Technological advances in plant genetics integrated with systems biology and bioinformatics has yielded a myriad of novel biological data and insights into plant metabolism. This unprecedented advance has provided a platform for targeted manipulation of transcriptional activity through synthetic promoter engineering, and holds great promise as a way to further our understanding of regulatory complexity. The challenge and strategy for predictive experimental gene expression is the accurate design and use of molecular `switches' and modules that will regulate single or multiple plant transgenes in direct response to specific environmental, physiological and chemical cues. In particular, focusing on cis-motif rearrangement, future plant biotechnology applications and the elucidation of cis- and trans-regulatory mechanisms could greatly benefit from using plant synthetic promoters.
Description
ScienceDirect - Trends in Plant Science : Synthetic promoters: genetic control through cis engineering
%0 Journal Article
%1 Venter2007118
%A Venter, Mauritz
%D 2007
%J Trends in Plant Science
%K combinatorialregulation synthetic
%N 3
%P 118 - 124
%R DOI: 10.1016/j.tplants.2007.01.002
%T Synthetic promoters: genetic control through cis engineering
%U http://www.sciencedirect.com/science/article/B6TD1-4N14DD0-1/2/6b991fe54cc41124e9093a1ade11962b
%V 12
%X Technological advances in plant genetics integrated with systems biology and bioinformatics has yielded a myriad of novel biological data and insights into plant metabolism. This unprecedented advance has provided a platform for targeted manipulation of transcriptional activity through synthetic promoter engineering, and holds great promise as a way to further our understanding of regulatory complexity. The challenge and strategy for predictive experimental gene expression is the accurate design and use of molecular `switches' and modules that will regulate single or multiple plant transgenes in direct response to specific environmental, physiological and chemical cues. In particular, focusing on cis-motif rearrangement, future plant biotechnology applications and the elucidation of cis- and trans-regulatory mechanisms could greatly benefit from using plant synthetic promoters.
@article{Venter2007118,
abstract = {Technological advances in plant genetics integrated with systems biology and bioinformatics has yielded a myriad of novel biological data and insights into plant metabolism. This unprecedented advance has provided a platform for targeted manipulation of transcriptional activity through synthetic promoter engineering, and holds great promise as a way to further our understanding of regulatory complexity. The challenge and strategy for predictive experimental gene expression is the accurate design and use of molecular [`]switches' and modules that will regulate single or multiple plant transgenes in direct response to specific environmental, physiological and chemical cues. In particular, focusing on cis-motif rearrangement, future plant biotechnology applications and the elucidation of cis- and trans-regulatory mechanisms could greatly benefit from using plant synthetic promoters.},
added-at = {2009-06-14T21:03:39.000+0200},
author = {Venter, Mauritz},
biburl = {https://www.bibsonomy.org/bibtex/2200e7abf4068c20246c7a5ea0b162fbd/cchen63},
description = {ScienceDirect - Trends in Plant Science : Synthetic promoters: genetic control through cis engineering},
doi = {DOI: 10.1016/j.tplants.2007.01.002},
interhash = {892c5afd8ec5805b4917739c09c32804},
intrahash = {200e7abf4068c20246c7a5ea0b162fbd},
issn = {1360-1385},
journal = {Trends in Plant Science},
keywords = {combinatorialregulation synthetic},
number = 3,
pages = {118 - 124},
timestamp = {2009-06-14T21:03:39.000+0200},
title = {Synthetic promoters: genetic control through cis engineering},
url = {http://www.sciencedirect.com/science/article/B6TD1-4N14DD0-1/2/6b991fe54cc41124e9093a1ade11962b},
volume = 12,
year = 2007
}