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- Table of Contents
Facts about Prorelaxin H1.
.
Human | |
---|---|
Gene Name: | RLN1 |
Uniprot: | P04808 |
Entrez: | 6013 |
Belongs to: |
---|
insulin family |
bA12D24.3.1; bA12D24.3.2; H1; preprorelaxin H1; prorelaxin H1; relaxin 1 (H1); relaxin 1; relaxin H1; Relaxin1; Relaxin-1; RLN1; RLXH1
Mass (kDA):
21.146 kDA
Human | |
---|---|
Location: | 9p24.1 |
Sequence: | 9; NC_000009.12 (5299864..5340915, complement) |
Prostate. Not expressed in placenta, decidua or ovary.
Secreted.
Whether you're using Boster Bio to analyze RNA-seq information or looking to optimize your gene expression, this article will provide ways to make your study even more useful. We'll assist you in making the most utilization of your new analyzer for gene expression including troubleshooting guides and optimization techniques. We'll also discuss the benefits of Boster's RLN1 mark.
When you use Boster Bio's lysis buffer for RLN1 testing, you will achieve the highest quality outcomes you can. Boster Bio also offers a array of secondary antibodies, isotype control, and detection systems specifically designed for IHC. Read on for some common questions that customers ask about this marker, such as the importance of negative controls. It is helpful to keep a list of questions and answers within your research workflow. This will help ensure that your research is optimized for maximum results.
Flow cytometry is not without its difficulties. Every researcher will encounter issues from time to time. Common problems include weak fluorescence signals, unexpected staining, high background and high background. Boster Bio has troubleshooting guides that can help you get your experiment back on path if you're unsure. These guides will show you how to perform the test correctly, and learn how to improve your results, too.
One of the many benefits of Boster's RLN1. The RLN1 marker is a fantastic choice for researchers and biomarkers. The marker lets you determine both diastolic and Systolic PAP. In addition to being a useful biomarker, it has an anti-fibrotic effect on the lung. Its use in pulmonary hypertension research could pave the way for new treatment options.
PMID: 6548702 by Hudson P., et al. Relaxin gene expression in human ovaries and the predicted structure of a human preprorelaxin by analysis of cDNA clones.
PMID: 6298628 by Hudson P., et al. Structure of a genomic clone encoding biologically active human relaxin.