1 |
Microorganisms engineered to use unconventional sources of nitrogen |
US14759878 |
2014-01-06 |
US09765348B2 |
2017-09-19 |
Colin R. South; Arthur J. Shaw, IV |
Disclosed are genetically engineered organisms, such as yeast and bacteria, that have the ability to metabolize atypical nitrogen sources, such as melamine and cyanamide. Fermentation methods using the genetically engineered organisms are also described. The methods of the invention are robust processes for the industrial bioproduction of a variety of compounds, including commodities, fine chemicals, and pharmaceuticals. |
2 |
MICROORGANISMS ENGINEERED TO USE UNCONVENTIONAL SOURCES OF NITROGEN |
US15679312 |
2017-08-17 |
US20180051294A1 |
2018-02-22 |
Colin South; Arthur J Shaw, IV |
Disclosed are genetically engineered organisms, such as yeast and bacteria, that have the ability to metabolize atypical nitrogen sources, such as melamine and cyanamide. Fermentation methods using the genetically engineered organisms are also described. The methods of the invention are robust processes for the industrial bioproduction of a variety of compounds, including commodities, fine chemicals, and pharmaceuticals. |
3 |
MICROORGANISMS ENGINEERED TO USE UNCONVENTIONAL SOURCES OF NITROGEN |
US14759878 |
2014-01-06 |
US20160115492A1 |
2016-04-28 |
Colin R. South; Arthur J. Shaw, IV |
Disclosed are genetically engineered organisms, such as yeast and bacteria, that have the ability to metabolize atypical nitrogen sources, such as melamine and cyanamide. Fermentation methods using the genetically engineered organisms are also described. The methods of the invention are robust processes for the industrial bioproduction of a variety of compounds, including commodities, fine chemicals, and pharmaceuticals. |
4 |
MICROORGANISMS ENGINEERED TO USE UNCONVENTIONAL SOURCES OF NITROGEN |
EP14735413.8 |
2014-01-06 |
EP2941481A2 |
2015-11-11 |
SOUTH, Colin, R.; SHAW, Arthur, J., IV |
Disclosed are genetically engineered organisms, such as yeast and bacteria, that have the ability to metabolize atypical nitrogen sources, such as melamine and cyanamide. Fermentation methods using the genetically engineered organisms are also described. The methods of the invention are robust processes for the industrial bioproduction of a variety of compounds, including commodities, fine chemicals, and pharmaceuticals. |
5 |
MICROORGANISMS ENGINEERED TO USE UNCONVENTIONAL SOURCES OF NITROGEN |
EP14735413 |
2014-01-06 |
EP2941481A4 |
2016-11-02 |
SOUTH COLIN R; SHAW ARTHUR J IV |
Disclosed are genetically engineered organisms, such as yeast and bacteria, that have the ability to metabolize atypical nitrogen sources, such as melamine and cyanamide. Fermentation methods using the genetically engineered organisms are also described. The methods of the invention are robust processes for the industrial bioproduction of a variety of compounds, including commodities, fine chemicals, and pharmaceuticals. |
6 |
MICROORGANISMS ENGINEERED TO USE UNCONVENTIONAL SOURCES OF NITROGEN |
PCT/US2014010332 |
2014-01-06 |
WO2014107660A2 |
2014-07-10 |
SOUTH COLIN R; SHAW ARTHUR J IV |
Disclosed are genetically engineered organisms, such as yeast and bacteria, that have the ability to metabolize atypical nitrogen sources, such as melamine and cyanamide. Fermentation methods using the genetically engineered organisms are also described. The methods of the invention are robust processes for the industrial bioproduction of a variety of compounds, including commodities, fine chemicals, and pharmaceuticals. |