Difference between Bioscience and Lifescience

Difference between Bioscience and Lifescience

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Are bioscience and lifescience the same things? I am a little bit confused about it. If not, then what is the difference between the two?

I agree with the comments and largely see them as the same thing, and many dictionaries would probably agree with this. However, in practical use (from my experience) Life science is used somewhat more broadly (everything from ecology and agricultural science to genomics and biochemisty), while Bioscience is more often applied to "whiter" lab-based biology and more technical applications (biotechnology, genetics, etc.). Personally, I would feel comfortable to label my research as life science but a bit more uneasy with bioscience. However, the terms are so vague that I wouldn't pass judgement on the content of research just based on these labels.


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What is the difference between bioscience, life science, and biotechnology?

What is the difference between bioscience, life science, and biotechnology?

5 Answers

Essentially, there is no difference between bioscience and life science. Biotechnology, however, is about the application of biology in technology – vaccines, medicine, etc.

Bioscience is the greater subset. Life sciences is bioscience that focuses on helping people – not necessarily just clinical science, but other stuff that relates to human health and disease. Biotechnology is the development of tools for the study of bioscience and/or for facilitating the study and/or practice of life sciences. Like chrismiller mentions, there are a lot more subdivisions as well.

Also remember that the terms are fluid and there will me much overlap. I work in any and all of the following fields: bioinfomatics, biotechnology, biology, life-sciences, biomedical research, cancer biology, computational biology, etc.

What kldickson said. Bioscience is biological science. This may not be technological at all. A guy walking through the forest counting trees is a biologist, but there may be little tech involved. Life science is the same thing. The term is to distinguish biology from chemistry, physics, etc. (with the caveat that biochem, biophysics, et al may fall under the life-science category) Here’s how Nature Biotechnology (a journal) defines the biotechnology. Also, I’d be wary of relying on numbers you find online as good estimates. There are going to be huge discrepancies based on what jobs they consider for inclusion and what sort of statistics they use for estimation.

Life sciences is bioscience that focuses on helping people I’d disagree with this. I think that’s biomedical science. The life sciences certainly includes things like ecology.

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Life science

“We are excited to be able to deliver a sustainable well-amenitized mixed-use life science and tech campus to address the unprecedented growth in demand,” said Dan Michaels, managing director of Stockdale Capital Partners, in a statement.

Alongside Loncar, other longtime investors in the life science community say the model is broken.

When it comes to choosing this year’s biggest story in the life science s, there’s really no competition.

They have now also settled in Boston to connect with the life science community.

Rhiannon James, president of life science , healthcare and technology at Questex, said that her team is able to charge virtual attendees about 75% of the in-person ticket cost for some of its niche market events.

As an example of good science-and-society policymaking, the history of fluoride may be more of a cautionary tale.

Citizens, perhaps, need to feel like they can communicate something to science.

His life as a man is built around health insurance and tax services.

It was also an attack on our freedom of expression and way of life.

“I heard Jeffrey was interested in supporting science and I contacted him,” Krauss said.

Now, it immediately occurred to Davy that he had never in his whole life had all the plums he wanted at any one time.

Dean Swift was indeed a misanthrope by theory, however he may have made exception to private life.

We shall recover again some or all of the steadfastness and dignity of the old religious life.

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Master of Science in Bioinformatics (Systems Biology)

Bioinformatics aims at gaining a better and preferentially more quantitative molecular understanding of cellular processes by integrating and modeling high throughput molecular data (omics data). This requires the use and development of state of the art techniques for storing, retrieving, organising, analysing and interpreting biological data.

Recent technological advances have dramatically changed our view on life science research and have turned biology in a data-driven science. It is in this context that bioinformatics, a booming interdisciplinary field, has evolved from a new research domain to a basic discipline in only 15 years. Bioinformatics aims at gaining a better and preferentially more quantitative molecular understanding of cellular processes by integrating and modeling large amounts of molecular data.

  • you like problem solving through data analysis and data mining,
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As a bioinformatician you will become an interdisciplinary scientist or engineer who can develop or use state-of-the art statistical and computer science techniques to mine molecular data in order to answer fundamental or applied biological and biomedical questions. Ghent University offers an interfaculty Master of Science in Bioinformatics programme, which - depending on the chosen track - can result in an Engineering or Bioscience Engineering degree.

What are Life Sciences?

At NCBiotech, we see it as science involving cells and their components, products and processes. Biology, medicine and agriculture are the most obvious examples of the discipline. However, as science becomes ever more complex, it is more difficult to find clear definitions and boundaries.

What is Biotechnology?

Biotechnology is the most prominent component of the life sciences. Simply put, biotechnology is a toolbox that leverages our understanding of the natural sciences to create solutions for many of our world problems. We use biotechnology to grow food to feed our families and to make medicines and vaccines to fight diseases. We are even turning to biotechnology to find alternatives to fossil-based fuels for a cleaner, healthier planet.

Brewing Biotech

Often we think of biotechnology as a new area for exploration. But its rich history dates back to 8000 B.C. when the domestication of crops and livestock made it possible for civilizations to prosper. Some timelines date biotech to the Sumerians brewing beer.

The 17th-century discovery of cells and later discoveries of proteins and genes had a tremendous impact on the evolution of biotechnology and life as we know it.

How Biotechnology Works

Biotechnology is grounded in the pure biological sciences of genetics, microbiology, animal cell cultures, molecular biology, embryology and cell biology. The discoveries of biotechnology are intimately entwined in the life sciences industry sectors for development in agricultural biotechnology, biomanufacturing, human health, precision medicine and medical devices and diagnostics. For example, biomedical researchers use their understanding of genes, cells and proteins to pinpoint the differences between diseased and healthy cells. Once they discover how diseased cells are altered, researchers can more easily develop new medical diagnostics, devices and therapies to treat diseases and chronic conditions.

Cell Biology

Cell biology goes yet smaller than microbiology, taking a look at the living systems that exist within individual cells. That’s right even the cells that make up your body have their own tiny ecosystems. Remember learning in ninth-grade biology that the mitochondria is the powerhouse of the cell?

Cell biology looks at the life processes of individual cells, including metabolic processes, reproduction, signaling pathways, and the chemical composition of the cell. This gives us a better idea of how life on a larger scale works. It’s especially important in fields like genetics and pharmacology.

Evolution of a Decision

Ask anyone who’s applied to med school and you'll probably hear the same thing: Getting in requires hard work, both in college and during the application process, and competition is fierce. While this shouldn’t dissuade aspiring doctors, it’s a sound reason for students to ensure that they’ll have many options available. This could mean choosing between biology or biochemistry to show readiness to specialize in med school, but it could also mean choosing one for the extra career possibilities it opens. Both majors offer rich post-graduation career options. Agricultural firms, public health facilities, pharmaceutical companies, medical research labs and the federal government all employ biology and biochemistry program graduates. College advisers can help students decide which major would be best suited for careers in these fields.

Melissa Harr is a writer and knitting pattern designer with a range of publication credits. Her latest work includes blogging for Smudge Yarns, judging fiction for Ink & Insights 2015 and creating patterns for I Like Knitting magazine. Harr holds a Bachelor of Arts in English from the University of Illinois at Chicago and a CELTA.

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