1
1
5
5
19
19
13
13
9
9
21
21
20
20
8
8
10
10
2
2
2019
2009
Company (113)University (34)Investor (16)
1 - 10 of 113
Sort by
Patent
Publication NumberUS 10337038Filing StatusIssued PatentAvailabilityUnknownFiling Date2014-07-18Publication Date2019-07-02
This invention relates to metabolically engineered microorganism strains, such as bacterial strains, in which there is an increased utilization of malonyl-CoA for production of a fatty acid or fatty acid derived product, wherein the modified microorganism produces fatty acyl-CoA intermediates via a malonyl-CoA dependent but malonyl-ACP independent mechanism.
Patent
Publication NumberBR PI918882 A2Filing StatusPatent ApplicationAvailabilityUnknownFiling Date2009-07-23Publication Date2019-02-26
The present invention relates to methods, systems and compositions, including genetically modified microorganisms, adapted to exhibit increased tolerance to 3-hydroxypropionic acid (3-HP), particularly through alterations to interrelated metabolic pathways identified herein as the 3-HP toleragenic pathway complex (
Patent
Publication NumberUS 10155937Filing StatusIssued PatentAvailabilityUnknownFiling Date2016-09-19Publication Date2018-12-18
The present invention provides various combinations of genetic modifications to a transformed host cell that provide increase conversion of carbon to a chemical product. The present invention also provides methods of fermentation and methods of making various chemical products.
Patent
Publication NumberUS 10100342Filing StatusIssued PatentAvailabilityUnknownFiling Date2016-05-27Publication Date2018-10-16
This invention relates to metabolically engineered microorganism strains, such as bacterial strains, in which there is an increased utilization of malonyl-CoA for production of a chemical product, which includes 3-hydroxypropionic acid.
Patent
Publication NumberEP 3385388 A1Filing StatusPatent ApplicationAvailabilityUnknownFiling Date2012-03-22Publication Date2018-10-10
Metabolically engineered microorganism strains are disclosed, such as bacterial strains, in which there is an increased utilization of malonyl-CoA for production of a chemical product. Such chemical products include polyketides, 3-hydroxypropionic acid, and various other chemical products described herein. Methods of production also may be applied to further downstream products, such as consumer products. In various embodiments, modifications to a microorganism and/or culture system divert, a…
Patent
Publication NumberUS 10047383Filing StatusIssued PatentAvailabilityUnknownFiling Date2014-03-17Publication Date2018-08-14
The present invention provides various combinations of genetic modifications to a transformed host cell that provide increase conversion of carbon to a chemical product. The present invention also provides methods of fermentation and methods of making various chemical products.
Patent
Publication NumberBR PI915749 A2Filing StatusPatent ApplicationAvailabilityUnknownFiling Date2009-07-08Publication Date2018-07-10
Patent
Publication NumberEP 2480673 B1Filing StatusIssued PatentAvailabilityUnknownFiling Date2010-09-27Publication Date2018-05-23
Patent
Publication NumberEP 2689020 B1Filing StatusIssued PatentAvailabilityUnknownFiling Date2012-03-22Publication Date2018-05-16
Patent
Publication NumberBR 112015002940 A2Filing StatusPatent ApplicationAvailabilityUnknownFiling Date2013-08-09Publication Date2018-04-24
This invention relates to metabolically engineered microorganism strains, such as bacterial strains, in which there is an increased utilization of malonyl-CoA for production of a fatty acid or fatty acid derived product, wherein the modified microorganism produces fatty acyl-CoA intermediates via a malonyl-CoA dependent but malonyl-ACP independent mechanism
We found 113 documents that match your Search
Patents: 110
SEC Filings: 3

Wellspring Search is the world's most comprehensive collection of enriched content about emerging and licensable technology innovations.


Already a member? Sign in