lies the exploration of proteomics, an area of study dedicated to unraveling the intricate world of proteins. The journal welcomes contributions that focus on the identification, characterization, and quantification of proteins, shedding light on their functions, interactions, and dynamic roles in biological systems. These research articles delve into diverse aspects, including protein expression profiling, post-translational modifications, protein-protein interactions, and the exploration of proteomic biomarkers. By showcasing the latest advancements in proteomics, AOJPB enables researchers to better understand the complex machinery governing cellular processes and disease mechanisms.

In tandem with proteomics, AOJPB also embraces the field of bioinformatics, which plays a pivotal role in unraveling the vast amount of biological data generated by proteomic studies. The journal invites contributions that harness bioinformatics tools and techniques to analyze, interpret, and extract meaningful insights from proteomic data. These articles delve into diverse areas, such as protein structure prediction, protein sequence analysis, protein function annotation, and the development of computational algorithms and models. By highlighting the fusion of biology and computer science, AOJPB empowers researchers to leverage the power of bioinformatics in unraveling the intricacies of proteomic datasets.

Comprehensive reviews featured in AOJPB critically analyze the current body of knowledge within proteomics and bioinformatics, offering insightful summaries of existing research, identifying emerging trends, and addressing current challenges. These reviews serve as valuable resources that not only enhance researchers’ understanding of specific areas within these disciplines but also guide the development of future research directions. By synthesizing information from diverse sources, AOJPB aids in consolidating knowledge, identifying knowledge gaps, and paving the way for innovative discoveries.

AOJPB also provides a platform for concise short communications, enabling researchers to swiftly share novel findings, preliminary data, or exciting breakthroughs in the field. These communications serve as a catalyst for timely discussions, facilitating the dissemination of emerging knowledge and encouraging collaboration among researchers and scientists.

Moreover, AOJPB emphasizes the importance of multidisciplinary approaches and the integration of various analytical techniques in proteomics and bioinformatics. The journal welcomes studies that combine experimental and computational methods, fostering synergy between laboratory-based research and computational analysis. By embracing this multidimensional perspective, AOJPB promotes a holistic understanding of the complex interplay between proteins, biological systems, and computational frameworks.

To ensure the quality and relevance of published articles, AOJPB boasts a distinguished editorial board comprising leading experts, esteemed researchers, and accomplished practitioners in the fields of proteomics and bioinformatics. These experts contribute their expertise, conduct rigorous peer-review evaluations, and guide the journal’s strategic direction. Their invaluable contributions safeguard the integrity and scientific rigor of AOJPB, solidifying its position as a trusted source of groundbreaking research in proteomics and bioinformatics.

In summary, AOJ Proteomics & Bioinformatics (AOJPB) serves as a premier peer-reviewed journal, providing a dynamic platform for researchers, scientists, and practitioners to disseminate their discoveries, share scientific expertise, and showcase innovative advancements in the captivating fields of proteomics and bioinformatics. Through the publication of original research articles, comprehensive reviews, and concise short communications, AOJPB facilitates scientific collaboration, promotes interdisciplinary approaches, and fosters the advancement of proteomics and bioinformatics research.

Classification:

1. Proteins
2. Genomics
3. Metabolic Pathways
4. Proteomics
5. Proteomics Review
6. Quantitative Proteomics
7. Transcriptomics
8. Protein Detection
9. Protein Biomarkers
10. Microarrays
11. Protein Annotation
12. Molecular Interactions
13. Immunoproteomics
14. Glycoproteomics
15. Protein Chips
16. Protein Modifications
17. Chemical Genomics
18. Genome Scale Kinetic Modeling
19. Molecular Biomarkers
20. Proteomics Engineering
21. Plasma Proteomics
22. Serum Proteomics
23. Shotgun Proteomics
24. Disease Proteomics
25. Urine Proteomics
26. Tissue Proteomics
27. Targeted Proteomics
28. Itraq Proteomics
29. Bioinformatics Analysis
30. Bioinformatics Review
31. Bioinformatics Tools
32. Cancer Bioinformatics
33. Sequencing Bioinformatics
34. Bioinformatics Cancer
35. Bioinformatics Drug
36. Analysis Bioinformatics
37. Proteomics Bioinformatics
38. Bioinformatics Protein
39. Next Generation Sequencing Bioinformatics
40. Translational Bioinformatics
41. Big Data ioinformatics
42. Clinical proteomics
43. Proteomic analysis of post-translational modifications
44. Proteomic applications for the early detection of cancer
45. Proteomics in neuroscience
46. Cancer Proteomics
47. Regulation of cellular pathways: Role of PTMs
48. Microvesicle and organelle proteomics
49. Proteogenomics
50. Proteomics of obesity and related metabolic liver disorders
51. Phosphoproteomics
52. New trends in biomarker discovery
53. Non-human and food proteomics
54. Immunobiology and cell signalling
55. REDOX proteomics and mitochondrial biology
56. Top-down proteomics and macromolecular complexes
57. Integrative proteomics and systems biology
58. Inflammatory and rheumatic diseases
59. Glycomics in biology and diseases
60. Proteomics of human microbiome and infectious diseases
61. Standardisation in proteomics
62. Cardiovascular and haematological proteomics
63. Neurological disorders
64. Technological horizons MS imaging
65. targeted proteomics
66. others
67. Proteomics of neglected tropical diseases
68. Interactomics and beyond. Protein networks and pathways
69. Computational proteomics
70. Data analysis and biostatistics
71. Human Proteome Project
72. Molecular and cellular proteomics
73. Genome Analysis
74. Phylogenetics
75. Gene Expression
76. Structural Bioinformatics
77. Genetics and Population Analysis
78. Systems Biology
79. Databases and Ontologies
80. Data and Text Mining
81. High Throughput Sequencing
82. Comparative Genomics
83. Insilico Analysis
84. Genome Medicine
85. Biological Databases
86. DNA – Protein Interactions
87. Metagenomics
88. Sequence Analysis
89. Computational Biology
90. Biostatistics
91. Quantifying protein-protein binding
92. Studying super-cold proteins
93. Proteomics and the formation of long-term memories
94. World’s largest artificial protein synthesised
95. Transmembrane protein characterisation
96. Computer gamers tackle protein folding
97. Metabolomics