Cloud Computing 101
There’s a good chance that by now, many of you have heard of “cloud computing.” You might have even read the recent news about the project carried out by the Maine INBRE Bioinformatics Core under the auspices of the NIH Science and Technology Research Infrastructure for Discovery, Experimentation, and Sustainability (STRIDES) Initiative. So what is cloud…
Continue ReadingBioinformatics: The Importance of Training the Trainer
MDI Biological Laboratory is beyond pleased to be hosting the upcoming Bioinformatics T3: Train the Trainer from June 26 until July 3 – not only because this is a vital and expanding field or because of our passion for educating the next generation of amazing scientists – but because we are able to welcome folks back to…
Continue ReadingMINOTA 2020 – a change of direction
Transcriptome-profiling is the primary means by which researchers characterize what is happening at the molecular level. When a transcriptome profile is generated for a sample, it tells us which genes are active (being expressed) and at what amount. Comparing profiles among samples allows us to identify genes, and importantly the biological processes that are varying…
Continue ReadingPart III: Meet the Computational Biology Core
(Read part one or part two of the series.) For this entry into our ongoing discussion of the MDI Biological Laboratory Computational Biology Core, I want to take a step back and, rather than talk about the specifics of the science, instead talk about who we are, what we do, and why it is so…
Continue ReadingBioinformatics Part II: What do my genome-scale measurements of gene expression mean?
Graphical representation of differential gene expression for a single gene. The red triangles represent measurements of replicate treated samples, and the black diamonds represent matched control samples. Differential expression of this gene is determined by a statistical analysis of the separation between expression levels in treated and control, compared to the variation within each group…
Continue ReadingPart I: Computational Biology is vital to modern research
But what exactly is it and why does science need it? The typical interpretation of this figure is that the arrows represent the “flow of information”: that DNA is capable of self-replication (represented by the circular arrow); that the information stored in DNA is activated by first being transcribed to RNA (resulting in an RNA…
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