Location History:
- Cheshire, GB (1998)
- Macclesfield, GB (2001)
Company Filing History:
Years Active: 1998-2001
Title: Jannine Brownie: Innovator in Genomic Detection Technologies
Introduction
Jannine Brownie is a prominent inventor based in Macclesfield, GB. She has made significant contributions to the field of genomic detection technologies, holding 2 patents that showcase her innovative approach to molecular diagnostics.
Latest Patents
One of her latest patents is a method for detecting a nucleic acid base sequence. This method involves contacting a sample nucleic acid with appropriate nucleoside triphosphates and a polymerization agent, along with a diagnostic primer that has a tail sequence comprising a tag region and a detector region. The extension product of the primer is synthesized when the corresponding base sequence is present in the sample. The method allows for the detection of the diagnostic base sequence by referencing the detector region in the further primer extension product.
Another notable patent is a method of characterizing genomic DNA. This invention utilizes primers that selectively prime specific types of internal repeat units in tandemly repeated regions. It is particularly useful in forensic or paternity studies, providing individual sample codes suitable for computerized storage and retrieval from a database.
Career Highlights
Jannine Brownie has worked at Zeneca Limited, where she has been able to apply her expertise in molecular biology and diagnostics. Her work has contributed to advancements in the understanding and detection of genetic material, which has implications in various fields, including healthcare and forensic science.
Collaborations
Throughout her career, Jannine has collaborated with notable colleagues such as Stephen Little and David Mark Whitcombe. These collaborations have further enhanced her research and development efforts in genomic technologies.
Conclusion
Jannine Brownie's innovative work in the field of genomic detection technologies has established her as a key figure in molecular diagnostics. Her patents reflect her commitment to advancing scientific knowledge and improving diagnostic methods.