Exploring potential soybean bradyrhizobia from high trehalose-accumulating soybean genotypes for improved symbiotic effectiveness in soybean
Abhishek Bharti(Indian Institute of Soybean Research), Mahaveer P. Sharma(Jawaharlal Nehru University), Gyanesh K. Satpute(Indian Institute of Soybean Research), Shivani Garg(University of Delhi), Ashwani Pareek(Jawaharlal Nehru University), Anil Prakash(Barkatullah University), Khalid Anwar(Jawaharlal Nehru University), Hemant S. Maheshwari(University of Groningen)
Cited by 9
Related Papers
Transgenic Tobacco Overexpressing Glyoxalase Pathway Enzymes Grow and Set Viable Seeds in Zinc-Spiked Soils
|PLANT PHYSIOLOGY|2005|263
Enhancing salt tolerance in a crop plant by overexpression of glyoxalase II
|Transgenic Research|2007|194
A unique <scp>N</scp>i<sup>2</sup><sup>+</sup> ‐dependent and methylglyoxal‐inducible rice glyoxalase <scp>I</scp> possesses a single active site and functions in abiotic stress response
|The Plant Journal|2014|141
Manipulation of glyoxalase pathway confers tolerance to multiple stresses in rice
|Plant Cell & Environment|2017|139
Glyoxalases and stress tolerance in plants
|Biochemical Society Transactions|2014|125