Julia Andrea Elvin

Title: Julia Andrea Elvin: Innovator in Growth Differentiation Factor Research

Introduction

Julia Andrea Elvin is a prominent inventor based in Houston, TX (US). She has made significant contributions to the field of biotechnology, particularly in the study of growth differentiation factors. With a total of 2 patents, her work has implications for understanding gene expression and cellular activity.

Latest Patents

Elvin's latest patents include innovative methods and sequences related to growth differentiation factor-9 (GDF-9). The first patent, titled "Growth differentiation factor-9 regulatory sequences and uses therefor," discloses isolated GDF-9 regulatory sequences. These sequences include enhancer and promoter elements that naturally drive transcription of GDF-9 in specific tissues. The regulatory sequences can be derived from both upstream and downstream regions of the GDF-9 gene, as well as from transcribed, untranslated regions.

The second patent, "Assay for growth differentiation factor 9," relates to a method for identifying agents that alter the activity of GDF-9. This method involves combining cells with a receptor for GDF-9 and a gene regulated by GDF-9 binding. The extent of binding is then assessed to determine the effect of the agent on GDF-9 activity.

Career Highlights

Throughout her career, Julia Andrea Elvin has worked with notable organizations such as Metamorphix, Inc. and Baylor College of Medicine. Her research has contributed to advancements in understanding the mechanisms of gene regulation and cellular responses.

Collaborations

Elvin has collaborated with esteemed colleagues, including Martin Matthew Matzuk and Pei Wang. These partnerships have further enriched her research and expanded the impact of her inventions.

Conclusion

Julia Andrea Elvin is a distinguished inventor whose work in growth differentiation factors has paved the way for new insights in biotechnology. Her patents reflect her commitment to advancing scientific knowledge and improving gene expression understanding.