User:Nikolai Eroshenko: Difference between revisions
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== Research == | == Research == | ||
gene therapy; gene synthesis; origins of life; protein selection and design; evolution of complexity | gene therapy; gene synthesis; origins of life; protein selection and design; evolution of complexity | ||
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==Patents== | ==Patents== | ||
1. George Church, Sriram Kosuri, '''Nikolai Eroshenko''' (pending) [http://patentscope.wipo.int/search/docservicepdf_pct/id00000019172253.pdf Orthogonal amplification and assembly of nucleic acid sequences] US Patent App 2011057075 (Harvard) | 1. George Church, Sriram Kosuri, '''Nikolai Eroshenko''' (pending) [http://patentscope.wipo.int/search/docservicepdf_pct/id00000019172253.pdf Orthogonal amplification and assembly of nucleic acid sequences] US Patent App 2011057075 (Harvard) | ||
== News == | |||
[http://www.biotechniques.com/news/Refining-a-Recombinase/biotechniques-347492.html#.UmV-fZSifTw Refining a Recombinase], BioTechniques, Oct. 20 2013, Jeffrey M. Perkel | |||
[http://www.nature.com/nrg/journal/v12/n1/full/nrg2924.html Technology: Making more genes, better and for less], Nature Reviews Genetics, January 2011, Louisa Flintoft | |||
[http://www.nature.com/nbt/journal/v28/n12/full/nbt.1723.html Megabases for kilodollars], Nature Biotechnology, Dec. 07 2010, Mikkel Algire, Radha Krishnakumar & Chuck Merryman | |||
==Labs== | ==Labs== | ||
Revision as of 12:29, 21 October 2013
Research
gene therapy; gene synthesis; origins of life; protein selection and design; evolution of complexity
Publications
6. Nikolai Eroshenko, George Church (2013) Mutants of Cre recombinase with improved accuracy. Nat Commun 4:2509
5. Nikolai Eroshenko*, Rukmani Ramachandran*, Vamsi Yadavalli, Raj R. Rao (2013) Effect of substrate stiffness on early human embryonic stem cell differentiation. J Biol Eng 7:7
4. Shilpa Iyer, Ena Xiao, Khaled Alsayegh, Nikolai Eroshenko, Marion J. Riggs, James P. Bennett. Jr & Raj R. Rao (2012) Mitochondrial gene replacement in human pluripotent stem cell derived neural progenitors. Gene Ther 19:469
3. Nikolai Eroshenko*, Sriram Kosuri*, Adam H. Marblestone, Nicholas Conway, George Church (2012) Gene assembly from chip-synthesized oligonucleotides. Curr Prot Chem Biol 4:1
2. Sriram Kosuri*, Nikolai Eroshenko*, Emily LeProust, Michael Super, Jeffrey Way, Jin Billy Li & George Church (2010) Scalable gene synthesis by selective amplification of DNA pools from high-fidelity microchips. Nat Biotechnol 28:1295
1. Sheena Abraham, Nikolai Eroshenko & Raj R. Rao (2009) Role of bioinspired polymers in determination of pluripotent stem cell fate. Regen Med 4:561
Patents
1. George Church, Sriram Kosuri, Nikolai Eroshenko (pending) Orthogonal amplification and assembly of nucleic acid sequences US Patent App 2011057075 (Harvard)
News
Refining a Recombinase, BioTechniques, Oct. 20 2013, Jeffrey M. Perkel
Technology: Making more genes, better and for less, Nature Reviews Genetics, January 2011, Louisa Flintoft
Megabases for kilodollars, Nature Biotechnology, Dec. 07 2010, Mikkel Algire, Radha Krishnakumar & Chuck Merryman
Labs
George Church (2009-now)
Wyss Institute (2009-2011)
Raj Rao (2006-2008)
Curtis Taylor (2006-2007)
Education
Harvard University (2008-now) PhD candidate, Bioengineering
Virginia Commonwealth University (2005-2008) BS, Biomedical Engineering
Contact
eroshenkona AT gmail
Nikolai Eroshenko
77 Ave. Louis Pasteur
NRB 238
Boston, MA 02115
