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Richard P Burlingame

from Nicholasville, KY
Age ~71
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Also known as:
Richard P Burlingane, Rita Burlingame
Phone and address:
181 Water Works Rd, Nicholasville, KY 40356
(561) 743-4524
Related to:
Michael B Privett, 58Andrea A Threatt, 58
Connected to:
Amanda M Burlingham, 42Amy Burlingame, 46Brad P Burling, 50Brad R Burlingham, 37Brett R Burling, 61Bridgett A Burling, 59Bruce H Burling, 79Cheryl U Burlingame, 60Christopher M Burling, 37Corey Burlingame, 33

Richard Burlingame Phones & Addresses

  • 181 Water Works Rd, Nicholasville, KY 40356 (561) 743-4524
  • Lexington, KY
  • 19651 Red Maple Ln, Jupiter, FL 33458 (561) 743-4524
  • 808 9Th St, Manitowoc, WI 54220 (920) 682-1997
  • Malden, MA
  • Palm Beach, FL
  • Madison, WI
  • 181 Water Works Rd, Nicholasville, KY 40356 (561) 870-4134

Education

Degree: Graduate or professional degree

Resumes

Resumes

Richard Burlingame Photo 1

Vp R&D At Allylix, Inc.

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Location:
Lexington, Kentucky Area
Industry:
Biotechnology
Richard Burlingame Photo 2

Consultant

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Location:
181 Water Works Rd, Nicholasville, KY 40356
Industry:
Biotechnology
Work:
Allylix Nov 2006 - Dec 2014
Vice President R and D
Burlingame Biotechnology Consulting Nov 2006 - Dec 2014
Consultant
Dyadic International, Inc. Oct 2001 - Nov 2006
Executive Director R and D
Bio-Technical Resources Jun 1989 - Oct 2001
Senior Research Scientist and Project Manager
Biotechnica International Aug 1986 - Jun 1989
Senior Research Scientist and Research Scientist
Education:
University of Wisconsin - Madison 1983 - 1986
University of Minnesota 1978 - 1983
Doctorates, Doctor of Philosophy, Biochemistry University of Illinois at Urbana - Champaign 1971 - 1975
Bachelors, Bachelor of Science, Biochemistry
Skills:
Biotechnology
Life Sciences
Molecular Biology
Biochemistry
Technology Transfer
Chemistry
Product Development
Microbiology
Fermentation Process Development
High Throughput Screening
Strain Development
Executive Management
R&D
Commercialization
Fermentation
Protein Purification
Protein Chemistry
Cell Culture
Research and Development
Validation
Languages:
French
Richard Burlingame Photo 3

Richard Burlingame

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Richard Burlingame Photo 4

Richard Burlingame

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Location:
United States

Publications

Us Patents

Process And Materials For Production Of Glucosamine

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US Patent:
6372457, Apr 16, 2002
Filed:
Jul 15, 1998
Appl. No.:
09/115475
Inventors:
Alan Berry - Manitowoc WI
Richard P. Burlingame - Manitowoc WI
James R. Millis - Kohler WI
Assignee:
Arkion Life Sciences LLC - Wilmington DE
International Classification:
C12P 1900
US Classification:
435 72, 435 41, 435183, 435193, 43525233, 536 231
Abstract:
The present invention relates to a method and materials for producing glucosamine by fermentation of a genetically modified microorganism. Included in the present invention are genetically modified microorganisms useful in the present method for producing glucsamine, as well as recombinant nucleic acid molecules and the proteins produces by such recombinant nucleic acid molecules.

Transformation System In The Field Of Filamentous Fungal Hosts

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US Patent:
6573086, Jun 3, 2003
Filed:
Apr 13, 2000
Appl. No.:
09/548938
Inventors:
Richard Paul Burlingame - Manitowoc WI
Philip Terry Olson - Manitowoc WI
Arkady Panteleimonovich Sinitsyn - Moscow, RU
Martine Parriche - Toulouse, FR
Jean Christophe Bousson - Quint-Fonsegrives, FR
Christine Marie Pynnonen - Manitowoc WI
Peter Jan Punt - Houten, NL
Cornelia Marie Johanna Van Zeijl - Vieuten-De Meern, NL
Assignee:
Dyadic International, Inc. - Jupiter FL
International Classification:
C12N 115
US Classification:
43525411, 435 691, 435209
Abstract:
A novel transformation system in the field of filamentous fungal hosts for expressing and secreting heterologous proteins or polypeptides is described. The invention also covers a process for producing large amounts of polypeptide or protein in an economical manner. The system comprises a transformed or transfected fungal strain of the genus Chrysosporium, more particularly of and mutants or derivatives thereof. It also covers transformants containing Chrysosporium coding sequences, as well expression-regulating sequences of Chrysosporium genes. Also provided are novel fungal enzymes and their encoding sequences and expression-regulating sequences.

Transformation System In The Field Of Filamentous Fungal Hosts

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US Patent:
7399627, Jul 15, 2008
Filed:
Mar 21, 2003
Appl. No.:
10/394568
Inventors:
Mark Aaron Emalfarb - Jupiter FL, US
Richard Paul Burlingame - Manitowoc WI, US
Philip Terry Olson - Manitowoc WI, US
Arkady Panteleimonovich Sinitsyn - Moscow, RU
Martine Parriche - Toulouse, FR
Jean Christophe Bousson - Quint-Fonsegrives, FR
Christine Marie Pynnonen - Manitowoc WI, US
Peter Jan Punt - Houten, NL
Cornelia Marie Johanna Van Zeijl - Vieuten-de Meern, NL
Assignee:
Dyadic International (USA), Inc. - Jupiter FL
International Classification:
C12N 1/15
US Classification:
43525411, 435 691
Abstract:
A novel transformation system in the field of filamentous fungal hosts for expressing and secreting heterologous proteins or polypeptides is described. The invention also covers a process for producing large amounts of polypeptide or protein in an economical manner. The system comprises a transformed or transfected fungal strain of the genus , more particularly of and mutants or derivatives thereof. It also covers transformants containing coding sequences, as well expression-regulating sequences of genes. Also provided are novel fungal enzymes and their encoding sequences and expression-regulating sequences.

Construction Of Highly Efficient Cellulase Compositions For Enzymatic Hydrolysis Of Cellulose

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US Patent:
7883872, Feb 8, 2011
Filed:
Jul 13, 2006
Appl. No.:
11/487547
Inventors:
Alexander V. Gusakov - Moscow, RU
Tatyana N. Salanovich - Moscow, RU
Alexey I. Antonov - Moscow, RU
Boris B. Ustinov - Tula, RU
Oleg N. Okunev - Moscow Region, RU
Richard P. Burlingame - Jupiter FL, US
Mark A. Emalfarb - Jupiter FL, US
Marco A. Baez - Jupiter FL, US
Arkady P. Sinitsyn - Mowcow, RU
Assignee:
Dyadic International (USA), Inc. - Jupiter FL
International Classification:
C12P 19/16
C12P 19/20
US Classification:
435 96, 435 98, 435164, 435165, 536 232, 536 2374
Abstract:
This invention provides novel enzyme compositions using newly identified and isolated enzymes, including CBH Ib CBH IIb, EG II, EG VI, β-glucosidase, and xylanase II in conjunction with previously identified enzymes CBH Ia, CBH IIa (previously described as Endo 43), and EG V. These enzyme compositions demonstrate an extremely high ability to convert lignocellulosic biomass (e. g. , Avicel, cotton, Douglas fir wood pretreated by organosolv) to glucose. CBH Ia and IIb, which both have a cellulose-binding module (CBM) displayed a pronounced synergism with three major endoglucanases (EG II, EG V, EG VI) from the same fungus in hydrolysis of cotton as well as a strong synergy with each other. The enzyme compositions are effective in hydrolysis of the lignocellulosic biomass.

Transformation System In The Field Of Filamentous Fungal Hosts

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US Patent:
8268585, Sep 18, 2012
Filed:
Mar 13, 2008
Appl. No.:
12/047709
Inventors:
Mark Aaron Emalfarb - Jupiter FL, US
Richard Paul Burlingame - Manitowoc WI, US
Philip Terry Olson - Manitowoc WI, US
Arkady Panteleimonovich Sinitsyn - Moscow, RU
Martine Parriche - Toulouse, FR
Jean Christophe Bousson - Quint-Fonsegrives, FR
Christine Marie Pynnonen - Appleton WI, US
Peter Jan Punt - Houten, NL
Cornelia Maria Johanna Van Zeijl - Vleuten-de Meern, NL
Assignee:
Dyadic International (USA), Inc. - Jupiter FL
International Classification:
C12P 21/02
US Classification:
435 691, 43525411
Abstract:
A novel transformation system in the field of filamentous fungal hosts for expressing and secreting heterologous proteins or polypeptides is described. The invention also covers a process for producing large amounts of polypeptide or protein in an economical manner. The system comprises a transformed or transfected fungal strain of the genus , more particularly of and mutants or derivatives thereof. It also covers transformants containing coding sequences, as well expression-regulating sequences of genes. Also provided are novel fungal enzymes and their encoding sequences and expression-regulating sequences.

Methods And Compositions For Degradation Of Lignocellulosic Material

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US Patent:
8304212, Nov 6, 2012
Filed:
Jul 10, 2007
Appl. No.:
11/775777
Inventors:
Marco A. Baez-Vasquez - Jupiter FL, US
Richard Burlingame - Jupiter FL, US
Jon K. Magnuson - Richland WA, US
Marion Bradford - Hendersonville NC, US
Arkady Panteleimonovich Sinitsyn - Moscow, RU
Assignee:
Dyadic International, Inc. - Jupiter FL
Battelle Memorial Institute - Richland WA
Iowa Corn Promotion Board - Johnston IA
International Classification:
C12P 19/00
C12N 9/00
C12N 9/14
C12N 1/00
US Classification:
435 72, 435183, 435195, 435243, 4352541
Abstract:
Methods to convert lignocellulosic biomass to fermentable sugars with enzymes that degrade the lignocellulosic material are provided, as well as novel combinations of enzymes, including those that provide a synergistic release of sugars from plant biomass.

Method For Production Of Isoprenoid Compounds

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US Patent:
8481286, Jul 9, 2013
Filed:
Aug 12, 2009
Appl. No.:
12/540094
Inventors:
Bryan Julien - Lexington KY, US
Richard P. Burlingame - Nicholasville KY, US
Assignee:
Allylix, Inc. - San Diego CA
International Classification:
C12P 21/00
C12P 19/34
C12P 5/00
C07H 21/04
US Classification:
435 691, 435 912, 435166, 536 254
Abstract:
The present invention is directed to variant squalene synthase enzymes, including squalene synthase enzymes, and to nucleic acid molecules encoding these variant enzymes. These variant enzymes produce squalene at a lower rate than the wild-type enzyme, allowing more farnesyl pyrophosphate to be utilized for production of isoprenoid compounds, while still producing sufficient squalene to allow the cells to grow without the requirement for supplementation by sterols such as ergosterol. These variant enzymes, therefore, are highly suitable for the efficient production of isoprenoids.

Isoprenoid Compounds

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US Patent:
8486659, Jul 16, 2013
Filed:
Aug 12, 2009
Appl. No.:
12/540050
Inventors:
Bryan Julien - Lexington KY, US
Richard P. Burlingame - Nicholasville KY, US
Assignee:
Allylix, Inc. - San Diego CA
International Classification:
C12P 21/00
C12P 19/34
C12P 5/00
C07H 21/04
US Classification:
435 691, 435 912, 435166, 536 254
Abstract:
The present invention is directed to variant squalene synthase enzymes, including squalene synthase enzymes, and to nucleic acid molecules encoding these variant enzymes. These variant enzymes produce squalene at a lower rate than the wild-type enzyme, allowing more farnesyl pyrophosphate to be utilized for production of isoprenoid compounds, while still producing sufficient squalene to allow the cells to grow without the requirement for supplementation by sterols such as ergosterol. These variant enzymes, therefore, are highly suitable for the efficient production of isoprenoids.
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Richard P Burlingame from Nicholasville, KY, age ~71 Get Report