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Thomas Carter Delivers The New Digital Economy

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Although most Americans probably are not aware of the imminently approaching decentralized internet, it’s implications are transformative.

Simply put, individuals will have the power of websites and digital platforms without even having to know how to build and operate a URL.

Financial Markets maven Thomas Carter is shortening the learning curve for Americans (and global citizens) who want to think ahead by offering them an easy, one stop solution- through his company Digital Names– whereby they can lock in their new digital identity and all consuming digital hub through a user friendly process.

The process is so user-friendly…in fact, it’s as simple as establishing your own address and wallet book under your own name for today’s internet as well as the future decentralized internet.

Through your “digital name” you will be able to compress all of your various transaction portals (paypal, zelle, bank wires, checks, etc.) into a central digital wallet book that will massively improve efficiency, security, and convenience.

Yet these are only several of the profound benefits that Digital Names entails.

Other benefits include asset appreciation- since just like website domains appreciated after the .com boom- so too will digital name domains as blockchain decentralization takes over and name scarcity sets in.

According to Carter, Digital Names and its advisory company- Dealbox– will become the people’s trusted steward and gold standard operating system for the bridge into simplified financial management and asset building.

As Carter puts it: “We may not be the smartest developers, we might not have the most sophisticated answers, but we convey what we see in easy to understand terms so that the average person can keep up with what is happening in the world and stay abreast with how these transformations present investment opportunity as well as how they will impact the global economy.”

The idea of Bigtime Daily landed this engineer cum journalist from a multi-national company to the digital avenue. Matthew brought life to this idea and rendered all that was necessary to create an interactive and attractive platform for the readers. Apart from managing the platform, he also contributes his expertise in business niche.

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Business

Revolutionizing Single-Cell RNA-seq With Automated Cell Counters: Insights From Logos Biosystems

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Despite its relative newness, single-cell RNA sequencing (scRNA-seq) has become an essential component of modern biological research.

 

It can be used to characterize abnormal cell populations, discover and analyze rare cell cellular map networks, and discover subtle yet notable heterogeneities.

scRNA-seq has come a long way since its origins in next-generation sequencers from the late 1990s. While traditional sequencing methods measure a bulk of a cell population to determine its “average genome,” scRNA-seq is significantly more precise. It locates and extracts genomes from individual cells, using each cell to tell part of the genetic story of a greater whole.

Although single-cell sequencing provides valuable information, the process has several drawbacks depending on the method used.

For example, Laser Capture Microdissection (LCM) uses a laser to isolate target cells from a complete solid tissue sample located on a microscope slide. This approach is quick, reliable, and also usable on intact tissues, but it requires the user to identify target cells through visual inspection of their morphology. Cells can also be damaged in the process.

Other methods, like Magnetic-Activated Cell Sorting (MACS) or Fluorescence-Activated Cell Sorting (FACS), come with positives and negatives. Regardless of the approach, advancements in single-cell sequencing technology require significant time and investment, making access to newer and more efficient technologies a barrier to progress.

Overcoming Obstacles With Technological Advancement

When manually counting cells in scRNA-seq analysis, adequately going through each cell can take a huge amount of time and resources. This process also has a high margin of error, sometimes making it difficult to justify the effort.

Moreover, when cell counts are inaccurate for scRNA-seq analysis, overall data quality becomes less reliable, making the research outcomes less reliable and further exacerbating the original issues of time and cost.

With so much time and capital going toward this research, the data it produces should be worthwhile. However, the quality of the data ultimately relies on the quality of the sample before processing, which is where Logos Biosystems and their LUNA-FX7 Automated Cell Counter come in.

Enhancing Research Capabilities

Logos Biosystems is a leader in automated cell counting technology and scRNA-seq analysis and is known for developing the award-winning LUNA Cell Counter family.

Founded in 2008, the company has lived up to its motto of “seeing beyond the cell” by working to improve human health through imaging solutions that help researchers gather quality data in a timely fashion.

Their LUNA series of cell counters specializes in improving research accuracy and efficiency by allowing scientists to spend less time dealing with the monotony of cell counting and more time making valuable observations and implementing solutions.

The LUNA-FX7 Automated Cell Counter gives precise and reliable cell counts. It improves the quality of scRNA-seq analysis and takes less time than other automated counters.

This device has many invaluable features, such as increased size for sample throughput, an expanded cell concentration range, built-in QC software, validation slides for fluorescence, and brightfield to allow for daily QC monitoring and reporting.

Making Research Matter

Incorporating an automated cell counter like the LUNA-FX7 more broadly in scRNA-seq would improve research outcomes and accelerate scientific discoveries. Having machines take care of menial tasks frees up time for scientists and researchers to use their critical and creative thinking skills to push progress in their respective fields forward in ways machines couldn’t do alone.

Applications for automated cell counting technology are almost limitless, including research into developmental studies, immunology, oncology, neurobiology, diabetes, microbiology, and much more. Being able to quickly and precisely profile, identify, classify, and discover rare or new cell types from across the human body allows greater insight into these disciplines and what they can do for human health and growth.

The exciting future of single-cell RNA sequencing lies in the seamless integration of these automated technologies. As they become more widely adopted, they will pave the way for more innovative discoveries that could shape the understanding of biology and medicine. With technologies like Logos Biosystems’ LUNA-FX7, the question of whether the scientific community can see transformative discoveries is now mute as it continues to work to enhance precision and efficiency in cell evaluation, which is vital for scRNA-seq experiments to be successful to not only advance science but also improve human health and well-being on a global scale.

 

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