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Biology and Biotechnology of Environmental Stress Tolerance in Plants, Volume 3
TABLE 7.1 (Continued)
TF
Gene
Transgenic
Effect
References
Plant
bHLH
AtbHLH68
Arabidopsis
↑ Drought
Le et al. (2017)
PebHLH35
Arabidopsis
↑ Drought
Dong et al. (2014)
ZmPTF1
Maize
↑ Drought
Li et al. (2019)
AtbHLH112
Arabidopsis
↑ Drought/salt
Liu et al. (2015)
BcICE1
Canola
↑ Cold
Zhang et al. (2018)
OsbHLH068
Arabidopsis
↑ Salt
Chen et al. (2017)
TabHLH39
Arabidopsis
↑ Salt/drought/cold
Zhai et al. (2016)
FtbHLH2
Arabidopsis
↑ Cold
Yao et al. (2018)
FtbHLH2
Arabidopsis
↑ Cold
Yao et al. (2018)
FtbHLH3
Arabidopsis
↑ Drought/oxidative
Yao et al. (2017)
AH
Tomato
↑ Low temperature
Qiu et al. (2016)
DIICE1
Arabidopsis
↑ Cold
Yang et al. (2019)
PubHLH1
Tobacco
↑ Cold
Jin et al. (2016)
ThbHLH1
Arabidopsis
↑ Osmotic stress
Ji et al. (2016)
ZmPTF3
Maize
↑ Drought
Gao et al. (2018)
GmbHLH57
Soybean
↑ Fe deficiency
Li et al. (2018)
TabHLH1
Tobacco
↑ Pi/N starvation
Yang et al. (2016)
OsbHLH035
Rice
↑ Salt
Chen et al. (2018)
PtFIT
Populus
↑ Iron
Huang & Daim (2015)
ILR3
Arabidopsis
↑ Iron
Samira et al. (2018)
TabHLH49
Wheat
↑ Drought
Liu et al. (2020)
AtbHLH68
Arabidopsis
↑ Drought
Le et al. (2017)
AtbHLH18
Arabidopsis
↑ Fe deficiency
Cui et al. (2018)
Transcription factors constitute an integral part of the genetic circuits
which dynamically regulate gene networks to enhance plant stress tolerance.
DNA-binding domains (DBD) of plant TFs can be replaced with engineered
zinc fingers or TAL effectors to meet specific needs (Beerli & Barbas, 2002;
Townsend et al., 2009). Consequently, engineering DBD strategy of the TFs
facilitate binding of TFs to any target genomic sequence in plants (Gitzinger
et al., 2009; Lu et al., 2009). Synthetic/Artificial TFs (ATFs) are promising
alternative to naturally occurring TFs and composed of a translational fusion
of DBD and effector domains (ED: repressor or activator). ATFs have DNA
binding specificity and potential to act on particular promoter to carryout acti
vation or repression of a specific gene. Previously genome editing tools (ZF
domains and TALEs) have been extensively used to design DBDs for ATFs.