1
Belgacem Haba Belgacem (Bel) Haba
Masud Beroz, Joseph Fjelstad, Belgacem Haba, Christopher M Pickett, John Smith: Microelectronic unit forming methods and materials. Tessera, Lerner David Littenberg Krumholz & Mentlik, March 26, 2002: US06361959 (34 worldwide citation)

Electrically conductive elements such as terminals and leads are held on a support structure by a degradable connecting layer such as a adhesive degradable by heat or radiant energy. After connecting these elements to a microelectronic element such as a chip or wafer, the conductive elements are rel ...


2
David Mosley
Peter A Carr, Brian Y Chow, Joseph M Jacobson, David W Mosley, Christopher Emig: Methods for high fidelity production of long nucleic acid molecules. Massachusetts Institute of Technology, Norma E Henderson, February 1, 2011: US07879580 (9 worldwide citation)

This invention generally relates to nucleic acid synthesis, in particular DNA synthesis. More particularly, the invention relates to the production of long nucleic acid molecules with precise user control over sequence content. This invention also relates to the prevention and/or removal of errors w ...


3
David Mosley
Peter A Carr, Brian Y Chow, Joseph M Jacobson, David W Mosley, Christopher Emig: Methods for high fidelity production of long nucleic acid molecules with error control. Massachusetts Institute of Technology, Norma E Henderson, April 26, 2011: US07932025 (6 worldwide citation)

This invention generally relates to nucleic acid synthesis, in particular DNA synthesis. More particularly, the invention relates to the production of long nucleic acid molecules with precise user control over sequence content. This invention also relates to the prevention and/or removal of errors w ...


4
David Mosley
Peter A Carr, Brian Y Chow, Joseph M Jacobson, David W Mosley, Christopher Emig: Methods for high fidelity production of long nucleic acid molecules with error control. Massachusetts Institute of Technology, Norma E Henderson, September 11, 2012: US08263335 (5 worldwide citation)

A method for synthesizing a nucleic acid having a desired sequence and length comprises providing a solid support having an immobilized nucleic acid, performing a nucleic acid addition reaction to elongate the immobilized nucleic acid by adding a nucleotide or an oligonucleotide to the nucleic acid, ...


5
David Mosley
Peter A Carr, Brian Y Chow, Joseph M Jacobson, David W Mosley, Christopher Emig: Methods for high fidelity production of long nucleic acid molecules. Massachusetts Institute of Technology, Norma E Henderson, June 26, 2012: US08206952 (5 worldwide citation)

In a method for synthesizing a long nucleic acid molecule, a first immobilized nucleic acid has a first 5′ region and a first 3′ region and a second immobilized nucleic acid has a second 5′ region and a second 3′ region. The second 3′ region and the first 5′ region have identical nucleic acid sequen ...


6
David Mosley
Peter A Carr, Brian Y Chow, Joseph M Jacobson, David W Mosley, Christopher Emig: Methods for high fidelity production of long nucleic acid molecules. Massachusetts Institute of Technology, Norma E Henderson, August 13, 2013: US08507226 (4 worldwide citation)

In a method for synthesizing a pool of nucleic acid molecules, a first nucleic acid has a first 5′ region and a first 3′ region and a second nucleic acid has a second 5′ region and a second 3′ region. The second 3′ region and the first 5′ region have identical nucleic acid sequences. The first 3′ re ...


7
James Kraemer Ph.D.
Tony H Chow, Robert R Friedlander, Anwer M Khan, James R Kraemer: Methods for hierarchical organization of data associated with medical events in databases. International Business Machines Corporation, Yudell Isidore Ng Russell PLLC, March 6, 2012: US08131472 (2 worldwide citation)

Methods of organizing medical data include hierarchically relating a single type of medical or research event to medical data generated from the single type of medical or research event in a computer database environment. Organizing the data in this way enables a researcher to access medical data co ...


8
David Mosley
Peter A Carr, Brian Y Chow, Joseph M Jacobson, David W Mosley, Christopher Emig: Methods for high fidelity production of long nucleic acid molecules. Foley & Lardner, November 17, 2005: US20050255477-A1

This invention generally relates to nucleic acid synthesis, in particular DNA synthesis. More particularly, the invention relates to the production of long nucleic acid molecules with precise user control over sequence content. This invention also relates to the prevention and/or removal of errors w ...


9
David Mosley
Peter A Carr, Brian Y Chow, Joseph M Jacobson, David W Mosley, Christopher Emig: Methods for high fidelity production of long nucleic acid molecules with error control. Foley & Lardner, October 13, 2005: US20050227235-A1

This invention generally relates to nucleic acid synthesis, in particular DNA synthesis. More particularly, the invention relates to the production of long nucleic acid molecules with precise user control over sequence content. This invention also relates to the prevention and/or removal of errors w ...


10
Kary B Mullis, Henry A Erlich, Norman Arnheim, Glenn T Horn, Randall K Saiki, Stephen J Scharf: Process for amplifying, detecting, and/or-cloning nucleic acid sequences. Cetus Corporation, Janet E Hasak, Albert P Halluin, July 28, 1987: US04683195 (3298 worldwide citation)

The present invention is directed to a process for amplifying and detecting any target nucleic acid sequence contained in a nucleic acid or mixture thereof. The process comprises treating separate complementary strands of the nucleic acid with a molar excess of two oligonucleotide primers, extending ...



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