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Submission declined on 23 August 2025 by MCE89 (talk). This draft is not adequately supported by reliable sources. Wikipedia's verifiability policy requires that all content be supported by reliable sources. Reliable sources include: reputable newspapers, magazines, academic journals, and books from respected publishers. Unacceptable sources include: personal blogs, social media, predatory publishers, most tabloids, and websites where anyone can contribute. Replace any unreliable sources with high-quality sources. If you cannot find a reliable source for the material, it should be removed. This draft's references do not show that the subject meets Wikipedia's criteria for inclusion. The draft requires multiple published secondary sources that: provide significant coverage: discuss the subject in detail, not just brief mentions or routine announcements; are reliable: from reputable outlets with editorial oversight; are independent: not connected to the subject, such as interviews, press releases, the subject's own website, or sponsored content. Please add references that meet all three of these criteria. If none exist, the subject is not yet suitable for Wikipedia. Declined by MCE89 9 months ago.

• Comment: Most of this draft is currently unsourced. Please start by adding reliable sources to support every claim that is made. The sources and citation information in this draft suggest that the program could be notable, but in order to demonstrate notability you need to show that there are multiple independent papers that provide significant coverage of MethPrimer, not just those that use or mention it. MCE89 (talk) 04:40, 23 August 2025 (UTC)

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MethPrimer is a free, web-based program for designing primers used in PCR-based analysis of DNA methylation. It is specifically designed to work with bisulfite-converted DNA, a common technique in epigenetics research. MethPrimer supports the design of primers for methylation-specific PCR (MSP) and bisulfite sequencing PCR (BSP). It also includes a feature for predicting CpG islands. The program was created by Dr. Long-Cheng Li and is currently maintained by Ractigen Therapeutics, a biotechnology company founded by Dr. Li in 2017.

MethPrimer was developed by Dr. Long-Cheng Li in 2002 while he was a research scientist at the University of California, San Francisco (UCSF). The program was created to address the growing need for a specialized tool to design primers for bisulfite-based methylation studies, a technique that was becoming increasingly important in epigenetics research. The original MethPrimer program was described in a Bioinformatics journal article published in 2002.^[1] The program was originally hosted on the UCSF Li Lab website and was later moved to its own domain, methprimer.com, and is maintained by Ractigen Therapeutics.

MethPrimer offers several key features for methylation analysis^[1]:

• Methylation-Specific PCR (MSP) Primer Design: MethPrimer designs two pairs of primers for MSP: one pair specific to methylated DNA and another pair specific to unmethylated DNA. This allows researchers to determine the methylation status of a specific DNA region.
• Bisulfite Sequencing PCR (BSP) Primer Design: MethPrimer designs primers that amplify bisulfite-converted DNA without bias towards methylated or unmethylated sequences. These primers are used for sequencing-based methylation analysis, providing a detailed view of methylation patterns.
• CpG Island Prediction: MethPrimer can predict CpG islands within a given DNA sequence. CpG islands are regions with a high frequency of CpG dinucleotides, often associated with gene promoters and regulatory elements. The prediction is based on parameters such as GC content, observed/expected CpG ratio, and window size.
• Input Flexibility: Users can input DNA sequences in various standard formats. The program handles the bisulfite conversion simulation internally, so users do not need to pre-edit their sequences.
• Output Formats: MethPrimer provides results in both text and graphical formats, making it easy to visualize primer locations and CpG island predictions.

MethPrimer's primer design process involves several steps:^[1]

1. Bisulfite Conversion Simulation: The input DNA sequence is computationally "converted" to simulate the effects of bisulfite treatment. Non-CpG cytosines are changed to thymines. For MSP, both a fully converted sequence (representing unmethylated DNA) and a sequence where all cytosines are protected (representing methylated DNA) are generated. 2. Oligo Testing: All possible short oligonucleotide sequences (potential primers) within the converted sequence(s) are evaluated based on various parameters, including:

• GC content
• Melting temperature (Tm)
• Number of non-CpG cytosines
• Presence and location of CpGs (for MSP primers)
• Maximum number of consecutive mononucleotides (Poly X and Poly T rules)

3. Primer Pair Matching: Potential upstream and downstream primers are paired and evaluated based on:

• Product size
• Melting temperature difference between primers (especially for MSP)
• Location relative to the target region and predicted CpG islands

4. Parameter Filtering: Primer pairs are filtered based on user-defined constraints, such as product size range, primer size range, Tm range, and specific requirements for BSP and MSP primers.

5. Output: The program returns a list of primer pairs that best meet the specified criteria.

MethPrimer has been widely used in the scientific community and has been cited in over 2,900 peer-reviewed publications as of 2025. It is considered a standard tool in the field of epigenetics research, particularly for studies involving DNA methylation. The program's longevity and continued use demonstrate its utility and reliability.

• Bioinformatics
• Bisulfite sequencing
• CpG island
• DNA methylation
• Methylation-specific PCR
• Polymerase chain reaction
• Primer (molecular biology)

• Widespread academic use and citation: The original MethPrimer paper has been cited over 3,000 times in peer-reviewed scientific journals. This high number of citations indicates its importance and widespread adoption as a key tool in its field. You can view the citations on Google Scholar: https://scholar.google.com/scholar?oi=bibs&hl=en&cites=237274526441137866&as_sdt=5.
• Inclusion in university resources: MethPrimer is included in the software and database collections of numerous universities and research institutions worldwide, indicating its value in an academic setting. Here are a few examples:
  • https://www.hsls.pitt.edu/obrc/index.php?page=URL1167846108
  • https://dash.harvard.edu/server/api/core/bitstreams/7312037d-85e6-6bd4-e053-0100007fdf3b/content
  • https://neuroscience.jhu.edu/files2/publications_Rothstein_J_nihms-136480.pdf
  • https://search.library.ucsf.edu/discovery/fulldisplay?docid=cdi_proquest_miscellaneous_72684329&context=PC&vid=01UCS_SAF:UCSF&lang=en&search_scope=DN_and_CI&adaptor=Primo%20Central&query=sub%2Cexact%2C%20Adenosine%20Kinase%20%2CAND&facet=citing%2Cexact%2Ccdi_FETCH-LOGICAL-c676t-b081bb8fb388dcd1305c78419b50af1b1be5ea91331d1cee6b2f9a6165f4c1e73&offset=0
  • https://biochem218.stanford.edu/Projects%202007/Shelef.pdfhttp://repository.cshl.edu/id/eprint/25538/1/Methylation%20detection%20oligonucleotide%20microarray%20analysis.pdf
  • https://www.bcm.edu/sites/default/files/2015/e4/bisulfite-sequencing-2012.pdf
  • https://search.lib.utexas.edu/view/action/uresolver.do?operation=resolveService&package_service_id=21480684680006011&institutionId=6011&customerId=6010&VE=true
  • https://med.und.edu/research/epigenetics/related-links.html
  • Here are more (total 830 results) if you search 'methprimer' on academic sites only using the term "methprimer site:edu" (w/o the quotation): https://www.google.com.hk/search?q=methprimer+site:edu
• Global user base: The MethPrimer web server is accessed by thousands of researchers globally on a daily basis, making it a vital tool for the epigenetics and genomics community.

• Official website