My first impression of the American Journal of Biomolecular Sciences (AJBMS) was that it is a journal that publishes articles in a well-organized format that makes it easier to access information. This is most clear because of the constant use of subheadings throughout the article. Besides, there seems to be an exact format that authors should follow when submitting their manuscripts. The journal also allows the publication of short research articles, since the paper by Raimi et al. (2013) only covers only four pages. Finally, considering the journal's name, it is clear that it allows publication of studies under the biomolecular sciences field. Biomolecular sciences broad field that attracts immense interest from researchers and business-oriented enterprises. Disciplines that fall under this field include molecular biology, genetics, microbiology, structural biology, biochemistry, and synthetic biology. AJBMS journal would attract interest from various stakeholders. Students would find this journal essential while researching related academic topics. Lecturers and tutors would also benefit from this journal in their quest to expand their knowledge and offer up-to-date guidance to their students. For researchers and business-oriented entities, this journal offers a scientific platform and valuable information resourceful to their needs.
The paper by Raimi et al. (2013) was published in volume three, issue number two. The Pka for Tris HCL is 8.08 at 25 degrees Celsius. Tris buffer would, therefore, be effective at a PH range of 7.0 to 9.0, which coincides with most living organisms' physiological pH. As a result, Tris HCL is commonly used as a component of most buffer solutions in molecular and biochemistry applications. These characteristics of Tris HCL warrant its use in the study by Raimi et al. (2013).
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When determining enzyme activity, K m and V max, and the effects of metal concentration, Tris buffer with a pH of 10.5 were used. Raimi et al. (2013) does not indicate the molar extinction coefficient used in the study. The V max for Penaeus notialis was 5.4 mM/min/ml. The protein concentration reported in Table 1 was based on two observations. This is evident, considering that the authors state that the data in Table 1 represent mean plus standard deviation, where n is 2 (Raimi et al., 2013). The authors do not state the number of times the weight for the different decapod crustaceans species was measured; hence, it is not possible to establish how many observations the weighted average was based on. When determining the effect of metal concentration on ALP, the concentration of p-nitrophenyl phosphate used was 10 mmol/l. This can be deduced from the fact that the procedures described by Raimi et al. (2013) are duplicated in various stages.
After reviewing the article by Raimi et al. (2013), I got the impression that AJBMS allows the publication of studies with sufficient experimental detail such that the study can be verified and repeated by other researchers. I also noted that the journal allows a specific outline of the published information, starting from the abstract, keywords, introduction, materials and methods, results and discussion, conclusion, and references. The journal allows the publication of high-quality research studies, whose procedures indicate academic excellence. This implies that integrity at AJNMS is key. The journal emphasizes on quality of scientific research through verifiable and repeatable experiments to avert consequences of poorly done research or data that lacks integrity. The approach is essential since topics in biomolecular sciences are essential in the medical field. Quality research in this field helps solve vital global issues, while unreliable conclusions may cause global calamities. Evidently, the study by Raimi et al. is a high-quality study hence its publication in AJNMS.
Reference
Raimi, O., Am, H., Adeola, S., Jimoh, A. A., & Adeyemi, O. (2013). Comparative Biochemical Characterization of alkaline phosphatase from species of shrimps (Macrobrachium vollenhovenii and Penaeus notialis). American Journal of Biotechnology and Molecular Sciences , 3 (2), 29–32. https://doi.org/DOI: 10.5251/ajbms.2013.3.2.29.32
