PMID-sentid Pub_year Sent_text comp_official_name comp_offsetprotein_name organism prot_offset 28873527-2 2018 In the present study, polyamine oxidase specific for spermine and spermidine and diamine oxidase specific for putrescine, were co-immobilized onto a novel chitosan/coconut fibre/zinc oxide nanoparticles (CS/CF/nZnO) hybrid support to yield a polyamine sensing strip. Putrescine 110-120 polyamine oxidase Homo sapiens 22-39 12803540-1 2003 In the polyamine back-conversion pathway, spermine and spermidine are first acetylated by spermidine/spermine N(1) -acetyl-transferase (SSAT-1) and then oxidized by polyamine oxidase to produce spermidine and putrescine respectively. Putrescine 209-219 polyamine oxidase Homo sapiens 165-182 15213272-3 2004 Induction of SSAT upregulated the expression of polyamine oxidase and resulted in the reduction of cellular concentration of spermidine and spermine, increased concentration of putrescine, and inhibited cell growth. Putrescine 177-187 polyamine oxidase Homo sapiens 48-65 15221502-3 2004 One appears to be identical with the polyamine oxidase that was postulated to catalyse the conversion of spermidine to putrescine within the interconversion cycle. Putrescine 119-129 polyamine oxidase Homo sapiens 37-54 23041351-6 2013 Further analysis of polyamine oxidase (PAO)/diamine oxidase (DAO) polyamine catabolic enzymes indicated that DAO enzymatic activity increased significantly in correlation with putrescine accumulation, whereas PAO activity, involved in spermidine/spermine degradation, increased slightly. Putrescine 176-186 polyamine oxidase Homo sapiens 20-37 23041351-6 2013 Further analysis of polyamine oxidase (PAO)/diamine oxidase (DAO) polyamine catabolic enzymes indicated that DAO enzymatic activity increased significantly in correlation with putrescine accumulation, whereas PAO activity, involved in spermidine/spermine degradation, increased slightly. Putrescine 176-186 polyamine oxidase Homo sapiens 39-42 17026969-3 2006 Both aminoaldehydes and acrolein are generated from the metabolism of polyamines to putrescine by polyamine oxidase. Putrescine 84-94 polyamine oxidase Homo sapiens 98-115 12006544-2 2002 Because bisalkylated derivatives of putrescine (1,4-diaminobutane) are potent inhibitors of the flavin adenine dinucleotide-dependent polyamine oxidase (PAO), we asked whether PAO could detoxify synthetic bisalkylated polyamines with chain lengths longer than putrescine. Putrescine 48-65 polyamine oxidase Homo sapiens 176-179 12215835-7 2002 This enzyme catalyzes the N(1)-acetylation of spermidine and spermine and, by the successive activity of polyamine oxidase, the spermine can be converted to spermidine and the spermidine to putrescine. Putrescine 190-200 polyamine oxidase Homo sapiens 105-122 12477380-1 2003 In the polyamine back-conversion pathway, spermine and spermidine are first acetylated by spermidine/spermine N1 -acetyltransferase (SSAT) and then oxidized by polyamine oxidase (PAO) to produce spermidine and putrescine respectively. Putrescine 210-220 polyamine oxidase Homo sapiens 160-177 12477380-1 2003 In the polyamine back-conversion pathway, spermine and spermidine are first acetylated by spermidine/spermine N1 -acetyltransferase (SSAT) and then oxidized by polyamine oxidase (PAO) to produce spermidine and putrescine respectively. Putrescine 210-220 polyamine oxidase Homo sapiens 179-182 12141946-1 2002 During polyamine catabolism, spermine and spermidine are first acetylated by spermidine/spermine N(1)-acetyltransferase (SSAT) and subsequently oxidized by polyamine oxidase (PAO) to produce spermidine and putrescine, respectively. Putrescine 206-216 polyamine oxidase Homo sapiens 156-173 12141946-1 2002 During polyamine catabolism, spermine and spermidine are first acetylated by spermidine/spermine N(1)-acetyltransferase (SSAT) and subsequently oxidized by polyamine oxidase (PAO) to produce spermidine and putrescine, respectively. Putrescine 206-216 polyamine oxidase Homo sapiens 175-178 12006544-2 2002 Because bisalkylated derivatives of putrescine (1,4-diaminobutane) are potent inhibitors of the flavin adenine dinucleotide-dependent polyamine oxidase (PAO), we asked whether PAO could detoxify synthetic bisalkylated polyamines with chain lengths longer than putrescine. Putrescine 36-46 polyamine oxidase Homo sapiens 134-151 12006544-2 2002 Because bisalkylated derivatives of putrescine (1,4-diaminobutane) are potent inhibitors of the flavin adenine dinucleotide-dependent polyamine oxidase (PAO), we asked whether PAO could detoxify synthetic bisalkylated polyamines with chain lengths longer than putrescine. Putrescine 36-46 polyamine oxidase Homo sapiens 153-156 12006544-2 2002 Because bisalkylated derivatives of putrescine (1,4-diaminobutane) are potent inhibitors of the flavin adenine dinucleotide-dependent polyamine oxidase (PAO), we asked whether PAO could detoxify synthetic bisalkylated polyamines with chain lengths longer than putrescine. Putrescine 36-46 polyamine oxidase Homo sapiens 176-179 12006544-2 2002 Because bisalkylated derivatives of putrescine (1,4-diaminobutane) are potent inhibitors of the flavin adenine dinucleotide-dependent polyamine oxidase (PAO), we asked whether PAO could detoxify synthetic bisalkylated polyamines with chain lengths longer than putrescine. Putrescine 48-65 polyamine oxidase Homo sapiens 134-151 12006544-2 2002 Because bisalkylated derivatives of putrescine (1,4-diaminobutane) are potent inhibitors of the flavin adenine dinucleotide-dependent polyamine oxidase (PAO), we asked whether PAO could detoxify synthetic bisalkylated polyamines with chain lengths longer than putrescine. Putrescine 48-65 polyamine oxidase Homo sapiens 153-156 10668504-15 1999 The polyamines can be converted to putrescine by CAOs or spermidine/spermine acetyltransferase and polyamine oxidase. Putrescine 35-45 polyamine oxidase Homo sapiens 99-116 1358085-3 1992 The sharp rise in putrescine levels observed following severe cellular stress is most probably the result of an increase in ODC activity and decrease in SAMDC activity or an activation of the interconversion of spermidine into putrescine via the enzymes spermidine N-acetyltransferase and polyamine oxidase. Putrescine 18-28 polyamine oxidase Homo sapiens 289-306 12022477-6 2002 The sulphonamido oxa-polyamine derivatives and especially oxa-Spd enhanced the activity of polyamine oxidase (PAO), an enzyme capable of oxidising N1-acetylated spermine and spermidine to spermidine and putrescine, respectively, generating cytotoxic H2O2 and 3-acetamidopropanal as by-products. Putrescine 203-213 polyamine oxidase Homo sapiens 91-108 12022477-6 2002 The sulphonamido oxa-polyamine derivatives and especially oxa-Spd enhanced the activity of polyamine oxidase (PAO), an enzyme capable of oxidising N1-acetylated spermine and spermidine to spermidine and putrescine, respectively, generating cytotoxic H2O2 and 3-acetamidopropanal as by-products. Putrescine 203-213 polyamine oxidase Homo sapiens 110-113 10519408-1 1999 Polyamine oxidase functions in the polyamine catabolic pathway, converting N1-acetyl-spermidine and -spermine into putrescine (Put) and spermidine (Spd), respectively, thereby facilitating homeostasis of intracellular polyamine pools. Putrescine 115-125 polyamine oxidase Homo sapiens 0-17 10519408-1 1999 Polyamine oxidase functions in the polyamine catabolic pathway, converting N1-acetyl-spermidine and -spermine into putrescine (Put) and spermidine (Spd), respectively, thereby facilitating homeostasis of intracellular polyamine pools. Putrescine 127-130 polyamine oxidase Homo sapiens 0-17