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Targeted Multiplexed Protein Articles & Analysis
112 articles found
In the bustling city of the cell, proteins are the tireless workers. They build structures, carry messages, and catalyze the chemical reactions essential for life. But a protein's job isn't static. Its function, location, and even its lifespan are tightly controlled by a series of modifications. Among the most versatile and critical of these is Protein Ubiquitination, a process that acts like a ...
Recombinant protein expression is a cornerstone of modern biopharmaceutical development, providing the means to produce proteins with therapeutic potential, enzymes, and antibodies. Among various expression systems, Chinese Hamster Ovary (CHO) cells have emerged as the preferred choice for many researchers and pharmaceutical companies. This article delves into the significance of recombinant ...
Tissue cross-reactivity studies play an essential role in the understanding of immune responses, particularly in the context of autoimmunity, transplant rejection, and vaccine development. These studies aim to identify whether antibodies or T cells generated against a particular antigen react with similar proteins found in different tissues, which can lead to unintended effects and complications. ...
Optogenetics has emerged as a transformative tool in the field of neuroscience, allowing researchers to manipulate neuronal activity with unprecedented precision. At the heart of this technology lies the use of adeno-associated viruses (AAVs), which serve as robust delivery vehicles for light-sensitive proteins into targeted neuronal populations. This article delves into the significance of ...
Alfa Cytology has revealed new FAP-targeted therapeutics development services that aim to develop precise and effective cancer treatments. Alfa Cytology has introduced its groundbreaking initiative which targets fibroblast activation protein(FAP) for cancer therapies. These solutions focusing on FAP to improve treatment accuracy and deliver customized projects that strive to obtain more ...
Research in the field of pulmonary biology often requires detailed analysis of lung tissues. One of the optimal methods for studying lung structures and functions in mice is the use of C57 mouse models, specifically through the preparation of frozen sections. This technique is vital for a variety of applications, including histological studies, immunohistochemistry, and molecular analysis. Why ...
In the realm of drug discovery, the search for innovative therapies often leads to new paradigms. One such paradigm that has gained significant traction in recent years is the development of PROTAC (Proteolysis Targeting Chimeras) technology. This groundbreaking approach unlocks new potential in targeting previously “undruggable” proteins, paving the way for transformative therapies ...
TALENs (Transcription Activator-Like Effector Nucleases): TALENs are engineered proteins that can be designed to target specific DNA sequences. By creating double-strand breaks, they can facilitate the insertion of new DNA sequences or the disruption of gene function. ...
The cell cycle is an essential biological process that enables cells to grow, duplicate their DNA, and divide into daughter cells. This cycle is carefully regulated by proteins to ensure accuracy in cell replication. Disruptions in these controls can lead to uncontrolled cell division, a hallmark of cancer and other diseases. Cell cycle progression is orchestrated by key proteins, including ...
Fosmid libraries represent a pivotal advancement in the field of genomics and molecular biology, offering a robust method for genomic cloning and analysis. These libraries are particularly valuable due to their ability to retain large fragments of DNA, making them essential for various applications, including sequencing and functional studies. Understanding Fosmids Fosmids are vector systems ...
What Is PROTAC Technology? Proteolytic targeting chimera (PROTAC) is a new type of drug design technology that works by inducing the degradation of target proteins. Unlike conventional small molecules that typically inhibit protein function, PROTACs facilitate the ubiquitination and subsequent degradation of specific proteins. This bifunctional molecule consists of two distinct elements: a ...
As we step into 2024, the global health landscape is increasingly focused on combatting viral infections, which continue to pose significant threats to public health. The COVID-19 pandemic has illuminated the critical need for innovative strategies in antiviral research, and scientists worldwide are embarking on groundbreaking projects to develop more effective therapies, vaccines, and preventive ...
GMP growth factors and cytokines designed for therapeutic manufacturing are an essential component of defined media. To date, the cell therapy industry has accepted GMP terms for this reagent class, despite the fact that there is no direct oversight by regulators. These proteins are intended for use in further manufacturing processes and do not come into direct contact with patients. In fact, ...
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 ...
Glycosylation modification is a chemical modification process on biomolecules, involving the combination of sugar molecules with other biomolecules (usually proteins). This modification process plays a crucial regulatory role within the organism, particularly in terms of protein function and stability.Glycosylation modifications also impact antibodies, manifested in the following ways:Antibody ...
Ubiquitination is a post-translational modification process that involves various biological processes, including signal transduction, cell cycle regulation, cell stress responses, and cell apoptosis. It plays a crucial role in maintaining protein homeostasis, regulating various biological reactions in cells, and ensuring the normal physiological functions of organisms. Immunoprecipitation is a ...
CD BioSciences, a biotech company specializing in centrosomal study, has recently launched new services for anti-centrosome antibody development. The services help identify and track centrosomes in experiments, demonstrating the strength of anti-centrosome antibodies as a great tool for centrosome research. The centrosome is a key cellular structure that plays a crucial role in the organization ...
Mitochondria are a unique type of organelle present within cells, serving as the primary source of energy within living organisms. They are responsible for several life-sustaining processes, including energy production, reducing free radicals, and maintaining cellular signaling. Proteins within the mitochondria play a key role in these processes.Why Sequence Mitochondrial Proteins?The sequencing ...
The T cell antigen receptor (TCR) is a characteristic marker of T cells, playing a crucial role in the immune system. Each T cell typically expresses a specific TCR, which has a unique structure and sequence that can recognize different antigens, including bacteria, viruses, tumor cells, and other pathogens. Once the TCR binds to the antigen, the T cell initiates an immune response, generating ...
The Unique Value and Challenges of Peptide Antigens in Antibody DiscoveryChoosing the right antigen is crucial in antibody discovery. The method of using peptides as antigens has been around for over 60 years. With technological advancements, we now have more novel avenues to choose from, such as recombinant proteins, engineered cells, and DNA encoding proteins, all of which can display a variety ...