3.2.2.7	2'-deoxyadenosine + H2O	one third lowered activity compared to adenosine as substrate	
3.2.2.7	2'-deoxyadenosine + H2O	3-4 times greater hydrolysis compared to adenosine	
3.2.2.7	2'-deoxyadenosine + H2O	hydrolyzes at 96% of the rate of adenosine	
3.2.2.7	2'-deoxyadenosine + H2O	hydrolysis at the same rate as for adenosine	
3.2.2.7	2'-deoxyadenosine + H2O	6-aminopurine-9-2'-deoxy-beta-D-ribofuranoside	
3.2.2.7	adenosine + H2O	component of the purine salvage pathway	
3.2.2.7	adenosine + H2O	implicated in metabolism of cytokinins	
3.2.2.7	adenosine + H2O	involved in maintaining an active pool of S-adenosyl-L-methionine for transmethylation reactions	
3.2.2.7	adenosine + H2O	6-aminopurine-9-beta-D-ribofuranoside	
3.2.2.7	additional information	30% of adenosine taken up by leaf disks is hydrolysed to adenine	
3.2.2.7	additional information	30% of adenosine taken up by leaf disks may be converted to salvage products	
3.2.2.7	additional information	56-92% of adenosine taken up by leaf disks may be converted to salvage products, efficient adenosine salvage abilitiy in mangrove is coupled to high enzymic activity and is stimulated by salt, proposed metabolic pathway	
3.2.2.7	additional information	proposed pathway for biosynthesis of purine alkaloids with adenosine derived from SAM cycle