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1 best inhibitor, competitive with respect to L-aspartate.
2 -glutamate first excreted and then destroyed l-aspartate.
3 st antagonism between CAIR and either ATP or L-aspartate.
4 f adenylosuccinate from 6-phosphoryl-IMP and l-aspartate.
5 he purine ring into the alpha-amino group of l-aspartate.
6 omponent of peptidoglycan, and L-lysine from L-aspartate.
7 diated import and conversion of L-malate and L-aspartate.
8 ransport of acidic amino acids, particularly l-aspartate.
9 acid (DABA), which is further catabolized to l-aspartate.
10 ate/transition state analog N-phosphonacetyl-L-aspartate.
11 ition of the phosphonate of N-phosphonacetyl-l-aspartate.
12 ral intermediate analogue, N-phosphonomethyl-L-aspartate.
13 f the amide bond of the substrate, N-acetyl- l-aspartate.
14 was synthesized in 7 steps from beta-benzyl L-aspartate.
15 th products, phosphate (P(i)) and N-carbamyl-L-aspartate.
16 500 s(-1) (at 6 degrees C) with increasing [L-aspartate].
17 tissue and K(m) parameters for GTP, IMP, and l-aspartate (12, 45, and 140 microm, respectively) simil
19 -malic enzyme from Ascaris suum will utilize L-aspartate, (2S,3R)-tartrate, and meso-tartrate as subs
20 e significant response of WT cells to 3.2 nM L-aspartate, a concentration three orders of magnitude l
21 rs results in acute depletion of N-carbamoyl-L-aspartate, a pyrimidine biosynthesis intermediate, wit
24 The Escherichia coli pan D gene encoding L- aspartate-alpha-decarboxylase was expressed under a c
25 rowth of homozygous lines expressing E. coli L- aspartate-alpha-decarboxylase was less affected than
26 tothenate biosynthesis enzymes from E. coli, l-aspartate-alpha-decarboxylase (ADC) and ketopantoate r
28 for the events leading to maturation of the L-aspartate-alpha-decarboxylase (PanD) enzyme that conve
30 topantoate hydroxymethyltransferase (KPHMT), L: -aspartate-alpha-decarboxylase (ADC), pantothenate sy
32 mg/dL), alanine aminotransferase (2288.82 U/L), aspartate aminotransferase (1251.76 U/L), gamma-glut
33 e phosphatase (U/L), alanine transaminase (U/L), aspartate aminotransferase (U/L), and bilirubin tota
34 ver enzymes (alanine aminotransferase, 657 U/L, aspartate aminotransferase, 1401 U/L), blood urea (53
40 ts to hydrolyze N-acetylaspartate (NAA) into l-aspartate and acetate, but the connection between ASPA
45 ylaspartic acid (NAA) to produce acetate and L-aspartate and is the only brain enzyme that has been s
46 erfamily, is shown to mediate uptake of both L-aspartate and L-glutamate as well as having sensitivit
47 oscopy that purified recombinant PEB1a binds L-aspartate and L-glutamate with sub microM K(d) values.
48 ATP-dependent formation of L-asparagine from L-aspartate and L-glutamine, via a beta-aspartyl-AMP int
49 l intestine contained high and low levels of l-aspartate and l-malate respectively, whereas fumarate
51 SC_02373 as an LAL with high selectivity for L-aspartate and L-methionine substrates, specifically fo
59 l Na(+): substrate coupling stoichiometry as L-aspartate, and that the affinities (K(d) and K(m)) for
60 din (a competitive inhibitor with respect to L-aspartate) are 29-57-fold lower in the presence of IMP
65 ized slices of rat hippocampus to 400 microM L-aspartate-beta-hydroxamate for 8 min results in the co
71 ulfinic acid bound with higher affinity than L-aspartate but involved lower saturating rates, whereas
74 ated under high CO2, the canB mutant grew on L-aspartate but not on the key C3 compounds L-serine, py
75 of Thr(301) abolishes catalysis supported by l-aspartate, but has no effect on catalysis supported by
76 acellular messenger: enzymatic scavenging of l-aspartate, but not glutamate, blocked stimulation of C
78 ersion of l-aspartate (l-Asp) to N-carbamoyl-l-aspartate by PyrB may reduce the amount of l-Asp avail
79 ylosuccinate forms from 6-phosphoryl-IMP and l-aspartate by the movement of the purine ring into the
81 pyrimidine biosynthetic pathway, N-carbamyl-L-aspartate (CA-asp) is converted to L-dihydroorotate (D
82 r studies of other ligands (N-phosphonacetyl-L-aspartate, carbamyl phosphate plus malonate, phosphono
84 articles (poly(ethylene glycol)-poly[(benzyl-l-aspartate)-co-(N-(3-aminopropyl)imidazole-L-aspartamid
85 estimate of about 0.18 s(-1) for V/E(t) with L-aspartate compared to a value of 39 s(-1) obtained wit
86 hich catalyzes the deacetylation of N-acetyl-l-aspartate, correlate with Canavan Disease, a neurodege
87 ne from l-aspartate is a pyruvoyl-containing l-aspartate decarboxylase (PanD), the enzyme in M. janna
88 hii is a pyridoxal phosphate (PLP)-dependent l-aspartate decarboxylase encoded by MJ0050, the same en
89 obacter baylyi ADP1 (ADP1), panD (coding for l-aspartate decarboxylase) encodes the only protein know
90 ral arteries via binding to L-arginyl-glycyl-L-aspartate-dependent integrin receptors and prevented v
93 natural substrates, carbamoyl phosphate and L-aspartate, do not induce in the Q137A enzyme the same
94 Val(273) and Thr(300) in the recognition of l-aspartate, even though these residues do not or cannot
95 reonine, or asparagine increase the K(m) for l-aspartate from 15- to 40-fold, and concomitantly decre
96 CYP46A1 is activated by l-glutamate (l-Glu), l-aspartate, gamma-aminobutyric acid, and acetylcholine,
97 ocholine, glycerol-3-phosphate, L-carnitine, L-aspartate, glutathione, prostaglandin G2, alpha-linole
98 igated to products (phosphate and N-carbamyl-l-aspartate) has been determined at 2.37 A resolution (R
100 The metabolite is produced by dedicated L-aspartate hydroxylases that use NADPH and molecular ox
103 ), which catalyzes deacetylation of N-acetyl-L-aspartate in the central nervous system (CNS), result
107 rifluoromethyl)benzoyl]amino]phenyl]methoxy]-l-aspartate increased neuronal loss after OGD or NMDA, a
108 eas the bisubstrate analog N-phosphonoacetyl-L-aspartate induced a significant change in the scatteri
109 where the enzyme producing beta-alanine from l-aspartate is a pyruvoyl-containing l-aspartate decarbo
112 Our results indicate that conversion of l-aspartate (l-Asp) to N-carbamoyl-l-aspartate by PyrB m
113 random motility and chemotactic responses to L-aspartate, L-serine, L-leucine, and Ni(2+) of WT and c
115 -quality data on the efficacy of L-ornithine L-aspartate (LOLA) in patients with cirrhosis and bouts
116 Data on the use of intravenous L-ornithine L-aspartate (LOLA) in the treatment of overt HE (OHE) is
118 The crystal structure of Streptomyces sp. V2 L-aspartate N-hydroxylase outlines a characteristic heli
119 g age was associated with increased N-acetyl-l-aspartate (NAA) in the anterior cingulate and insular
120 ation in the brain concentration of N-acetyl-L-aspartate (NAA) is a characteristic feature of Canavan
121 rs after the induction of ischemia, N-acetyl-L-aspartate (NAA) levels in the lateral caudo-putamen an
123 hed in oligodendroglia that cleaves N-acetyl-l-aspartate (NAA) to acetate and l-aspartic acid, elevat
124 mutations that prevent cleavage of N-acetyl-L-aspartate (NAA), resulting in marked elevations in cen
128 proteolysis in the presence of a substrate, L-aspartate, or an inhibitor, DL-TBOA in the presence of
129 each substrate and enhanced selectivity for L-aspartate over D-aspartate and L-glutamate, and lost t
131 minoaspartate is generated via the action of l-aspartate oxidase (NadB), which catalyzes the first st
132 d S after treatment with N-(phosphonoacetyl)-L-aspartate (PALA) at concentrations that normally lead
133 on in response to the drug N-phosphonoacetyl-L-aspartate (PALA) compared to TGF-beta 1-expressing con
134 f p53, cells treated with N-(phosphonacetyl)-L-aspartate (PALA) continue to synthesize DNA slowly and
135 oacetamide and malonate, or N-phosphonacetyl-l-aspartate (PALA) have previously been made in the spac
136 midine synthesis inhibitor N-phosphonoacetyl-l-aspartate (PALA) produced a pyrimidine deficit with mi
137 of the bisubstrate analogue N-phosphonacetyl-L-aspartate (PALA) required to activate the mutant enzym
138 not develop resistance to N-(phosphonacetyl)-L-aspartate (PALA), an inhibitor of the synthesis of pyr
139 t by the antimetabolite, N-(phosphonoacetyl)-L-aspartate (PALA), is defective, whereas p53 induction
140 the bisubstrate analogue N-(phosphonoacetyl)-l-aspartate (PALA), or the aspartate analogue succinate,
141 he phosphonate moiety of N-(phosphonoacetyl)-l-aspartate (PALA), the carboxylates of Asp interact wit
142 transcarbamylase inhibitor N-phosphonacetyl-l-aspartate (PALA), which blocks the synthesis of pyrimi
145 rily in G1 in response to N-(phosphonacetyl)-L-aspartate (PALA), which starves them for pyrimidine nu
146 the UMP synthesis inhibitor N-phosphonacetyl-L-aspartate (PALA), which, in addition to selecting for
147 frequency of formation of N-(phosphoacetyl)-L-aspartate (PALA)-resistant (PALA(R)) colonies, mediate
152 solid state or in solution, poly(beta-benzyl-L-aspartate) (PBLA) differs from the other helical polya
154 relevant polyanions: hyaluronate (HA), poly-L-aspartate (PLD), poly-L-glutamate (PLE), and polyacryl
156 may destabilize binding of the ligand to the L-aspartate pocket by disrupting hydrogen bonds that mai
157 osphoryl-IMP and GDP (hadacidin absent), the L-aspartate pocket can retain its fully ligated conforma
160 pathway in which the nucleophilic attack of l-aspartate precedes the phosphoryl transfer reaction.
162 carboxylates, such as fumarate, l-malate and l-aspartate represent substrates for anaerobic growth of
164 At low millimolar [Na(+)], the addition of L-aspartate resulted in complex time courses of W130 flu
167 on, undergoes an aldol condensation with the l-aspartate semialdehyde to form 2-amino-3,7-dideoxy-D-t
169 tions activated with bath-applied N-methyl-D,L-aspartate, serotonin, and dopamine, the coordination b
170 d with lasso peptide BGCs first methylate an l-aspartate side chain found within the ring of the lass
173 Control retinas given vehicle, N-methyl-L-aspartate (the L-isomer of NMDA), or NMDA plus MK-801,
174 se to lactulose, probiotics, and L-ornithine-L-aspartate therapy in minimal hepatic encephalopathy (M
175 nse to lactulose, probiotics and L-ornithine-L-aspartate therapy in minimal hepatic encephalopathy ha
177 steine sulphinate = L-CCG-III = L-cysteate = L-aspartate = threo-beta-hydroxyaspartate > trans-PDC >
178 carboxylase catalyzes the decarboxylation of L -aspartate to generate Beta-alanine and carbon dioxide
179 artoacylase catalyzes hydrolysis of N-acetyl-l-aspartate to aspartate and acetate in the vertebrate b
180 lian aspartate racemase (DR), which converts L-aspartate to D-aspartate and colocalizes with D-aspart
181 eaction between carbamoyl phosphate (CP) and l-aspartate to form N-carbamoyl-l-aspartate and inorgani
182 boxyaminoimidazole ribonucleotide (CAIR) and l-aspartate to N-succinylcarboxamide-5-aminoimidazole ri
183 DH and thus decrease the rate of the coupled L-aspartate to oxaloacetate to malate sequence only if t
186 rikingly, after addition of N-phosphonacetyl-l-aspartate to the enzyme, the transition rate was more
189 lial L-glutamate transporter and L-glutamate/L-aspartate transporter) along the abscess margins.
190 amma-benzyl-L-glutamate and poly-beta-benzyl-L-aspartate under conditions in which their molecular or
191 or the bisubstrate analogue N-phosphonacetyl-L-aspartate unexpectedly leads to the reformation of hex
192 contrast to the wild type transporter, only l-aspartate was able to activate the uncoupled anion con
193 ole as a precursor for fumarate respiration, l-aspartate was able to supply all the nitrogen required
195 ) at 70 degrees C for the decarboxylation of l-aspartate was measured for the recombinant enzyme.
197 mutant enzymes ligated with N-phosphonacetyl-L-aspartate, were similar to that observed for the unlig