PMID-sentid Pub_year Sent_text comp_official_name comp_offsetprotein_name organism prot_offset 20118663-4 2010 The CO(2) concentrating mechanism in C4 and CAM plants is expected to contribute to decreasing ROS generation. co(2) 4-9 calmodulin 3 Homo sapiens 44-47 10529183-3 1999 The efficiency of either Zn-Cam or Co-Cam for CO(2) hydration (k(cat)/K(m)) was severalfold greater than HCO(3-) dehydration at physiological pH values, a result consistent with the proposed physiological function for Cam during growth on acetate. co(2) 46-51 calmodulin 3 Homo sapiens 28-31 10529183-3 1999 The efficiency of either Zn-Cam or Co-Cam for CO(2) hydration (k(cat)/K(m)) was severalfold greater than HCO(3-) dehydration at physiological pH values, a result consistent with the proposed physiological function for Cam during growth on acetate. co(2) 46-51 calmodulin 3 Homo sapiens 38-41 10529183-3 1999 The efficiency of either Zn-Cam or Co-Cam for CO(2) hydration (k(cat)/K(m)) was severalfold greater than HCO(3-) dehydration at physiological pH values, a result consistent with the proposed physiological function for Cam during growth on acetate. co(2) 46-51 calmodulin 3 Homo sapiens 38-41 10529183-4 1999 For both Zn- and Co-Cam, the steady-state parameter k(cat) for CO(2) hydration was pH-dependent with a pK(a) of 6.5-6.8, whereas k(cat)/K(m) was dependent on two ionizations with pK(a) values of 6.7-6.9 and 8.2-8.4. co(2) 63-68 calmodulin 3 Homo sapiens 20-23 12379779-1 2002 The consequences of CO(2)-concentrating in leaf air-spaces of CAM plants during daytime organic acid decarboxylation in Phase III of CAM (crassulacean acid metabolism) are explored. co(2) 20-25 calmodulin 3 Homo sapiens 62-65