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Bioscience Articles & Analysis
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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. ...
In recent years, the field of gene editing has experienced groundbreaking advancements, with CRISPR/Cas9 emerging as a powerful technology for precise genetic manipulation. Among various delivery systems, lentiviruses have garnered significant attention due to their ability to introduce genetic material into both dividing and non-dividing cells, making them an ideal vehicle for gene therapy ...
Fluorescence In Situ Hybridization (FISH) and Immunohistochemistry (IHC) are two powerful techniques widely used in biological and medical research. While each has its strengths, the combination of these methods—ImmunoFISH—offers a unique and comprehensive approach to investigation at the cellular and tissue levels. Understanding the Techniques FISH is primarily utilized for detecting ...
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 ...
Introduction Custom knockout cell lines represent a groundbreaking advancement in molecular biology and genetics, allowing researchers to manipulate genes with precision and study their functions in a controlled environment. By creating cell lines with specific genes “knocked out,” scientists can investigate disease mechanisms, screen drug candidates, and develop gene therapies more ...
Nicotinamide adenine dinucleotide (NAD) and its reduced form (NADH) are essential coenzymes involved in a wide array of cellular metabolic processes. As critical mediators in oxidation-reduction (redox) reactions, NAD/NADH plays a pivotal role in energy production and cellular metabolism. Understanding and analyzing these biomolecules has become increasingly important in areas such as disease ...
Knockin cell line generation represents a pivotal advancement in genetic engineering, providing vital tools for biological research and therapeutic development. This process involves the integration of specific DNA sequences into precise loci within the genome, allowing scientists to explore gene function, model diseases, and develop new treatments. Understanding Knockin Cell Line Generation At ...
Operational Taxonomic Units (OTUs) serve as fundamental units in the realm of numerical taxonomy, particularly in the study of microbial ecology. These units can represent various biological classifications, including individuals, species, genera, or even higher taxonomic levels. The term "operational taxonomic unit" was introduced to address the discrepancies between traditional taxonomic ...
HCEC-12 is a well-established human corneal epithelial cell line derived from human corneal tissue. It plays a crucial role in ocular research, particularly for studies related to corneal physiology, wound healing, and the pathogenesis of various ocular diseases. This article delves into the characteristics, applications, and significance of the HCEC-12 cell line in biological and medical ...
Technological advancements and innovative research have continuously led to the discovery and development of new methodologies in the field of biological and medical sciences. One such breakthrough discovery is bacterial genome editing, which opens a new world of opportunities and challenges in the field of biotechnology and genomics. Understanding Bacterial Genome Editing Bacterial genome ...
Sialic acid proteins are a special type of glycoproteins, characterized by the presence of sialic acid at the end of the sugar chain. Sialic acid is a biologically important sugar molecule that plays a crucial role in many intercellular interactions, including cell recognition, adhesion and signal transduction. Therefore, the detection of sialic acid proteins holds significant value in disease ...
In epigenomics experiments, the use of parallel samples is to ensure the reliability and repeatability of experimental results. The choice of the number of parallel samples depends on various factors, including experimental design, expected variability, data analysis methods, etc. Here are some specific examples to illustrate the selection of the number of parallel samples in different ...
In the world of biotechnology and cell biology, the immortalization of primary cells has long been a challenge. Traditional methods often fall short when trying to establish immortal cell lines from certain species, such as chickens, monkeys, dogs, and even human T cells. However, with the innovative Epigenetic Induction of Cell Growth service offered by Creative Bioarray, a breakthrough in cell ...
CD BioSciences, a biotech company specializing in centrosomal study, has recently launched new services for anti-centrosome antibody development. ...
In-depth research on protein interaction plays a crucial role in life science research. Proteins are the main bearers of life activities, and their interactions form a complex molecular network within biological cells. Protein-Protein Interaction Sequencing (PPI-Seq) is an emerging technology. Based on high-throughput sequencing, it allows researchers to explore protein interactions at the whole ...
Overview of Single-Antibody SequencingSingle-antibody sequencing, as the name suggests, is a technique that uses a single antibody to sequence DNA. This method is based on the specificity of the antibody, which recognizes and binds to specific DNA sequences to accurately read the DNA.Working Principle of Single-Antibody SequencingThe basic principle of single-antibody sequencing is: select a ...
The field of biomaterials is undergoing a transformative shift, driven by the integration of artificial intelligence (AI) technologies. As the demand for advanced materials with tailored properties continues to grow in applications ranging from tissue engineering to medical devices, researchers are increasingly turning to the power of AI to accelerate biomaterials development and optimization. ...
The development of new and effective drugs is a complex and multifaceted process that requires the collaboration of scientists from diverse fields, including chemistry, biology, and computational modeling. At the heart of this endeavor lies the art of drug design - the strategic and methodical approach to creating molecules that can effectively target and modulate biological pathways to treat ...
Technological advancements and innovative research have continuously led to the discovery and development of new methodologies in the field of biological and medical sciences. One such breakthrough discovery is bacterial genome editing, which opens a new world of opportunities and challenges in the field of biotechnology and genomics. Understanding Bacterial Genome Editing Bacterial genome ...
Proteolysis Targeting Chimeras (PROTACs) are a novel approach for degrading target proteins. Recently, a new split-and-mix PROTAC (SM-PROTAC) system based on liposome self-assembly, known as LipoSM-PROTAC, was reported in the Journal of the American Chemical Society. The LipoSM-PROTAC system exhibits selective degradation of target proteins, with folate serving as a key ligand. In this study, the ...