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Volume 4, Issue 3 (Suppl)
Adv Crop Sci Tech
ISSN: 2329-8863 ACST, an open access journal
Plant Genomics 2016
July 14-15, 2016
Page 26
Notes:
conference
series
.com
July 14-15, 2016 Brisbane, Australia
4
th
International Conference on
Plant Genomics
Adapt agriculture to changing environment: Introgressing stress tolerance genes to varieties through conventional
breeding
C
limate is changing so we need to change, so does the plant. Plant breeders have been trying to develop stress tolerant crops
using genetic variation in crops at intraspecific, interspecific and intergeneric levels. Two main approaches were employed:
Traditional breeding and transgenic approach. Traditional breeding relies largely on the natural intraspecific genetic variations.
When introducing a gene from different species, there is not much success due to reproductive barrier and/or the risk of other
undesirable traits transferred with the target traits. To avoid this problem, genetic engineering strategy is more preferred,
as it only deals with the specific genes transferred. Many abiotic stress tolerance genes have been successfully expressed in
intergeneric species. Without any doubt, transgenic technology will continue to aid the search for the cellular mechanisms
that underlie tolerance. However, the public acceptance of transgenic plants may face consumer backlash, which limits the use
of transgenic approaches in improving abiotic stress tolerance. An effective procedure of introgressing stress tolerance genes
to varieties through backcrossing program has been developed. Assisted with molecular markers, this procedure will make it
possible to breed varieties or pre-breeding materials with added specific genes within 2-3 years. To achieve this, we need the
genes making significant contribution to the traits, molecular markers closely linked to the genes and techniques to speed the
process. Detailed requirements and technique will be discussed.
Biography
Meixue Zhou has been involved in plant research for more than 30 years which includes more than 10 years of experience in China. His major research areas
include physiological and molecular mechanisms of plant biotic and abiotic stress tolerance. He is serving as a Review Panel Member for ARC of Australia and the
Natural Science Foundation of China. He is the Co-Director of Australia China Research Centre of Plant Stress Biology. He has published more than 100 papers
in various peer-reviewed journals. He is a Member of Editorial Board of several journals.
mzhou@utas.edu.auMeixue Zhou
University of Tasmania, Australia
Meixue Zhou, Adv Crop Sci Tech 2016, 4:3 (Suppl)
http://dx.doi.org/10.4172/2329-8863.C1.001