New automated experimental and computational pipeline for high coverage single-cell Hi-C and its integration with single cell RNA-seq: enabling 4D Nucleomics at single cell resolution

Information

  • Research Project
  • 9144845
  • ApplicationId
    9144845
  • Core Project Number
    U01HL129971
  • Full Project Number
    5U01HL129971-02
  • Serial Number
    129971
  • FOA Number
    RFA-RM-14-007
  • Sub Project Id
  • Project Start Date
    9/15/2015 - 9 years ago
  • Project End Date
    7/31/2020 - 4 years ago
  • Program Officer Name
    POSTOW, LISA
  • Budget Start Date
    8/1/2016 - 8 years ago
  • Budget End Date
    7/31/2017 - 7 years ago
  • Fiscal Year
    2016
  • Support Year
    02
  • Suffix
  • Award Notice Date
    8/25/2016 - 8 years ago
Organizations

New automated experimental and computational pipeline for high coverage single-cell Hi-C and its integration with single cell RNA-seq: enabling 4D Nucleomics at single cell resolution

? DESCRIPTION (provided by applicant): In this project we will develop new methods to investigate the three dimensional arrangement of the genome in various cell types from mouse bone marrow. The three dimensional organization of the genome, how it is physically arranged in the nucleus of cells, is recognized as an important component of genome control. The mechanisms by which genes get switched on and off in the correct cells or tissue type, and during the correct stages of development include changes in the spatial organization of the genome. We will develop a new method that can assess three dimensional genome organizations in thousands of individual cells and simultaneously measure the actual gene expression profile of a large number of those cells. We will systematically analyze the data mathematically and statistically to look for new principles of genome organization that may play unknown roles in controlling the genome in health and disease. We will also use the data to generate 3D computer models of individual chromosomes and the entire genome as it exists in the individual cell nucleus. We will then use these models to look for spatial patterns, recurring structures and variable structured regions of the genome that may be important in gene control. For these experiments we will use mouse bone marrow cells, which are an important representative of human bone marrow cells. Bone marrow is a clinically important, complex tissue containing the adult stems cells that give rise to all cells of the blood and immune system. By systematically analyzing the 3D genome conformation and gene expression profiles of these important cell types we will be providing fundamental knowledge of how these cell types function to create the blood. We will cooperate with other research groups to ensure that they have access to these powerful technologies and computer analysis packages that will accelerate a fuller understanding of how the genome is controlled. This information is vital to design new effective therapeutic strategies for the treatment of diseases of the blood and other tissues, and to understand the molecular basis of cancers for more effective treatments and prevention.

IC Name
NATIONAL HEART, LUNG, AND BLOOD INSTITUTE
  • Activity
    U01
  • Administering IC
    HL
  • Application Type
    5
  • Direct Cost Amount
    365029
  • Indirect Cost Amount
    16249
  • Total Cost
    381278
  • Sub Project Total Cost
  • ARRA Funded
    False
  • CFDA Code
    310
  • Ed Inst. Type
  • Funding ICs
    OD:381278\
  • Funding Mechanism
    Non-SBIR/STTR RPGs
  • Study Section
    ZRG1
  • Study Section Name
    Special Emphasis Panel
  • Organization Name
    BABRAHAM INSTITUTE
  • Organization Department
  • Organization DUNS
    777431487
  • Organization City
    CAMBRIDGE
  • Organization State
  • Organization Country
    UNITED KINGDOM
  • Organization Zip Code
    CB22 3AT
  • Organization District
    UNITED KINGDOM