Alekhya Munagala scite author profile

Comparing newly obtained and previously known nucleotide and amino-acid sequences underpins modern biological research. BLAST is a well-established tool for such comparisons but is challenging to use on new data sets. We combined a user-centric design philosophy with sustainable software development approaches to create Sequenceserver, a tool for running BLAST and visually inspecting BLAST results for biological interpretation. Sequenceserver uses simple algorithms to prevent potential analysis errors and provides flexible text-based and visual outputs to support researcher productivity. Our software can be rapidly installed for use by individuals or on shared servers.

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Sequenceserver: a modern graphical user interface for custom BLAST databases

Priyam

Woodcroft

Rai

et al. 2015

Preprint

122

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28The dramatic drop in DNA sequencing costs has created many opportunities for novel biological research. These 29 opportunities largely rest upon the ability to effectively compare newly obtained and previously known sequences. 30This is commonly done with BLAST, yet using BLAST directly on new datasets requires substantial technical skills or 31 helpful colleagues. Furthermore, graphical interfaces for BLAST are challenging to install and largely mimic underlying 32 computational processes rather than work patterns of researchers. 33We combined a user-centric design philosophy with sustainable software development approaches to create Se-34 quenceserver (http://sequenceserver.com), a modern graphical user interface for BLAST. Sequenceserver sub-35 stantially increases the efficiency of researchers working with sequence data. This is due to innovations at three 36 levels. First, our software can be installed and used on custom datasets extremely rapidly for personal and shared

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A Quality by Design Approach of Metronidazole Bigel and Assessment of Antimicrobial Study Utilizing Box-behnken Design

Roy¹,

Maddela²,

Munagala³

et al. 2021

CCHTS

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Objective: The present investigation aimed to prepare metronidazole (MTZ) topical bigel for the effective delivery of MTZ and to study the effect of used variables as per statistical design. The study also signifies the implementation of the statistical method using the Quality by Design technique for MTZ bigel. Methods: The MTZ bigels were prepared as per the runs suggested by box behnken design (BBD) using statistical software. A total of 28 runs were suggested by the BBD considering sodium carboxymethylcellulose (Na CMC), guar gum, hydrogel, and RPM as independent variables. The prepared bigels were evaluated for organoleptic properties, percentage drug content, spreadability, viscosity, percentage in-vitro drug release, and antimicrobial efficacy. Model selectivity ascertained by pvalue considering responses along with predicted R2 and adjusted R2 value. Fitting of model ascertained by F-value as well as “lack of fit” carried out to find out the suitability of the experimental design. Furthermore, the characteristic distribution of data ascertained by the “normal plot of residual” method. The compatibility of MTZ and excipients in bigels were confirmed by FTIR and the crystalline nature of MTZ in formulations was studied by DSC and XRD studies. Furthermore, the dispersion of bigel was assessed by the SEM study. Results: The effect of independent variables on Spreadability (mm), Viscosity (cp), pH, Drug release in 6th hour (%), and Drug content (%) was evaluated. The optimized formulation was selected and evaluated by a polynomial equation while considering the p-value. These variables showed a significant effect on responses. A less significant difference was observed (6.37, 14463, 6.97, 86.29, and 67.47 respectively for spreadability, viscosity, pH, and percentage drug release and % drug content) was found between the observed and predicted values indicating that the model is suitable. The prepared bigels were compatible and globules were found to be uniformly dispersed throughout bigel. Conclusion: The 3D response surface design ascertained the optimal MTZ bigel at 1.25g of NaCMC, 0.5g of guar gum, 37.5g hydrogel, and 1000 RPM. The selected showed good antimicrobial efficacy against S. Aureus and may be considered as better delivery vehicles for the effective delivery of MTZ.

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