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Lucy Shapiro

Academic Appointments

Key Documents

Contact Information

  • Academic Offices
    Personal Information
    Email Tel (650) 725-7657 Tel (650) 725-7678
    Alternate Contact
    Sergio Alcantara Administrative Support Tel Work 650-725-7657

Professional Overview

Administrative Appointments

  • Director, Beckman Center for Molecular & Gentic Medicine (2004 - present)

Honors and Awards

  • Elected to the American Philosophical Society, American Philosophical Society (2003)
  • Selman A. Waksman Award, National Academy of Sciences (2005)
  • Hitchcock Professorship, UC Berkeley (2008)
  • Address the Swedish Royal Academy of Sciences, Swedish (2008)
  • Gairdner Award, Gairdner Foundation (2009)
  • John Scott Award, Philadelphia City Trust (2009)
View All 8honors and awards of Lucille Shapiro

Professional Education

Ph.D.: Albert Einstein College of Medicine, Molecular Biology (1966)
A.B.: cum laude, Brooklyn College (1962)

Graduate & Fellowship Program Affiliations

Industry Relationships

Stanford is committed to ethical and transparent interactions with our industrial and other commercial partners. It is our policy to disclose payments (exclusive of travel support) from, and/or equity in, companies or other commercial entities to Stanford faculty of $5,000 or more in total value, as well as any equity in a privately held company, when the faculty member also has institutional responsibilities related to his or her interactions with the company. View Full Information

Scientific Focus

Current Research Interests

A basic question in developmental biology involves the mechanisms used to generate the three-dimensional organization of a cell from a one-dimensional genetic code. Our goal is to define these mechanisms using both molecular genetics and biochemistry. The developmental program by which a single cell proceeds to a fully-developed organism involves cell divisions that yield dissimilar daughter cells. The characteristics that differentiate one daughter cell from the other result from differential transcription and subcellular positioning of regulatory and structural proteins. How this is brought about remains one of the most fundamental questions of developmental biology. To approach this question, we are studying a bacterial cell, whose simple life cycle is focused on the generation of asymmetry in the predivisional cell.

We are using full genome sequence and microarray technology to identify the genetic circuitry that controls the cell cycle in a bacterial cell with 3767 genes. Dynamic protein localization, phosphorelay signaling cascades, and spatially and temporally controlled proteolysis are overlayed on the transcription network that controls cell cycle progression and cell differentiation.

Publications

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