How Bacteria Sense Salt Stress
A team of scientists light-emitting diode by professor Ganesha S Anand and prof Linda J. Kenney from the National University of Singapore (NUS) Department of Biological Sciences (DBS) and also the Mechanobiology Institute (MBI) has discovered however bacterium reply to salts in their setting and also the ways in which during which salts will alter the behaviour of specialized salt sensing element microorganism proteins.
This novel finding sheds light-weight on however microbes notice levels of salts or sugars in their watery environments – a haul in biology that has been studied for over thirty years. 
Phytochrome A and B Negatively Regulate Salt Stress Tolerance of Nicotiana tobacum via Abscisic Acid-Jasmonic Acid Synergistic Cross Talk
Light sign and phytohormones play necessary roles in plant growth, development, organic phenomenon and abiotic stress responses. However, the roles of phytochromes and cross speak between these 2 sign pathways in response to salt stress in tobacco plants stay underexplored. Here, we tend to explore the defense response in phytochrome defective mutants beneath salt stress. we tend to monitor the physiological and molecular changes of those mutants beneath salt stress conditions. The results showed that phytochrome A (phyA), phytochrome B (phyB) and phyAphyB (phyAB) mutants exhibited improved salt stress tolerance compared with wild kind (WT) plants. The mutant plants had a lower solution run (EL) and malondialdehyde (MDA) concentration than WT plants, and therefore the result was clearly synergistic within the phyAB double mutant plants. 
Tomato MYB49 enhances resistance to Phytophthora infestans and tolerance to water deficit and salt stress
MYB49-overexpressing tomato plants showed vital resistance to Phytophthora infestans and tolerance to drought and salt stresses. This finding reveals the potential application of tomato MYB49 in future molecular breeding.
Biotic and abiotic stresses severely cut back the productivity of tomato worldwide. Therefore, it’s necessary to seek out key genes to at the same time imprthe of plant resistance to pathogens and tolerance to varied abiotic stresses. during this study, supported homologous relationships with Arabidopsis R2R3-MYBs (AtMYBs) concerned in responses to the organic phenomenon and abiotic stresses, we have a tendency to known a complete of twenty-four R2R3-MYB transcription factors within the tomato order. Among these tomato R2R3-MYBs, MYB49 (Solyc10g008700.1) was clustered into subgroup eleven by organic process analysis and its expression level
was considerably elicited when treatment with P. infestans, NaCl and PEG6000. Overexpression of MYB49 in tomato considerably increased the resistance of tomato to P. infestans, as proven by decreases within the range of dead cells, sizes of a lesion, an abundance of P. infestans, and illness index. Likewise, MYB49-overexpressing transgenic tomato plants additionally displayed hyperbolic tolerance to drought and salt stresses. Compared to WT plants, the buildup of reactive element species (ROS), malonaldehyde content, and relative solution outflow was slashed, and oxidase activity, SOD activity, pigment content, and chemical process rate were hyperbolic in MYB49-overexpressing tomato plants beneath P. infestans, salt or drought stress. 
Silicon mediates sodium transport and partitioning in maize under moderate salt stress
Silicon (Si) is thought to alleviate salt stress in varied crops; but, the influence of Si on the metallic element (Na) transport and partitioning at the tissue, cell and organ levels is poorly understood. Maize (Zea mays L.) hybrid sensitive to salt stress was exposed to moderate salt stress (40 mM NaCl; simulating conditions in salinized agricultural soils) without or with the supply of 1.5 mM Si(OH)4. we tend to investigate the expression of SOS genes cryptography Na+ effluence transporter in varied root tissues of maize, paralleled by measurements of tissue Na concentration. additionally, subcellular localization of Na (using Na fluorescent dye) inside the leaf mesophyll cells was additionally performed. semiconductor provided plants accumulate less Na in each root apex and cortex, however, apportion additional Na+ to the leaves via the vascular tissue. 
Performance of Rice Landraces under Salt Stress at the Reproductive Stage Using SSR Markers
Salinity is that the most important explanation for rice yield reduction in several rice-growing areas of the planet. The aim of this study was to screen twenty-four rice genotypes together with twenty landraces to search out the potential germplasm supply for salt tolerance in a breeding program. The screening was performed at a fruitful stage supported the yield and yield attributes in sustained water bathtub maintaining the salinity level at eight dS/m. 3 microsatellite markers connected with salt tolerance quantitative attribute loci viz. RM234, RM134, and RM9 were used for investigation of salt tolerant rice landraces. At the fruitful stage, four landraces viz. Kute Patnai, Kashrail, Bazra Muri and Tal Mugur were known as salt tolerant on the premise of makeup analysis. 
 How Bacteria Sense Salt Stress
 Phytochrome A and B Negatively Regulate Salt Stress Tolerance of Nicotiana tobacum via Abscisic Acid-Jasmonic Acid Synergistic Cross Talk
Yang T, Lv R, Li J, Lin H, Xi D. Phytochrome A and B Negatively Regulate Salt Stress Tolerance of Nicotiana tobacum via Abscisic Acid-Jasmonic Acid Synergistic Cross Talk. Plant and Cell Physiology. 2018 Aug 17. (web link)
 Tomato MYB49 enhances resistance to Phytophthora infestans and tolerance to water deficit and salt stress
Cui J, Jiang N, Zhou X, Hou X, Yang G, Meng J, Luan Y. Tomato MYB49 enhances resistance to Phytophthora infestans and tolerance to water deficit and salt stress. Planta. 2018 Aug 21:1-7.(web link)
 Silicon mediates sodium transport and partitioning in maize under moderate salt stress
Bosnic P, Bosnic D, Jasnic J, Nikolic M. Silicon mediates sodium transport and partitioning in maize under moderate salt stress. Environmental and Experimental Botany. 2018 Aug 18.(web link)
 Performance of Rice Landraces under Salt Stress at the Reproductive Stage Using SSR Markers
Md. Abdullah Al Ibrahim1, Md. Hasanuzzaman Rani2, Shamsun Nahar Begum2, Md. Babul Akter3* and Mirza Mofazzal Islam2*
1Department of Genetics and Plant Breeding, Bangladesh Agricultural University, Mymensingh-2202, Bangladesh.
2Plant Breeding Division, Bangladesh Institute of Nuclear Agriculture (BINA), BAU Campus, Mymensingh-2202, Bangladesh.
3Crop Physiology Division, Bangladesh Institute of Nuclear Agriculture (BINA), BAU Campus, Mymensingh-2202, Bangladesh. (web link)