Rutgers, The State University of New Jersey

Dna Plant Technology Corporation

Other

Calgene Corporation

Pal Maliga

Kevin E. Mcbride

Zora Svab Maliga

Kerry A Lutz

Jonathan D Jones

Sylvie Corneille

Jeffrey M Staub

Lori A Allison

Muhammad Sarwar Khan

Hiroshi Kuroda

Helaine Carrer

Priya Sriraman

Daniel Silhavy

Kevin E McBride

Gordon Dougan

Hugo K Dooner

Peter T Hajdukiewicz

Gregory N Thyssen

Siva Vanga Reddy

Samir Sikdar

Sumita Chaudhuri

Oleg Zoubenko

Marina Skarjinskaia

Ivan Kanevski

John Tregoning

Peter Nixon

Csanad Gurdon

Jon Y Suzuki

Kevin E Mcbride

Compositions and methods for improving plastid transformation in difficult to transform plants are disclosed.

Compositions and methods for improving plastid transformation efficiency in higher plants

Compositions and methods for effecting the transfer of the CMS trait in plants are disclosed.

Intercellular transfer of organelles in plant species for conferring cytoplasmic male sterility

Compositions and method for the generation of transplastomic plants are provided.

Selectable marker gene and methods of use thereof in transplastomic plants

Compositions and methods for manipulating the plastid genome of higher plants are provided.

Removal of plastid sequences by transiently expressed site-specific recombinases

Nucleic acid constructs comprising a highly efficient 5' regulatory region for the expression of heterologous proteins from the plastids of higher plants are provided. Also provided are plant cells and transgenic plants comprising the same.

Compositions and methods for increasing transgene expression in the plastids of higher plants

A site specific recombination system and methods of use thereof are disclosed for manipulating the genome of higher plants.

Site-specific recombination system to manipulate the plastid genome of higher plants

Plants having transformed plastid genomes comprising a construct comprising attL and attR sites and a gene of interest, where the plants comprise an integrase and, optionally a selectable marker gene, and methods of making the plants.

Transgenic plants having transformed plastid genomes and progeny thereof

DNA constructs containing translational control elements are provided. These 5' regulatory segments facilitate high level expression of transgenes introduced into the plastids of higher plants.

Translation control elements for high-level protein expression in the plastids of higher plants and methods of use thereof

The present invention provides promoter elements useful for stably transforming the plastids of higher plants. The constructs described herein contain unique promoters that are transcribed by both nuclear encoded plastid RNA polymerases, plastid encoded plastid RNA polymerases or both. Use of the novel constructs of the invention facilitates transformation of a wider range of plant species and enables ubiquitous expression of a transforming DNA in plastids of multicellular plants.

Plastid promoters for transgene expression in the plastids of higher plants

This invention relates to methods and compositions for obtainingandplants. Specifically, the method provides culturing protocols and compositions that facilitate the regeneration of transformed plants following delivery of beneficial DNA molecules.

Plastid directed DNA constructs comprising chimeric plastid targeting regions, vectors containing same and methods of use thereof

A site-specific recombination system and methods of use thereof are disclosed for manipulating the plastid genome of higher plants.

A site specific recombination system and methods of use thereof are disclosed for manipulating the genome of higher plants. Compositions and methods for expressing immunogenic proteins using the site specific reombination system are also provided.

High level expression of immunogenic proteins in the plastids of higher plants

Prrn promoter elements for enhancing expression of heterologous molecules, including RNA and proteins in the plastids of higher plants are disclosed.

Growing community of inventors

East Brunswick, NJ, United States of America

Pal Maliga