4D Nucleome Network Wiki

User Tools

Site Tools

You are here: start » 4dn » phase1 » 4dn_opportunity_funds » transformative_collaborative_project_awards
4dn:phase1:4dn_opportunity_funds:transformative_collaborative_project_awards

Differences

This shows you the differences between two versions of the page.

Link to this comparison view

Both sides previous revision Previous revision
Next revision 		Previous revision
4dn:phase1:4dn_opportunity_funds:transformative_collaborative_project_awards [2019/02/14 09:52]
rcalandrelli 		4dn:phase1:4dn_opportunity_funds:transformative_collaborative_project_awards [2025/04/22 16:21] (current)
Line 3: Line 3:
 The Transformative Collaborative Project Award (TCPA) provides research support to enable eligible investigators to pursue novel research directions or develop new technologies and tools that will further help the 4DN Program to achieve its stated goals. Awardees will use the TCPA to build unique trans- or interdisciplinary teams that are focused on finding solutions to complex or challenging biological problems relevant to the 4DN mission and to propose research or tool-development projects that complement existing 4DN efforts. The Transformative Collaborative Project Award (TCPA) provides research support to enable eligible investigators to pursue novel research directions or develop new technologies and tools that will further help the 4DN Program to achieve its stated goals. Awardees will use the TCPA to build unique trans- or interdisciplinary teams that are focused on finding solutions to complex or challenging biological problems relevant to the 4DN mission and to propose research or tool-development projects that complement existing 4DN efforts.
  
-|{{:4dn:​new-karen-adelman_orig.jpg?​nolink&​100x151|new-karen-adelman_orig.jpg}}|~~TABLE_CELL_WRAP_START~~<​WRAP>​+|~~TABLE_CELL_WRAP_START~~<​WRAP>​ 
 +{{4dn:phase1:​new-karen-adelman_orig.jpg?​nolink&​100x151|new-karen-adelman_orig.jpg}} 
 +</​WRAP>​~~TABLE_CELL_WRAP_STOP~~|~~TABLE_CELL_WRAP_START~~<​WRAP>​
  
   * **Elucidating the role of nascent RNA in enhancer-promoter communication and three-dimensional genome organization**   * **Elucidating the role of nascent RNA in enhancer-promoter communication and three-dimensional genome organization**
-  ​* //PI: Karen Adelman, Co-PI: Joanna Wysocka// +   * //PI: Karen Adelman, Co-PI: Joanna Wysocka// 
-  * Harvard Medical School+   ​* Harvard Medical School
  
 </​WRAP>​~~TABLE_CELL_WRAP_STOP~~| </​WRAP>​~~TABLE_CELL_WRAP_STOP~~|
-|{{:4dn:​new-cairnsphoto_orig.jpg?​nolink&​100x134|new-cairnsphoto_orig.jpg}}|~~TABLE_CELL_WRAP_START~~<​WRAP>​+|~~TABLE_CELL_WRAP_START~~<​WRAP>​ 
 +{{4dn:phase1:​new-cairnsphoto_orig.jpg?​nolink&​100x134|new-cairnsphoto_orig.jpg}} 
 +</​WRAP>​~~TABLE_CELL_WRAP_STOP~~|~~TABLE_CELL_WRAP_START~~<​WRAP>​
  
   * **Establishing the 3D chromatin architectural organization of the zebrafish embryonic genome**   * **Establishing the 3D chromatin architectural organization of the zebrafish embryonic genome**
-  ​* //PI: Brad Cairns, Co-PI: Antonio Giraldez//​ +   * //PI: Brad Cairns, Co-PI: Antonio Giraldez//​ 
-  * University of Utah+   ​* University of Utah
  
 </​WRAP>​~~TABLE_CELL_WRAP_STOP~~| </​WRAP>​~~TABLE_CELL_WRAP_STOP~~|
-|{{:4dn:​new-977_orig.jpg?​nolink&​100x127|new-977_orig.jpg}}|~~TABLE_CELL_WRAP_START~~<​WRAP>​+|~~TABLE_CELL_WRAP_START~~<​WRAP>​ 
 +{{4dn:phase1:​new-977_orig.jpg?​nolink&​100x127|new-977_orig.jpg}} 
 +</​WRAP>​~~TABLE_CELL_WRAP_STOP~~|~~TABLE_CELL_WRAP_START~~<​WRAP>​
  
   * **Multi-Contact Conformation Capture: uncovering regulatory hubs and mutually exclusive topologies**   * **Multi-Contact Conformation Capture: uncovering regulatory hubs and mutually exclusive topologies**
-  ​* //PI: Wouter de Laat, Co-PI: Jeroen de Ridder// +   * //PI: Wouter de Laat, Co-PI: Jeroen de Ridder// 
-  * Hubrecht Institute+   ​* Hubrecht Institute
  
 </​WRAP>​~~TABLE_CELL_WRAP_STOP~~| </​WRAP>​~~TABLE_CELL_WRAP_STOP~~|
-|{{:4dn:​new-1431373542441_orig.jpg?​nolink&​100x150|new-1431373542441_orig.jpg}}|~~TABLE_CELL_WRAP_START~~<​WRAP>​+|~~TABLE_CELL_WRAP_START~~<​WRAP>​ 
 +{{4dn:phase1:​new-1431373542441_orig.jpg?​nolink&​100x150|new-1431373542441_orig.jpg}} 
 +</​WRAP>​~~TABLE_CELL_WRAP_STOP~~|~~TABLE_CELL_WRAP_START~~<​WRAP>​
  
   * **Tethered nuclease strategies for in situ mapping of 3D nuclear organization**   * **Tethered nuclease strategies for in situ mapping of 3D nuclear organization**
-  ​* //PI: Steve Henikoff, Co-PIs: Kamran Ahmad, Jay Shendure, William Noble// +   * //PI: Steve Henikoff, Co-PIs: Kamran Ahmad, Jay Shendure, William Noble// 
-  * Fred Hutchinson Cancer Research Center+   ​* Fred Hutchinson Cancer Research Center
  
 </​WRAP>​~~TABLE_CELL_WRAP_STOP~~| </​WRAP>​~~TABLE_CELL_WRAP_STOP~~|
-|{{:4dn:​new-nneretti-photo_orig.jpg?​nolink&​100x139|new-nneretti-photo_orig.jpg}}|~~TABLE_CELL_WRAP_START~~<​WRAP>​+|~~TABLE_CELL_WRAP_START~~<​WRAP>​ 
 +{{4dn:phase1:​new-nneretti-photo_orig.jpg?​nolink&​100x139|new-nneretti-photo_orig.jpg}} 
 +</​WRAP>​~~TABLE_CELL_WRAP_STOP~~|~~TABLE_CELL_WRAP_START~~<​WRAP>​
  
   * **Inference and Validation of Chromosomes 3D Structure via Statistical Shape Analysis of Elastic Curves Models**   * **Inference and Validation of Chromosomes 3D Structure via Statistical Shape Analysis of Elastic Curves Models**
-  ​* //PI: Nicola Neretti, Co-PIs: Anuj Srivastava, Chao-Ting Wu// +   * //PI: Nicola Neretti, Co-PIs: Anuj Srivastava, Chao-Ting Wu// 
-  * Brown University+   ​* Brown University
  
 </​WRAP>​~~TABLE_CELL_WRAP_STOP~~| </​WRAP>​~~TABLE_CELL_WRAP_STOP~~|
-|{{:4dn:​new-598d01d7-b451-4bcd-8e73-c34f4ca958a1-w0_orig.jpeg?​nolink&​100x150|new-598d01d7-b451-4bcd-8e73-c34f4ca958a1-w0_orig.jpeg}}|~~TABLE_CELL_WRAP_START~~<​WRAP>​+|~~TABLE_CELL_WRAP_START~~<​WRAP>​ 
 +{{4dn:phase1:​new-598d01d7-b451-4bcd-8e73-c34f4ca958a1-w0_orig.jpeg?​nolink&​100x150|new-598d01d7-b451-4bcd-8e73-c34f4ca958a1-w0_orig.jpeg}} 
 +</​WRAP>​~~TABLE_CELL_WRAP_STOP~~|~~TABLE_CELL_WRAP_START~~<​WRAP>​
  
   * **The Cell Nucleus under Stress**   * **The Cell Nucleus under Stress**
-  ​* //PI: Karla Neugebauer, Co-PI: Joan Steitz// +   * //PI: Karla Neugebauer, Co-PI: Joan Steitz// 
-  * Yale University+   ​* Yale University
  
 </​WRAP>​~~TABLE_CELL_WRAP_STOP~~| </​WRAP>​~~TABLE_CELL_WRAP_STOP~~|
-|{{:4dn:​new-francois-spitz-1_orig.jpg?​nolink&​100x127|new-francois-spitz-1_orig.jpg}}|~~TABLE_CELL_WRAP_START~~<​WRAP>​+|~~TABLE_CELL_WRAP_START~~<​WRAP>​ 
 +{{4dn:phase1:​new-francois-spitz-1_orig.jpg?​nolink&​100x127|new-francois-spitz-1_orig.jpg}} 
 +</​WRAP>​~~TABLE_CELL_WRAP_STOP~~|~~TABLE_CELL_WRAP_START~~<​WRAP>​
  
   * **Dynamic 3D folding of the mammalian genome: molecular determinants and impact on gene expression in vivo**   * **Dynamic 3D folding of the mammalian genome: molecular determinants and impact on gene expression in vivo**
-  ​* //PI: Francois Spitz, Co-PIs: Leonid Mirny, Thomas Gregor// +   * //PI: Francois Spitz, Co-PIs: Leonid Mirny, Thomas Gregor// 
-  * Institute Pasteur, Paris, France+   ​* Institute Pasteur, Paris, France
  
 </​WRAP>​~~TABLE_CELL_WRAP_STOP~~| </​WRAP>​~~TABLE_CELL_WRAP_STOP~~|
-|{{:4dn:​new-keji-zhao_orig.jpeg?​nolink&​100x134|new-keji-zhao_orig.jpeg}}|~~TABLE_CELL_WRAP_START~~<​WRAP>​+|~~TABLE_CELL_WRAP_START~~<​WRAP>​ 
 +{{4dn:phase1:​new-keji-zhao_orig.jpeg?​nolink&​100x134|new-keji-zhao_orig.jpeg}} 
 +</​WRAP>​~~TABLE_CELL_WRAP_STOP~~|~~TABLE_CELL_WRAP_START~~<​WRAP>​
  
   * **Development of TrAC-loop, a novel technique to detect genome-wide chromatin interactions**   * **Development of TrAC-loop, a novel technique to detect genome-wide chromatin interactions**
-  ​* //PI: Keji Zhao// +   * //PI: Keji Zhao// 
-  * NHLBI+   ​* NHLBI
  
 </​WRAP>​~~TABLE_CELL_WRAP_STOP~~| </​WRAP>​~~TABLE_CELL_WRAP_STOP~~|
-|{{:4dn:​tomipastinen.jpg?​nolink&​100x138|tomipastinen.jpg}}|~~TABLE_CELL_WRAP_START~~<​WRAP>​+|~~TABLE_CELL_WRAP_START~~<​WRAP>​ 
 +{{4dn:phase1:​tomipastinen.jpg?​nolink&​100x138|tomipastinen.jpg}} 
 +</​WRAP>​~~TABLE_CELL_WRAP_STOP~~|~~TABLE_CELL_WRAP_START~~<​WRAP>​
  
   * **Accessing chromatin interactions by high-resolution analyses of correlated regulatory element variation**   * **Accessing chromatin interactions by high-resolution analyses of correlated regulatory element variation**
-  ​* //PI: Tomi Pastinen, CO-PIs: Elin Grundberg, Guillaume Borque// +   * //PI: Tomi Pastinen, CO-PIs: Elin Grundberg, Guillaume Borque// 
-  * McGill University+   ​* McGill University
  
 </​WRAP>​~~TABLE_CELL_WRAP_STOP~~| </​WRAP>​~~TABLE_CELL_WRAP_STOP~~|
-|{{:4dn:​art-petronis.png?​nolink&​100x120}}|~~TABLE_CELL_WRAP_START~~<​WRAP>​+|{{4dn:phase1:​art-petronis.png?​nolink&​100x120}}|~~TABLE_CELL_WRAP_START~~<​WRAP>​
  
   * **Spatiotemporal dynamics of chromatin: the circadian and aging connection**   * **Spatiotemporal dynamics of chromatin: the circadian and aging connection**
-  ​* //PI: Arturas Petronis, CO-PI: Ting Wang// +   * //PI: Arturas Petronis, CO-PI: Ting Wang// 
-  * Centre for Addiction and Mental Health, Canada+   ​* Centre for Addiction and Mental Health, Canada
  
 </​WRAP>​~~TABLE_CELL_WRAP_STOP~~| </​WRAP>​~~TABLE_CELL_WRAP_STOP~~|
 +
 +------------------------------------------------------------------------------------------
 +
 +{{medialist>​4dn:​4dn_opportunity_funds:​transformative_collaborative_project_awards:​}}
  
  
4dn/phase1/4dn_opportunity_funds/transformative_collaborative_project_awards.1550166767.txt.gz · Last modified: 2025/04/22 16:21 (external edit)

Page Tools