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Tissue Cell Articles & Analysis
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Transcriptomics Definition Transcriptomics is the study of the overall expression of all transcribed RNAs (mRNAs, non-coding RNAs including siRNAs, miRNAs, lincRNAs, etc.) and their regulation in living organisms. It comprehensively analyzes and identifies transcripts in cells or tissues through high-throughput sequencing technology, and quantitatively and functionally analyzes them through ...
In the intricate world of cellular biology, proteins are the undisputed workhorses. They are assembled based on a genetic blueprint, but their story doesn't end there. After synthesis, proteins undergo a vast array of chemical modifications known as post-translational modifications (PTMs). These changes act as molecular switches, fine-tuning a protein's function, localization, and stability. ...
When you hear the word "sterol," your mind probably jumps to one famous, and often misunderstood, molecule: cholesterol. We’re constantly bombarded with messages about "good" and "bad" cholesterol, and its impact on our cardiovascular health. But what if I told you that cholesterol is just one member of a vast and vital family of molecules called sterol lipids? This diverse group is ...
Virus-like particles (VLPs) have garnered significant attention in recent years for their potential applications in vaccine development, drug delivery, and as tools in various biotechnological fields. These nanoparticles mimic the structure of viruses but lack the viral genetic material that makes viruses infectious. This unique characteristic offers a versatile platform for various innovative ...
In the realm of biological research, the ability to accurately observe and analyze cellular components is paramount. Our experienced team specializes in providing advanced in situ hybridization (ISH) services, employing both bright field and fluorescent techniques to deliver precise insights into tissues and cells. The utilization of bright field microscopy allows for clear visualization of ...
Histological image analysis has emerged as a pivotal domain in biomedical research and clinical diagnostics, allowing scientists and healthcare professionals to decipher the intricate structures of tissues at a microscopic level. This analysis encompasses the examination of biological tissues to understand their composition, organization, and pathology, which can be crucial for diagnosing ...
The advent of organoid technology has transformed biomedical research through the development of 3D models that precisely replicate human organ structures and functions in a physiological context. Creative Bioarray establishes itself as a world leader in life science innovation through its complete range of organoid services that enhance drug discovery, disease modeling, and personalized ...
Most of the old drugs are currently limited in their effectiveness because of poor pharmacokinetics, simple clearance by the body and cytotoxicity. Nanoparticle technology in particular, Nano drug delivery system is getting a lot of attention and application in medicine in the recent years. Since it is small (1100nm), targets well, and stays in the circulation long enough, NPs are a good ...
In recent years, adeno-associated virus (AAV) particles have emerged as a pivotal tool in the realm of gene therapy, offering researchers and clinicians innovative approaches to treat a variety of genetic disorders. Premade AAV particles represent a significant advancement in this field, streamlining the process of gene delivery and significantly enhancing the efficiency and efficacy of ...
Human brain has approximately 171 billion cells, of which slightly more than half (approximately 86 billion) are nerve cells. These 86 billion nerve cells are a diverse cell population with hundreds of specialized types and functions, but all originate from three neural cell lineages--neurons, oligodendrocytes and astrocytes. All three cell lineages originate from a pool of neural stem and ...
Cell culture is one of the major technologies in the life sciences. It is a general term used to remove cells, tissues or organs from animals or plants and place them in an artificial environment conducive to their survival and/or proliferation. The basic environmental requirements for optimal cell growth are: controlled temperature, substrate for cell attachment, appropriate growth medium and ...
Collagen is a crucial structural protein, widely presenting in human skin, bones, tendons, ligaments, and other tissues. It's essential for maintaining the structural integrity and function of tissues. The measurement of collagen can help researchers and physicians understand the pathological process of related diseases (such as osteoporosis, arthritis, skin aging etc.), and also aid in drug ...
Peptidomimetics are structural analogs of peptides or proteins that mimic their biological activities. They are designed to overcome limitations associated with peptides, such as poor stability and bioavailability by preserving or enhancing their functions. Peptidomimetic development involves the design and synthesis of molecules that mimic three-dimensional structures and functional groups of ...
Differentially expressed proteins refer to proteins that show significant changes in their expression levels in different biological samples or under different treatment conditions. Observing such differential expression is crucial for understanding cellular physiology and disease mechanisms. For example, some proteins may be upregulated or downregulated in health and disease states, or between ...
As a biology researcher, staying at the cutting edge of technology is crucial to advancing research in the field. The emergence of chimeric antigen receptor T-cell (CAR-T) therapy has revolutionized the treatment of certain cancers, providing a promising targeted approach to eliminate cancer cells. However, the monitoring and detection of CAR-T cells in vivo remain a challenge in the evaluation ...
Ubiquitination is a widely present method of protein modification. It manages its designation, activity, stability, and interaction by marking proteins, playing a crucial role in the regulation of cellular functions and biological processes. Therefore, measuring the ubiquitination level of a protein is significant for understanding its function and regulation mechanism. This article mainly ...
Western blot can accurately detect the presence and expression of specific proteins in samples, and it can also be used to detect protein post-translational modifications, such as phosphorylation, ubiquitination, etc. The overall workflow of Far-Western Blot technology is similar to Western Blot, but the detection of target proteins in Western Blot requires antibodies, while antibodies are not ...
Protein Ubiquitination is a crucial cellular biological process. It involves the binding of Ubiquitin protein to the target protein, thereby regulating the degradation, positioning, activation, etc., of the target protein. To detect protein ubiquitination, methods such as Immunoprecipitation (IP) combined with Western blot, mass spectrometry analysis, etc., are commonly used. Here are the typical ...
From protein immunoblotting to immunofluorescence, and then to FRET, antibodies are often an important determinant of successful and repeatable experiments. But we've never had a set "plan" to find the most suitable antibody. In this issue, the editor shares a 10-step "plan" for antibody selection.Determine the Name of the Target ProteinFirst, you need to be clear about what protein you need to ...
Tau protein is a microtubule-associated protein, mainly present in nerve cells, and participates in the stabilization of microtubules. In certain neurodegenerative diseases, such as Alzheimer's disease (AD), Tau protein may undergo abnormal phosphorylation and aggregation, forming so-called Tau tangles or neurofibrillary tangles.Ubiquitination is a kind of post-translational modification of ...