Katherine D Lazaruk

Title: Innovations of Katherine D Lazaruk

Introduction

Katherine D Lazaruk is a notable inventor based in Redwood City, CA (US). She has made significant contributions to the field of biotechnology, particularly in the development of novel oligonucleotides. With a total of 2 patents, her work has advanced methods in DNA sequencing and nucleic acid amplification.

Latest Patents

Katherine's latest patents include the invention of phosphoramidate-phosphodiester oligonucleotide chimeras. These innovative chimeric phosphoramidate oligonucleotides feature both N3'-phosphoramidate linkages and phosphodiester linkages. The invention encompasses methods of primer extension using these chimeric oligonucleotides as primers. Notably, the primer extension methods are applicable in nucleic acid amplification reactions, such as PCR, and in polynucleotide sequencing reactions. The chimeric oligonucleotide primer is designed to anneal to a polynucleotide template, followed by extension through a DNA polymerase catalyzed reaction. The invention also includes compositions that enhance the binding affinity between the chimeric oligonucleotides and polynucleotide templates, utilizing divalent cations to stabilize the phosphoramidate linkages against hydrolysis at elevated temperatures.

Career Highlights

Throughout her career, Katherine has worked with reputable organizations, including the Perkin-Elmer Corporation. Her experience in these companies has contributed to her expertise in the field of biotechnology and oligonucleotide research.

Collaborations

Katherine has collaborated with notable colleagues such as Nicole M Ellis and Robert G Kuimelis. These partnerships have likely enriched her research and development efforts in her innovative projects.

Conclusion

Katherine D Lazaruk's contributions to the field of biotechnology through her innovative patents and collaborations highlight her role as a significant inventor. Her work continues to influence advancements in DNA sequencing and nucleic acid amplification methods.