4.4.1.17	integral to membrane	-	-	94055, 94058	
4.4.1.17	mitochondrial inner membrane	-	5743	94056, 94057, 94058	
4.4.1.17	mitochondrial inner membrane	integral membrane protein, facing cytoplasmic surface	5743	94055	
4.4.1.17	mitochondrial inner membrane	separation of mitochondrial inner and outer membrane on a sucrose gradient	5743	665678	
4.4.1.17	mitochondrial intermembrane space	enzyme is transported into the intermembrane space via a direct sorting pathway, that can occur in absence of external energy sources	5758	651850	
4.4.1.17	mitochondrial intermembrane space	novel, non-conservative import pathway: the enzyme precursor is translocated into mitochondria using the MOM19-GIP receptor complex in the outer membrane, independent of ATP-hydrolysis and electrochemical potential as external energy source	5758	94058	
4.4.1.17	mitochondrial membrane	membrane-bound	31966	730827	
4.4.1.17	mitochondrion	-	5739	651895, 677440, 715034, 729264, 729740, 730058, 730322, 94056	
4.4.1.17	mitochondrion	detected by Western analysis	5739	653258	
4.4.1.17	mitochondrion	during apoptotic stimuli, enzyme translocates to outside the mitochondria, and binds to and suppresses the X-linked inhibitor of apoptosis protein XIAP, leading to activation of caspase-3. The N-terminus of the neuronal glutamate transporter excitatory amino-acid carrier 1 EAAC1 can bind to enzyme which interferes with the enzyme-XIAP association	5739	679489	
4.4.1.17	mitochondrion	integral membrane protein of inner membrane (facing cytoplasmic surface)	5739	94055	
4.4.1.17	mitochondrion	intermembrane space	5739	94057, 94058	
4.4.1.17	mitochondrion	mitoplast	5739	94055	
4.4.1.17	mitochondrion	novel, non-conservative import pathway: the enzyme precursor is translocated into mitochondria using the MOM19-GIP receptor complex in the outer membrane, independent of ATP-hydrolysis and electrochemical potential as external energy source	5739	94058	
4.4.1.17	soluble	-	-	94057