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Shujie Dong

from Burke, VA
Age ~48
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Connected to:
An Dong, 57Becky T Dong, 31Brenda M Dong, 32Cathee R Dong, 39Chuyen S Dong, 69Clara Dong, 61Damon A Dong, 51Deron R Dong, 50Dora K Dong, 68Doreen J Dong, 59

Shujie Dong Phones & Addresses

  • Burke, VA
  • Chapel Hill, NC
  • Wilmington, DE

Work

Company: Dupont - Wilmington, DE Jun 2012 Position: Marketing leadership development program

Education

School / High School: NATIONAL UNIVERSITY OF SINGAPORE- Singapore Jul 2003 Specialities: MBA

Skills

Chinese • Art

Resumes

Resumes

Shujie Dong Photo 1

Shujie Dong

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Skills:
Chinese
Art
Shujie Dong Photo 2

Shujie Dong Chapel Hill, NC

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Work:
DUPONT
Wilmington, DE
Jun 2012 to Aug 2012
Marketing Leadership Development Program
ACCENTURE

2009 to 2011
Manager
ACCENTURE

2007 to 2011
ACCENTURE

2007 to 2009
Consultant
TERADATA DIVISION

2003 to 2007
Solution Consultant
Education:
NATIONAL UNIVERSITY OF SINGAPORE
Singapore
Jul 2003
MBA
TIANJIN UNIVERSITY
Jul 1999
Bachelor of Science in Electrical Engineering and Energy
UNIVERSITY OF NORTH CAROLINA, Kenan-Flagler Business School
Chapel Hill, NC
MBA in Marketing Case Challenge

Publications

Us Patents

Methods For Agrobacterium-Mediated Transformation Of Sugar Cane

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US Patent:
20120156673, Jun 21, 2012
Filed:
Jun 24, 2010
Appl. No.:
13/378497
Inventors:
Paulo Cezar De Lucca - Campinas, BR
Shujie Dong - Cary NC, US
Robert Jason Christopher Geijskes - Brisbane, AU
Erik Martin Dunder - Hillsborough NC, US
Manuel Benito Sainz - Ribeirao Preto, BR
International Classification:
C12Q 1/68
C12N 15/82
US Classification:
435 61, 435469
Abstract:
The present invention provides methods for producing a transformed sugar cane tissue or cell thereof, said methods comprising: a) inoculating a sugar cane tissue or a cell thereof with an inoculation suspension, said comprising a nucleic acid of interest, to obtain an -inoculated sugar cane tissue or cell thereof; b) co-cultivating said -inoculated sugar cane tissue or cell thereof on a surface in the absence of co-culture media for a time period sufficient to reduce original weight of said -inoculated-inoculated sugar cane tissue or cell thereof; and c) selecting a transformed sugar cane tissue or a cell thereof comprising said nucleic acid of interest. The transformation methods of the invention provide for increased transformation frequency and recovery of transgenic sugar cane plants.

Weed Control Methods And Related Compositions And Plants

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US Patent:
20220403406, Dec 22, 2022
Filed:
Oct 26, 2020
Appl. No.:
17/771075
Inventors:
- Basel, CH
Shujie Dong - Durham NC, US
David Brocklehurst - Bracknell, Berkshire, GB
Anthea Karin Batchelor - Bracknell, Berkshire, GB
Marta Andreia Hortes Simoes - Bracknell, Berkshire, GB
Irene Gonzalez Thuillier - Bracknell, Berkshire, GB
Assignee:
Syngenta Crop Protection AG - Basel
International Classification:
C12N 15/82
C12N 9/16
A01N 43/90
A01N 43/86
Abstract:
The present disclosure relates to, inter alia, a weed control method. In one example, a method comprises applying to the locus a weed controlling amount of a pesticide composition comprising a FatA acyl-ACP thioesterase-inhibiting herbicide, wherein the crop plants are modified such that they comprise a FatA acyl-ACP thioesterase which provides the crop plant with tolerance against the FatA acyl-ACP thioesterase-inhibiting herbicide. Recombinant polynucleotides and suitable for use in the methods, and edited FatA acyl-ACP thioesterases are also disclosed.

Methods And Compositions For Targeted Genomic Insertion

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US Patent:
20210087557, Mar 25, 2021
Filed:
Jul 26, 2018
Appl. No.:
16/634215
Inventors:
- Basel, CH
Mary-Dell Chilton - Research Triangle Park NC, US
Shujie Dong - Research Triangle Park NC, US
Qiudeng Que - Research Triangle Park NC, US
Heng Zhong - Research Triangle Park NC, US
Assignee:
SYNGENTA PARTICIPATIONS AG - Basel
International Classification:
C12N 15/113
C12N 15/10
C12N 9/22
Abstract:
The present invention relates to methods and compositions for chimeric RNA comprising a guide RNA and bait RNA for modifying a target site in the genome of a cell. Such modifications include integration of a transgene and allelic mutations and modifications of native genes. Also provided are plants comprising a modified nucleic acid sequence compared to the native gene integrated into a targeted genomic site in the plant genome.

Glucosyl Transferase Polypeptides And Methods Of Use

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US Patent:
20200270588, Aug 27, 2020
Filed:
May 4, 2018
Appl. No.:
16/610221
Inventors:
- Basel, CH
Richard Dale - Bracknell, Berkshire, GB
John Paul Evans - Hertfordshire, GB
Michael Phillip Langford - Bracknell, Berkshire, GB
Sabrina Guillemer - Nimes, FR
Shujie Dong - Research Triangle Park NC, US
Qiudeng Que - Research Triangle Park NC, US
Zhongying Chen - Research Triangle Park NC, US
Yingping Lucy Qin - Research Triangle Park NC, US
Assignee:
Syngenta Participations AG - Basel
International Classification:
C12N 9/10
C12N 15/113
C12N 15/82
Abstract:
Compositions and methods for conferring herbicide resistance or tolerance upon plants towards certain classes of herbicide are provided. In particular these are amine, alcohol and aminal herbicides. The compositions include nucleotide and amino acid sequences for wild-type and mutant glucosyl transferase polypeptides. The polypeptides of the invention are mutant or wild type glucosyl transferases that are capable of catalyzing the transfer of glucose to certain herbicidal structures and that, thereby, confer resistance or tolerance in plants to amine, alcohol and aminal PSII herbicides. Particularly, polypeptides of the invention include mutant or wild-type bx-type UDP glucosyl transferases.
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Shujie Dong from Burke, VA, age ~48 Get Report