J
Jinhui Zhong
Researcher at Wayne State University
Publications - 5
Citations - 2783
Jinhui Zhong is an academic researcher from Wayne State University. The author has contributed to research in topics: Protein–protein interaction & Two-hybrid screening. The author has an hindex of 5, co-authored 5 publications receiving 2740 citations.
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Journal ArticleDOI
A Protein Interaction Map of Drosophila melanogaster
Loic Giot,Joel S. Bader,Cory Brouwer,Amitabha Chaudhuri,B. Kuang,Ying Li,Y. L. Hao,C. E. Ooi,Brian C. Godwin,E. Vitols,G. Vijayadamodar,Pascale Pochart,H. Machineni,M. Welsh,Yong Kong,B. Zerhusen,Rachel D. Malcolm,Z. Varrone,A. Collis,M. Minto,S. Burgess,L. McDaniel,E. Stimpson,F. Spriggs,Julia Williams,K. Neurath,N. Ioime,M. Agee,E. Voss,K. Furtak,R. Renzulli,N. Aanensen,S. Carrolla,E. Bickelhaupt,Y. Lazovatsky,A. DaSilva,Jinhui Zhong,Clement A. Stanyon,Russell L. Finley,Kevin P. White,Michael S. Braverman,Thomas P. Jarvie,Steven Allen Gold,M. Leach,James R. Knight,Richard A. Shimkets,Michael P. McKenna,John Chant,Jonathan M. Rothberg +48 more
TL;DR: This map serves as a starting point for a systems biology modeling of multicellular organisms, including humans, and recapitulated known pathways, extended pathways, and uncovered previously unknown pathway components.
Journal ArticleDOI
A Drosophila protein-interaction map centered on cell-cycle regulators
Clement A. Stanyon,Guozhen Liu,Bernardo A. Mangiola,Nishi Patel,Loic Giot,Bing Kuang,Huamei Zhang,Jinhui Zhong,Russell L. Finley +8 more
TL;DR: The substantial number of new interactions discovered here supports the conclusion that previous interaction mapping studies were far from complete and that many more interactions remain to be found.
Book ChapterDOI
Interaction mating methods in two-hybrid systems
TL;DR: Interaction mating is described, a two-hybrid variation that can be adapted to most versions of the system and that can simplify and facilitate most two- Hybrid experiments.
Journal ArticleDOI
A strategy for constructing large protein interaction maps using the yeast two-hybrid system: regulated expression arrays and two-phase mating.
TL;DR: An efficient two-hybrid strategy to facilitate construction of protein interaction maps on a genome-wide scale that has several advantages over previously described approaches, including the ability to detect interactions with proteins that inhibit yeast growth or that activate transcription as BD fusions.
Journal ArticleDOI
Regulated expression of proteins in yeast using the MAL61-62 promoter and a mating scheme to increase dynamic range.
TL;DR: A conditional expression system that takes advantage of the yeast MAL62 promoter (MAL62p), which can be controlled by adding maltose or glucose to the growth medium to induce or repress transcription, and a mating scheme is used to dramatically increase the dynamic range of expression levels possible.