Natural Transformation in Vibrio parahaemolyticus: a Rapid Method To Create Genetic Deletions | Journal of Bacteriology
Retraction of DNA-bound type IV competence pili initiates DNA uptake during natural transformation in Vibrio cholerae | Nature Microbiology
Science and Technology: Topic: News at IU: Indiana University
Spatiotemporal Analysis of DNA Integration during Natural Transformation Reveals a Mode of Nongenetic Inheritance in Bacteria
CryoEM structure of the type IVa pilus secretin required for natural competence in Vibrio cholerae
IU scientists watch bacteria "harpoon" DNA to speed their evolution: 2018 News: News: News & Events: Department of Biology: Indiana University Bloomington
IU scientists watch bacteria 'harpoon' DNA to speed their evolution: News at IU: Indiana University
Dalia receives MIRA to study biofilms: 2018 News: News: News & Events: Department of Biology: Indiana University Bloomington
Spatiotemporal Analysis of DNA Integration during Natural Transformation Reveals a Mode of Nongenetic Inheritance in Bacteria. - Cell - X-MOL
Retraction of DNA-bound type IV competence pili initiates DNA uptake during natural transformation in Vibrio cholerae | Request PDF
Using Harpoon-Like Appendages, Bacteria 'Fish' for New DNA - The New York Times
Horizontal gene transfer by natural transformation promotes both genetic and epigenetic inheritance of traits | bioRxiv
Type IV competence pilus dynamic activity and DNA binding are critical... | Download Scientific Diagram
Ankur B. Dalia's research works | Indiana University Bloomington, Indiana (IUB) and other places
IU scientists watch bacteria 'harpoon' DNA to speed their evolution: News at IU: Indiana University
How to transfer super strength #BacteriaInside | Quarry Life Award
Graduate Student Spotlight: Jennifer... - Microbiology Graduate Student Association - MGSA at Indiana University | Facebook
Ankur B. Dalia's research works | Indiana University Bloomington, Indiana (IUB) and other places
CryoEM structure of the type IVa pilus secretin required for natural competence in Vibrio cholerae | Nature Communications