PMID-sentid	Pub_year	Sent_text		comp_official_name	comp_offsetprotein_name	organism	prot_offset
29274298-6	2018	This allows monitoring the dynamic progress of the conversion of lysine to cadaverine with a temporal resolution of ~30 s. Moreover, the method only requires to sample the very early onset of the reaction (<0.5% of substrate conversion where the host itself is required only at muM concentrations) at comparatively low reaction rates, thus saving enzyme material and reducing NMR acquisition time.	Cadaverine	75-85	latexin	Homo sapiens	281-284	
23539494-3	2013	In the presence of Brij 76 (1.5 %), Hg(2+) (7.5 muM), and cadaverine (10 muM) at pH 5.0, this SALDI-MS approach allowed the simultaneous detection of T15, T20, T33, and T40, with limits of detection at the femtomole-to-picomole level and sample-to-sample intensity variation <23 %.	Cadaverine	58-68	latexin	Homo sapiens	73-76	
23539494-4	2013	In the presence of Ag(+) (1 muM) and cadaverine (10 muM) at pH 7.0, this technique allowed the detection of randomly sequenced ss- and ds-ODNs at concentrations down to the femtomole level.	Cadaverine	37-47	latexin	Homo sapiens	52-55