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Accuracy and precision are critical for achieving reliable and reproducible results. Read on to discover what these terms mean and how to improve your accuracy and precision.
Responding poorly to criticism of your grant proposals could ruin your chances of getting funding. Apart from removing your emotional response to feedback, there are many things you can do to address criticisms of your proposals. This article breaks them down for you.
Hydrogen bonds are critical non-covalent bonds essential for the structural integrity and function of almost all biological molecules, particularly DNA and proteins. This article explains the fundamental chemistry of hydrogen bonds and nomenclature and highlights why they are critical for life.
It’s easy to fall into the trap of setting self-applied limits on what we want to do and achieve. Discover the benefits of expanding your comfort zone to foster personal growth, resilience, and new experiences that enhance your life.
This article explains a simple, 4-step method for automatic cell counting with ImageJ. Perfect for your cell proliferation studies, gene expression analysis, or whatever your downstream application might be.
Read this guide for essential tips on choosing the right international PhD program. Learn about different funding options, course structures, and cultural considerations to ensure you make the best decision for your academic and personal growth.
Learn how UV radiation causes DNA mutations. Read about about the mechanisms that lead to skin cancer and the detrimental effects that UV light can have on our DNA-based experiments.
Discover whether it’s better to build or buy the latest microscope technology for your lab. This article weighs the advantages of custom builds against the ease and reliability of purchasing from vendors, helping you make the best choice for your research needs.
Using ethanol precipitation to isolate or concentrate your nucleic acids? Find out how this routinely used technique works, and get tips to produce the best results.
Choosing the right system for scientific research involves understanding your specific needs, personal values, and desired outcomes. Learn practical steps to selecting the ideal system for reliable and desirable results.
Discover top strategies for optimizing nuclei extraction and learn how to adapt protocols for improved single-cell sequencing outcomes.
Make your grant applications more convincing for reviewers to help secure funds by adopting these persuasive writing techniques.
Navigating the complexities of microbiome data visualization can be challenging. Our guide offers insights on selecting the right plots and optimizing them for maximum readability and publication readiness.
While CRISPR offers vast applications in disease research and drug target identification, it’s not always the optimal choice for every scenario. Explore the main advantages and challenges of using CRISPR-Cas9 to determine if it’s the right fit for your project.
Are you trying to prepare for an interview but not sure what sort of questions you’ll get asked? Check out our top 10 Postdoc interview questions to help you prepare.
Tissue processing for histology is a key step between fixation and embedding. We take you through the steps of tissue processing in this simple guide.
Effective laboratory sterilization methods are essential for working with isolated cell lines. Read our guide to the top 6 sterilization techniques to banish those bugs.
Thinking of doing a PhD? Here are some essential considerations from a PhD graduate to help you decide whether or not getting a PhD is worth it.
It’s necessary to check pipette calibration every few months to ensure accuracy by dispensing the right volumes. This article explains how to perform pipette calibration yourself so you can ensure they are accurate and avoid the wait for their next service.
Agar plates are the foundation of many experiments. Make sure your plates are perfect every time with these 8 tips and start your experiment ready for success!
Nucleic acid extraction kits are routinely used in today’s molecular biology labs. Read on to learn more about what is inside these black boxes of wonder and how you can get the best results for your preps.
Biomarkers are fundamental in bioscience, from basic microbiological experiments to clinical studies. This article explains the different types of biomarkers and their application in cancer and disease research.
Do you hate it when you get into the lab ready to get stuff done and then find yourself spending the first 45 minutes of the day hunting for what you need? We do too. So read these 10 tips to organize your lab space for better productivity and spend less time hunting for stuff and more time doing research.
Adherent cell fixation is a crucial step in preparing cells for microscopy and imaging, ensuring that cellular structures are preserved for detailed analysis. Read our 8-step guide on how to effectively fix adherent cells to your microscope slides, including tips on sterilization, coating, and fixation methods, right here.
Working alone in the lab outside of regular hours poses unique challenges and risks. Our guide offers practical advice to ensure your safety and productivity during these solo sessions, emphasizing the importance of preparation, communication, and adherence to safety protocols.
A successful career in science is as much about the people as it is about the results. In this article, get tips from a successful scientist on what constitutes a healthy professional network and learn how to build one. From befriending writers to avoiding expertise mismatches, start working towards your career goals by reading this advice.
Keep your lab’s freeze dryer running smoothly with our expert tips on care and maintenance, including oil changes and vacuum leak fixes.
Gain insights into the flow of funding for scientific research. This article breaks down the funding landscape and explains the differences between government, industry, and foundation funding. Learn how navigating these sources can shape your career and accelerate your research endeavors.
Isoelectric focusing is a way of separating proteins and peptides based on their isoelectric point. Read all about this method and its applications right here.
Become an expert at getting your life science research funded with insights from a seasoned biomedical engineering researcher. Learn how to develop essential skills, such as confidence, independent thinking, consistent reading, effective writing, and embracing criticism in this essential guide.
Ever wondered what magic happens to turn your samples into histology slides? Find out the 5 simple steps for histology slide preparation.
A strong research interest statement can be the difference between being considered for a position and your application ending up in the bin. Check out these tips on how to make your statement stand out from the crowd.
Having trouble writing the discussion section for your scientific paper? Help is at hand. Read our do’s and don’ts to help you have your paper polished up in no time.
Learn how the CRISPR prokaryote immune response systems were first discovered and the development of the CRISPR-Cas9 gene-editing tool.
Don’t be confused by Ct values! We’ll guide you through what they are, how to calculate them, and troubleshooting issues.
In-cell Westerns are a powerful technique that has enhanced how researchers analyze protein expression levels and signaling pathways within fixed cells. Learn about their primary advantages, applications, and some of the best tech and products to perform them.
How do you measure how good you are as a scientist? One way is the h-index. Discover what this is, and learn about the pros and cons of using it to assess your scientific career.
Our journey to understanding that single cells are the fundamental units of life traces back to groundbreaking scientific milestones, such as the invention of the microscope, which revealed individual cells, and advancements like the discovery of fluorescent proteins and electron microscopes that have enriched our insights into the intricate structure and function of cells. Dive into a short history of cell biology.
Selecting the right blood collection tubes for your experiment is crucial. But do you know what tubes to use for which type of blood sample? Read on to find the answers.
The emergence of Volume Electron Microscopy (vEM) has unlocked new possibilities in biological imaging, enabling us to visualize 3D structures of cells at high resolution. Learn more about this incredible technique in our latest article.
The eBook with top tips from our Researcher community.