User:Dileep D. Monie: Difference between revisions

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==Contact Info==
==Contact Info==
[[Image:OWWEmblem.png|thumb|right|Dileep D. Monie (an artistic interpretation)]]
[[Image:Dileep.jpg|thumb|right|Dileep D. Monie]]


*Dileep D. Monie
*Dileep D. Monie
*[http://www.jhu.edu/ Johns Hopkins University]
**[http://www.mayo.edu/mayo-clinic-graduate-school-of-biomedical-sciences/programs/medical-scientist-training-program MD-PhD Student, Mayo Clinic Medical Scientist Training Program]
*Baltimore, MD, USA
**[http://scholar.harvard.edu/dmonie Teaching Fellow (Bioengineering), Harvard University]
*[[Special:Emailuser/Dileep D. Monie|Email me through OpenWetWare]]
**[https://www.broadinstitute.org/broad_directory/webform/nojs/8560/ZG1vbmllQGJyb2FkaW5zdGl0dXRlLm9yZw%253D%253D/Dileep%2520Monie Associated Researcher (Medical & Population Genetics), Broad Institute of MIT and Harvard]
 
**[[BUGSS|Director & Treasurer, Baltimore Under Ground Science Space (BUGSS)]]
I work in the [http://www.hopkinsmedicine.org/wilmer Wilmer Eye Institute] at the [http://www.hopkinsmedicine.org/som/ JHU School of Medicine].  I learned about [[OpenWetWare]] from the [http://events.ccc.de/congress/2007/Fahrplan/events/2329.en.html 24C3 Endy lecture], and I've joined because I am interested in contributing to the [[The_BioBricks_Foundation:Standards/Technical|BBF Technical Standards]].


I learned about [[OpenWetWare]] from [http://events.ccc.de/congress/2007/Fahrplan/events/2329.en.html Drew Endy's 24C3 lecture], and I've joined because I am interested in making biology easier to engineer. Please feel free to [[Special:Emailuser/Dileep D. Monie|contact me on OWW]] or [http://www.linkedin.com/in/dmonie connect on LinkedIn].
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==Research Interests==
==Research Interests==
# Basic Synthetic Biology
# Synthetic Biology
## Epigenetics - Manipulating chromatin structures as a form of wetware programming in eukaryotic systems
## Standards - Establishing standards for biological parts to ensure interoperability and allow for construction of complex systems
## Biocircuits - Designing devices and chassis for cellular computation and communications
## Biocircuits - Implementing wetware abstraction layers to allow creation of devices for cellular computation and communications
## Virology - Engineering viruses and pseudoviruses to deliver biological parts to cellular systems
## Epigenetics - Manipulating chromatin structures with histone and DNA modifications as a form of biological software programming
# Applied Synthetic Biology
## Delivery Systems - Making viruses or other vectors for targeted delivery of DNA parts into an established host genome
# Bioengineering
## Immunology - Defining the theoretical framework and designing components for an artificial immune system
## Immunology - Defining the theoretical framework and designing components for an artificial immune system
## Drug Discovery - Designing cell reporter systems to detect biomolecule interactions and perturbations in signal transduction
## Astrobiology - Engineering energy pathways and lifeforms sustainable in extreme environments
## Astrobiology - Engineering energy pathways and lifeforms sustainable in extreme environments
## Biocomputing - Exploring silicon-based hardware-wetware communications interfaces
## Biocomputing - Integrating logic biocircuits on a very large scale in single cell and multicellular systems
# Biosecurity and Biosafety
# Biosecurity and Biosafety
## Policy - Balancing the needs of an open hacker community with access restrictions
## Policy - Balancing the needs of an open hacker community with access restrictions
## Testing and Certification - Establishing an "Underwriters Laboratories" for developing standards and test procedures for biosafety
## Testing and Certification - Establishing an "Underwriters Laboratories" for developing standards and test procedures for biosafety
## Countermeasures - Creating fail-safe mechanisms to mitigate potential synthetic biology abuses
## Countermeasures - Designing fail-safe mechanisms to mitigate potential synthetic biology abuses
-->


==Current Projects==
==BBF Contributions==
*[[The_BioBricks_Foundation:Standards/Technical/Measurement|Promoter Measurement Test]] (see [[The_BioBricks_Foundation:Standards/Technical/Measurement/Promoter_characterization_experiment_(FACS)|protocol]])
*[[The_BioBricks_Foundation:Standards/Technical|Technical Standards]]
*[[/Notebook/BBF_Standards_Measurement|Promoter Measurement Test]]
**Methodology: [http://www.jbioleng.org/content/3/1/4 Measuring the activity of BioBrick promoters using an in vivo reference standard]


My wet lab contributions are documented in my [[User:Dileep_D._Monie/Notebook|OWW Notebook]].
==OWW Brain Dump==
*[[/Notebook|Notebook]]
*[[/Recipes|Recipes]]
*[http://openwetware.org/index.php?title=Special%3ALog&type=upload&user=Dileep+D.+Monie Upload log]


<!--
==Publications==
==Publications==
Replace the PubMed ID's ("pmid=#######") below with the PubMed ID's for your publications. You can add or remove lines as needed
*[http://scholar.harvard.edu/dmonie/publications Harvard Scholar]
<biblio>
*[https://scholar.google.com/citations?user=rL5nruoAAAAJ Google Scholar]
#Paper1 pmid=6947258
*[http://www.ncbi.nlm.nih.gov/pubmed/?term=Monie+DD PubMed]
#Paper2 pmid=13718526
// leave a comment about a paper here
#Book1 isbn=0879697164
</biblio>
-->

Latest revision as of 13:12, 4 February 2017

Contact Info

Dileep D. Monie

I learned about OpenWetWare from Drew Endy's 24C3 lecture, and I've joined because I am interested in making biology easier to engineer. Please feel free to contact me on OWW or connect on LinkedIn.

BBF Contributions

OWW Brain Dump

Publications

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