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. 2020 Jun 27;10(7):321. doi: 10.1007/s13205-020-02312-3

Table2.

Important events in the plant GSTs research (1970–2020)

Year Major event(s) References
2020 Role of GSTs in tertrapyrrole metabolism Sylvestre-Gonon et al. (2020)
Role of Phi class GST in multiple-herbicide resistance of grass weeds and crops Georgakis et al. (2020)
82 GST genes identified in radish Gao et al. (2020)
2019 GST gene family identification and characterization in capsicum Islam et al. (2019)
A review on Plant GSTs and light Gallé et al. (2019)
2018 First report of 73 GSTs in Medicago truncatula Han et al. (2018)
First report of 44GSTs in Vigna radiata Vaish et al. (2018)
First report of 88 GST genes in Oak (Quercus robur) Plomion et al. (2018)
First report of GST’s specific activity, kinetic behavior, substrate specificity, and protein expression levels in the leaves, fruits, stems, and roots of olive tree cv.Picual Peragón and Amores-Escobar (2018)
2017 Review on plant GSTs: Functions and biotechnological applications Nianiou-Obeidat et al. (2017)
First report of 42 GST genes in sweet potato Ding et al. (2017)
2016 Identification of the role of Tau GST gene promoter SBGSTU of Salicornia brachiata under salinity and osmotic Stress Tiwari et al. (2016)
2015 Very first characterized all GST classes of Glycine max Liu et al. (2015)
First report of essential role of GSTs in pathogenicity of Alternaria brassicicola Cicero et al. (2015)
Review on plant GSTs Labrou et al. (2015)
2014 Report of 27 GST genes in gymnosperm Larix kaempferi Yang et al. (2014)
Characterization of GST gene family in Citrus Sinensis Licciardello et al. (2014)
2013 First report of total 37 GSTs in Physcomitrella patens, a nonvascular plant (bryophyte) with two novel classes’ iota and hemerythrin and no tau GST Liu et al. (2013)
2012 First report of maximum number of GSTs that possess α- helix followed by turns and β- sheets and also that they undergo post translational reversible phosphorylation activation Puglisi et al. (2013)
2011 Expansion mechanisms and functional divergence of the Glutathione S-Transferase family in sorghum and other higher plants Chi et al. (2011)
2010 Total 79 GSTs in rice Jain et al. (2010)
2009 Physiological role of GSTs in root nodule of Glycine max Dalton et al. (2009)
2008 Review on plant GSTs Öztetik (2008)
Report on presence of GSTs in red and brown algae Herv’E et al. (2008)
2007 Review published on plant GSTs Basantani and Srivastava (2007)
2005 Molecular characterization of GSTs for the first time in gymnosperm Pinus tabulaeformis (Pinaceae) Zeng et al. (2005)
2004 First characterization of GST gene family in rice Soranzo et al. (2004)
2003 GSTs undergo glycosylation Moons (2003)
2002 Identification of two novel GSTs DHAR and Lambda in Arabidopsis thaliana Dixon et al. (2002)
2001 Structure of Zeta class GST from A. thaliana was proposed with its putative role in Tyrosine catabolism Thom et al. (2001)
2000 Review of plant GSTs with new modified nomenclature Dixon and Edwards (2009)
Development of transgenic tobacco overexpressing GST with high stress tolerance Roxas et al. (1997)
1999 A phi class GST was reported in black grass Alopecurus myosuroides Cummins et al.(1999)
1998 First classification of GSTs into Type I,II and III Dixon et al. (1998)
Identification of GSTs in fresh water algae Tang et al. (1998)
1997 Identification of additional zeta class GSTs Board et al. (1997)
Purification of multiple glutathione transferases involved in herbicide detoxification from wheat (Triticum aestivum L.) treated with the safener fenchlorazole-ethyl Cummins et al. (1998)
1996 Review on plant GSTs Marrs (1996)
1994 Cloning and characterization of maize herbicide safener-induced cDNAs encoding subunits of glutathione S-transferase isoforms I, II, and IV Jepson et al. (1994)
1980 Very first report on presence of GSTs in microorganism bacteria, fungi, protozoa, etc Edward et al. (1980)
1970 First report of plant GSTs in maize Frear and Swanson (1970)