3.5.99.7	agriculture	-	-, 648272	
3.5.99.7	agriculture	ability of transgenic tomato plants expressing the enzyme under different promoters to grow in the presence of metal ions	648272	
3.5.99.7	agriculture	ACC deaminase containing rhizobacterium Variovorax paradoxus strain 5C-2 mitigates salt stress by improving water relations, ion homeostasis and photosynthesis of pea plants, and may provide an economic means of promoting growth of plants exposed to salt stress	-, 756842	
3.5.99.7	agriculture	Azospirillum lipoferum strain AZm5 containing ACC deaminase activity improves the growth and physiology of tomato (Solanum lycopersicum) plants under a deficiency of and medium doses of nitrogenous fertilizers	-, 713327	
3.5.99.7	agriculture	bacterial strains that contain ACC deaminase confer salt tolerance to plants by lowering salt induced ethylene synthesis	-, 679006	
3.5.99.7	agriculture	Burkholderia phytofirmans sp. nov. isolated from surface-sterilized onion roots, shows high enzyme activity and is able to establish rhizosphere and endophytic populations associated with various plants	669005	
3.5.99.7	agriculture	development of tomato plants with delayed fruit ripening by Agrobacterium tumefaciens mediated transfer of a gene encoding 1-aminocyclopropane-1-carboxylic acid deaminase, the enzyme delays fruit ripening by decreasing ethylene synthesis	648258, 648259	
3.5.99.7	agriculture	expression of enzyme in Brassica napus provides the transgenic calona lines with tolerance to the inhibitory effects of salt stress, with the root-specific promoter rolD being the most effective. Improved salt tolerance is most likely due to decreased synthesis of stress ethylene	671009	
3.5.99.7	agriculture	expression of enzyme in Lycopersicon esculentum yields plant showing a very healthy and more productive phenotype compared to wild-type. Transgenic plants have a higher chlorophyll content, and transgenic fruits show higher lycopene and beta-carotene content. Expression using promoters rolD or 35S is most effective, leading to larger roots, higher chlorophyll leaf and protein content, and increased average fruit weight	670880	
3.5.99.7	agriculture	expression of enzyme in Pisum sativum stimulates root growth and increases root and shoot biomass in non-polluted soils, depending on genotype of host plant. No effect in presence of Cd2+	-, 667882