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Elabscience
SKU(재고 관리 코드):E-UNEL-H0074
Uncoated Human PⅢNP(N-Terminal Procollagen Ⅲ Propeptide) ELISA Kit
Uncoated Human PⅢNP(N-Terminal Procollagen Ⅲ Propeptide) ELISA Kit
The UNCOATED HUMAN PⅢNP(N-TERMINAL PROCOLLAGEN Ⅲ PROPEPTIDE) ELISA KIT is a cutting-edge diagnostic tool designed to accurately measure the levels of N-terminal propeptide of type III procollagen (PⅢNP) in human samples. This ELISA kit is uncoated, ensuring optimal sensitivity and specificity in detecting PⅢNP, a key biomarker for assessing collagen synthesis and degradation. With its advanced technology and precise results, this kit is an indispensable asset for researchers, clinicians, and laboratory professionals in various fields, including rheumatology, dermatology, and orthopedics.
The UNCOATED HUMAN PⅢNP ELISA KIT offers a comprehensive and user-friendly solution for measuring PⅢNP levels in human samples. The kit includes all necessary components, such as pre-coated microplates, standards, controls, and reagents, ensuring convenience and efficiency in the assay process. The uncoated design of the microplates allows for enhanced binding capacity, resulting in improved sensitivity and accuracy. Additionally, the kit provides a wide dynamic range, enabling the detection of PⅢNP levels across a broad spectrum, from low to high concentrations.
This ELISA kit utilizes a highly specific and sensitive enzyme-linked immunosorbent assay (ELISA) technique to quantify PⅢNP levels in human samples. The assay is based on the principle of competitive binding, where PⅢNP in the sample competes with a labeled PⅢNP conjugate for binding to a specific antibody. The intensity of the color developed is inversely proportional to the concentration of PⅢNP in the sample, allowing for precise quantification. The kit also includes a detailed protocol, ensuring reproducibility and accuracy in every assay.
In summary, the UNCOATED HUMAN PⅢNP(N-TERMINAL PROCOLLAGEN Ⅲ PROPEPTIDE) ELISA KIT is a state-of-the-art diagnostic tool that provides accurate and reliable measurement of PⅢNP levels in human samples. With its uncoated microplates, comprehensive components, and advanced ELISA technique, this kit offers enhanced sensitivity, specificity, and convenience. Whether for research purposes or clinical applications, this ELISA kit is an invaluable asset for professionals in various fields, enabling them to gain valuable insights into collagen synthesis and degradation.
The UNCOATED HUMAN PⅢNP ELISA KIT offers a comprehensive and user-friendly solution for measuring PⅢNP levels in human samples. The kit includes all necessary components, such as pre-coated microplates, standards, controls, and reagents, ensuring convenience and efficiency in the assay process. The uncoated design of the microplates allows for enhanced binding capacity, resulting in improved sensitivity and accuracy. Additionally, the kit provides a wide dynamic range, enabling the detection of PⅢNP levels across a broad spectrum, from low to high concentrations.
This ELISA kit utilizes a highly specific and sensitive enzyme-linked immunosorbent assay (ELISA) technique to quantify PⅢNP levels in human samples. The assay is based on the principle of competitive binding, where PⅢNP in the sample competes with a labeled PⅢNP conjugate for binding to a specific antibody. The intensity of the color developed is inversely proportional to the concentration of PⅢNP in the sample, allowing for precise quantification. The kit also includes a detailed protocol, ensuring reproducibility and accuracy in every assay.
In summary, the UNCOATED HUMAN PⅢNP(N-TERMINAL PROCOLLAGEN Ⅲ PROPEPTIDE) ELISA KIT is a state-of-the-art diagnostic tool that provides accurate and reliable measurement of PⅢNP levels in human samples. With its uncoated microplates, comprehensive components, and advanced ELISA technique, this kit offers enhanced sensitivity, specificity, and convenience. Whether for research purposes or clinical applications, this ELISA kit is an invaluable asset for professionals in various fields, enabling them to gain valuable insights into collagen synthesis and degradation.
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