Thiourea modulates the expression and activity profile of mtATPase under salinity stress in seeds of Brassica juncea

doi:10.1093/aob/mcn229

AOBPreview originally published online on November 25, 2008
Annals of Botany 2009 103(3):403-410; doi:10.1093/aob/mcn229

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Thiourea modulates the expression and activity profile of mtATPase under salinity stress in seeds of Brassica juncea

A. K. Srivastava¹, N. K. Ramaswamy¹^,*, R. Mukopadhyaya², M. G. Chiramal Jincy¹ and S. F. D'Souza¹

¹ Nuclear Agriculture and Biotechnology Division
² Molecular Biology Division, Bhabha Atomic Research Center, Mumbai 400085, India

^* For correspondence. E-mail ashishbarc{at}gmail.com

Received: 5 August 2008 Returned for revision: 8 October 2008 Accepted: 16 October 2008 Published electronically: 25 November 2008

Background and Aims: Large areas of the globe are becoming saline due to evapotranspirationand poor irrigation practices, and sustainability of agricultureis being seriously affected. Thiourea (TU) has been identifiedas an effective bioregulator imparting stress tolerance to crops.The molecular mechanisms involved in the TU-mediated responseare considered in this study.

Methods: Differential display was performed in order to identify TU-modulatedtranscripts in Brassica juncea seeds exposed to various treatments(distilled water; 1 M NaCl; 1 M NaCl + 500 p.p.m. TU). The differentialregulation of these transcripts was validated by quantitativereal-time PCR.

Key Results: Thiourea treatment maintained the viability of seeds exposedto NaCl for 6 h. Expression analysis showed that the transcriptlevel of alpha, beta, gamma, delta and epsilon subunits of mitochondrialATPase (mtATPase) varied in seeds subjected to the differenttreatments for 1 h: expression level was significantly alteredby 1 M NaCl relative to controls; however, in the NaCl + TUtreatment it reverted back in an integrated manner. Similarresults were obtained from time-kinetics studies of beta anddelta subunits in roots of 8-d-old seedlings. These observationswere also confirmed by the mtATPase activity from isolated mitochondria.The reversal in the expression and activity profile of mtATPasethrough the application of a bioregulator such as TU is a novelfinding for any plant system.

Conclusions: The results suggest that TU treatment maintains the integrityand functioning of mitochondria in seeds as well as seedlingsexposed to salinity. Thus, TU has the potential to be used asan effective bioregulator to impart salinity tolerance underfield conditions, and might prove to be of high economic importanceby opening new avenues for both basic and applied research.

Key words: Brassica juncea, differential display, mitochondrial ATPase, real-time PCR, salinity stress, thiourea

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