MICHAEL JOHN LYNCH, D.C.
Chiropractic at 16 St, Boulder, CO
License number
Colorado CHR.0007186
Category
Chiropractic
Type
Chiropractor
Address
Address
4725 16Th St APT 103, Boulder, CO 80304
Phone
(720) 636-6064
Personal information
See more information about MICHAEL JOHN LYNCH at radaris.comName
Address
Phone
5138 Corbett Dr, Fort Collins, CO 80528
4750 6Th St, Boulder, CO 80304
4463 S Urban Ct, Morrison, CO 80465
4520 Lexi Cir, Broomfield, CO 80023
Professional information
See more information about MICHAEL JOHN LYNCH at trustoria.com
Vice President, Product Management And Brand Management At Envysion
Vice President, Product Management And Brand Management At Envysion
Position:
Vice President, Product Management and Brand Management at Envysion, Co-Owner; Enterprise Services subsidiary at Silicon Mountain Technologies
Location:
Boulder, Colorado
Industry:
Information Technology and Services
Work:
Envysion
- Louisville, Colorado since Mar 2013
-
Vice President, Product Management and Brand Management
Silicon Mountain Technologies
- Broomfield, CO since Jan 2012
-
Co-Owner; Enterprise Services subsidiary
SageFire, Inc.
- Boulder, Colorado Oct 2006 - Dec 2011
-
Chief Operating Officer; Product Managment; Client Management
SageFire, Inc.
- Boulder, Colorado Mar 2009 - Oct 2011
-
Board of Directors
Massively Parallel Technologies, Inc.
- Boulder, Colorado Dec 2005 - Oct 2006
-
Chief Marketing Officer
HyperSpace Communications, Inc.
- Denver, Colorado Oct 2002 - Nov 2005
-
Vice President, Product Management & Business Development
Avolent, Inc.
- Boulder, Colorado; Amsterdam, The Netherlands 1997 - 2002
-
Co-Founder, Vice President, Product Management; Executive Vice President, European Operations
Systor AG (acquired by Accenture)
- Zürich, Switzerland 1995 - 1997
-
Managing Director - Zürich
SHL Systemhouse (acquired by MCI Communications)
- Boulder, Colorado 1992 - 1995
-
Managing Director
Morris Information Systems
- Dhahran, Saudi Arabia 1991 - 1993
-
Practice and Group Manager - Saudi Arabia
Education:
Technische Universität Carolo-Wilhelmina zu Braunschweig 1991 - 1991
Language, Language University of Oklahoma - Price College of Business 1986 - 1991
BBA, International Economics, Marketing, Management Information Systems Hochschule für Okonomie, former East Berlin 1990 - 1990
Degree Contribution, Closed vs. Open Economies
Language, Language University of Oklahoma - Price College of Business 1986 - 1991
BBA, International Economics, Marketing, Management Information Systems Hochschule für Okonomie, former East Berlin 1990 - 1990
Degree Contribution, Closed vs. Open Economies
Skills:
Cloud Computing, Agile Methodologies, Start-ups, SaaS, Enterprise Software, Product Management, Software Development, Enterprise Solution Sales, Business Development, Franchising, Leadership, Web Applications, Private Funding, Mergers, Mobile Applications, E-commerce, Entrepreneurship, Business Analysis, Product Marketing, Mergers & Acquisitions, Mobile Devices, Strategy, Telecommunications, Program Management, Software Engineering, Product Development, Scrum, Management, Venture Capital, Strategic Partnerships, Project Management, Executive Management, Architecture, Cross-functional Team Leadership, Direct Sales, CRM, Operations Management, B2B, Marketing, Software Project Management, Agile Project Management, Professional Services, Business Intelligence
Languages:
German
Mixed Library Parallel Gene Mapping Quantitative Micro-Array Technique For Genome-Wide Identification Of Trait Conferring Genes
Mixed Library Parallel Gene Mapping Quantitative Micro-Array Technique For Genome-Wide Identification Of Trait Conferring Genes
US Patent:
8467975, Jun 18, 2013
Filed:
Jul 4, 2011
Appl. No.:
13/175929
Inventors:
Gill Ryan T. - Denver CO, US
Michael D. Lynch - Boulder CO, US
Tanya E. W. Lipscomb - Boulder CO, US
Michael D. Lynch - Boulder CO, US
Tanya E. W. Lipscomb - Boulder CO, US
Assignee:
The Regents of the University of Colorado, a Body Corporate - Denver CO
International Classification:
G01N 33/48, G01N 31/00, G06G 7/48, G06G 7/58
US Classification:
702 19, 702 22, 703 11, 703 12
Abstract:
The present disclosure concerns methods and compositions relating to mixed-library parallel gene trait mapping. In particular embodiments, the methods concern quantitative microarray hybridization techniques for genome-wide identification of trait conferring genes. In other embodiments, the compositions concern genetic elements that confer or are associated with a trait. In an exemplary embodiment, the trait is enhanced growth rate. In another exemplary embodiment, genetic elements that confer enhanced bacterial growth rate comprise part or all of the sequences of SEQ ID NO:1, SEQ ID NO:2, SEQ ID NO:3, SEQ ID NO:4 or SEQ ID NO:5. In other embodiments, the genetic elements that confer enhanced bacterial growth rate correspond to the YliF, adrA, yeaP, yddV or ydeH genes of.
Methods, Systems And Compositions For Increased Microorganism Tolerance To And Production Of 3-Hydroxypropionic Acid (3-Hp)
Methods, Systems And Compositions For Increased Microorganism Tolerance To And Production Of 3-Hydroxypropionic Acid (3-Hp)
US Patent:
2012026, Oct 18, 2012
Filed:
Mar 9, 2012
Appl. No.:
13/416103
Inventors:
Tanya E.W. Lipscomb - Boulder CO, US
Michael D. Lynch - Boulder CO, US
Ryan T. Gill - Denver CO, US
Michael D. Lynch - Boulder CO, US
Ryan T. Gill - Denver CO, US
Assignee:
The Regents of the University of Colorado, a body corporate - Denver CO
OPX Biotechnologies, Inc. - Boulder CO
OPX Biotechnologies, Inc. - Boulder CO
International Classification:
C12P 7/44, C07C 57/04, C08F 20/06, C07C 59/01
US Classification:
5263171, 562579, 562598, 435142
Abstract:
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 (“3HPTGC”). In various embodiments these organisms are genetically modified so that an increased 3-HP tolerance is achieved. Also, genetic modifications may be made to provide at least one genetic modification to any of one or more 3-HP biosynthesis pathways in microorganisms comprising one or more genetic modifications of the 3HPTGC.
Methods, Systems And Compositions For Increased Microorganism Tolerance To And Production Of 3-Hydroxypropionic Acid (3-Hp)
Methods, Systems And Compositions For Increased Microorganism Tolerance To And Production Of 3-Hydroxypropionic Acid (3-Hp)
US Patent:
2011024, Oct 6, 2011
Filed:
Jul 23, 2009
Appl. No.:
13/055138
Inventors:
Tanya E.W. Lipscomb - Boulder CO, US
Michael D. Lynch - Boulder CO, US
Ryan T. Gill - Denver CO, US
Michael D. Lynch - Boulder CO, US
Ryan T. Gill - Denver CO, US
International Classification:
C12N 1/00, C12N 15/63
US Classification:
435471, 435243
Abstract:
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 (“3HPTGC”). In various embodiments these organisms are genetically modified so that an increased 3-HP tolerance is achieved. Also, genetic modifications may be made to provide at least one genetic modification to any of one or more 3-HP biosynthesis pathways in microorganisms comprising one or more genetic modifications of the 3HPTGC.
Compositions And Methods For 3-Hydroxypropionate Bio-Production From Biomass
Compositions And Methods For 3-Hydroxypropionate Bio-Production From Biomass
US Patent:
8048624, Nov 1, 2011
Filed:
Dec 4, 2008
Appl. No.:
12/328588
Inventors:
Michael D. Lynch - Boulder CO, US
Assignee:
OPX Biotechnologies, Inc. - Boulder CO
International Classification:
C12Q 1/68
US Classification:
435 6, 43525233, 435325, 435141, 435158
Abstract:
Methods of obtaining mutant nucleic acid sequences that demonstrate elevated oxaloacetate α-decarboxylase activity are provided. Compositions, such as genetically modified microorganisms that comprise such mutant nucleic acid sequences, are described, as are methods to obtain the same.
Methods, Systems, And Compositions For Microbial Bio-Production Of Biomolecules Using Syngas Components, Or Sugars, As Feedstocks
Methods, Systems, And Compositions For Microbial Bio-Production Of Biomolecules Using Syngas Components, Or Sugars, As Feedstocks
US Patent:
2011012, May 26, 2011
Filed:
Nov 19, 2010
Appl. No.:
12/950863
Inventors:
Michael D. Lynch - Boulder CO, US
Assignee:
OPX Biotechnologies, Inc. - Boulder CO
International Classification:
C12P 7/64, C12P 7/24, C12P 7/22, C12N 15/74, C12N 1/00, C12N 1/21
US Classification:
435134, 435147, 435156, 435471, 435243, 4352523
Abstract:
This invention relates to microorganism cells that are modified to increase conversion of carbon dioxide and/or carbon monoxide to a product, such as a fatty acid methyl ester, and to related methods and systems. A pathway from the Calvin Benson Cycle to the product is provided, which in various embodiments involves use of heterologous proteins that exhibit desired enzymatic conversions.
Microorganism Production Of High-Value Chemical Products, And Related Compositions, Methods And Systems
Microorganism Production Of High-Value Chemical Products, And Related Compositions, Methods And Systems
US Patent:
2013012, May 16, 2013
Filed:
Jan 27, 2011
Appl. No.:
13/575581
Inventors:
Michael D. Lynch - Boulder CO, US
Ryan T. Gill - Denver CO, US
Tanya E.W. Lipscomb - Boulder CO, US
Ryan T. Gill - Denver CO, US
Tanya E.W. Lipscomb - Boulder CO, US
International Classification:
C12N 1/21, C12M 1/00, C12P 19/60, C12N 1/19, C12P 29/00, C12P 19/62
US Classification:
435 64, 435 76, 435 75, 4352523, 43525233, 43525234, 43525231, 43525421, 43525423, 43525232, 43525422, 4352542, 4352941
Abstract:
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 polyketides and 3-hydroxypropionic acid.
Production Of An Organic Acid And/Or Related Chemicals
Production Of An Organic Acid And/Or Related Chemicals
US Patent:
2011012, May 26, 2011
Filed:
Nov 22, 2010
Appl. No.:
12/952149
Inventors:
Michael D. Lynch - Boulder CO, US
Assignee:
OPX Biotechnologies, Inc. - Boulder CO
International Classification:
A61L 15/22, C12P 7/42, C07C 51/377, C12P 7/40, C12N 1/00, C12N 1/21, C12N 15/74, C07C 59/01, D04H 11/00
US Classification:
604367, 435146, 562599, 435136, 435243, 4352523, 435471, 562579, 428 85
Abstract:
The present invention relates to methods, systems and compositions, including genetically modified microorganisms, e.g., recombinant microorganisms, adapted to utilize one or more synthesis gas components in a microbial bio-production of one or more desired biomolecules and products of commercial interest.
Methods For Producing 3-Hydroxypropionic Acid And Other Products
Methods For Producing 3-Hydroxypropionic Acid And Other Products
US Patent:
2014004, Feb 13, 2014
Filed:
Jun 12, 2013
Appl. No.:
13/916534
Inventors:
Michael D. LYNCH - Boulder CO, US
Ryan T. GILL - Denver CO, US
Tanya E.W. LIPSCOMB - Boulder CO, US
Ryan T. GILL - Denver CO, US
Tanya E.W. LIPSCOMB - Boulder CO, US
Assignee:
THE REGENTS OF THE UNIVERSITY OF COLORADO - Denver CO
OPX BIOTECHNOLOGIES, INC. - Boulder CO
OPX BIOTECHNOLOGIES, INC. - Boulder CO
International Classification:
C12P 7/42, C12P 7/40, C12N 15/63
US Classification:
435146, 4352542, 4352523, 43525231, 43525233, 435471, 435136
Abstract:
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.
Methods, Compositions And Systems For Biosynthetic Bio-Production Of 1,4-Butanediol
Methods, Compositions And Systems For Biosynthetic Bio-Production Of 1,4-Butanediol
US Patent:
2011019, Aug 4, 2011
Filed:
Jul 8, 2009
Appl. No.:
13/002941
Inventors:
Michael D. Lynch - Boulder CO, US
International Classification:
C07D 307/33, C12N 1/00, C12P 7/18, C12M 1/00, C07D 307/08, C07C 269/00, C07C 67/08
US Classification:
549295, 435243, 435158, 4352891, 549509, 560 1
Abstract:
Three biosynthetic pathways are disclosed for microorganism bio-production of 1,4-Butanediol from various carbon sources. Exemplary methods are provided. The recombinant microorganisms comprising any of these 1,4-Butanediol biosynthesis pathways may also comprise genetic modifications directed to improved tolerance for 1,4-Butanediol.