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Glutamine, chromatographic separation

Neither glutamine nor glutamyl naphthylamide are substrates. The specificity requirements for the acceptor are considerably more demanding in that acyl transfer to water (hydrolysis) or to hydroxylamine is not observed under any conditions. The transferase was separated chromatographically from an enzyme capable of hydrolyzing glutamyl naphthylamide which conceivably is related to the previously described transpeptidase. [Pg.97]

Fig. 11.2.11. Isocratic separation of PTH-amino adds. Chromatographic conditions column, Ultrasphere ODS (250 X 4.6 mm I.D.) mobile phase, 0.01 M sodium acetate (pH 4.9)-acetonitrile (62.2 37.8) flow rate, 1 ml/min temperature, ambient. Peak identity corresponding to the single letter code for amino acids D, aspartic acid E, glutamic acid N, asparagine Q, glutamine T, threonine G, glycine A, alanine Y, tyrosine M, methionine V, valine P, proline W, tryptophan F, phenylalanine K, lysine I, isoleucine L, leucine S, serine. Reproduced from Noyes (1983), with... Fig. 11.2.11. Isocratic separation of PTH-amino adds. Chromatographic conditions column, Ultrasphere ODS (250 X 4.6 mm I.D.) mobile phase, 0.01 M sodium acetate (pH 4.9)-acetonitrile (62.2 37.8) flow rate, 1 ml/min temperature, ambient. Peak identity corresponding to the single letter code for amino acids D, aspartic acid E, glutamic acid N, asparagine Q, glutamine T, threonine G, glycine A, alanine Y, tyrosine M, methionine V, valine P, proline W, tryptophan F, phenylalanine K, lysine I, isoleucine L, leucine S, serine. Reproduced from Noyes (1983), with...
Fig. 2. The elution pattern of a standard mixture of OPA-derivatized primary amines, separated on a 5 (Jim Nucleosil C-18 column (200 X 4.6 mm id). The flow-rate was 1 mL/min employing the indicated gradient of metlianol and Na phosphate buffer (50 mA4, pH 5.25). Each peak represents 39 pmol except for those indicated below. 1, glutathione 2, cysteic acid 3, O-phosphoserine (19.5 pmol) 4, cysteine sulfinic acid 5, aspartic acid 6, asparagine (19.5 pmol) 7, glutamic acid 8, histidine 9, serine 10, glutamine 11, 3-methyl-histidine 12, a-aminoadipic acid (9.8 pmol) 13, citrulline (9.8 pmol) 14, carnosine 15, threonine,glycine 16, O-phosphoethanolamine 17, taurine (19.5 pmol) 18, p-alanine (19.5 pmol) 19, tyrosine 20, alanine 21, a-aminoisobutyric acid 22, aminoisobutyric acid 23, y-amino-ii-butyric acid 24, p-amino-u-butyric acid 25, a-amino-butyric acid 26, histamine 27, cystathione (19.5 pmol) 28, methionine 29, valine 30, phenylalanine 31, isoleucine 32, leucine 33, 5-hydroxytryptamine (5-H i ) 34, lysine. The chromatographic system consisted of a Varian LC 5000 chromatograph and a Schoeffel FS 970 fluorimeter. Fig. 2. The elution pattern of a standard mixture of OPA-derivatized primary amines, separated on a 5 (Jim Nucleosil C-18 column (200 X 4.6 mm id). The flow-rate was 1 mL/min employing the indicated gradient of metlianol and Na phosphate buffer (50 mA4, pH 5.25). Each peak represents 39 pmol except for those indicated below. 1, glutathione 2, cysteic acid 3, O-phosphoserine (19.5 pmol) 4, cysteine sulfinic acid 5, aspartic acid 6, asparagine (19.5 pmol) 7, glutamic acid 8, histidine 9, serine 10, glutamine 11, 3-methyl-histidine 12, a-aminoadipic acid (9.8 pmol) 13, citrulline (9.8 pmol) 14, carnosine 15, threonine,glycine 16, O-phosphoethanolamine 17, taurine (19.5 pmol) 18, p-alanine (19.5 pmol) 19, tyrosine 20, alanine 21, a-aminoisobutyric acid 22, aminoisobutyric acid 23, y-amino-ii-butyric acid 24, p-amino-u-butyric acid 25, a-amino-butyric acid 26, histamine 27, cystathione (19.5 pmol) 28, methionine 29, valine 30, phenylalanine 31, isoleucine 32, leucine 33, 5-hydroxytryptamine (5-H i ) 34, lysine. The chromatographic system consisted of a Varian LC 5000 chromatograph and a Schoeffel FS 970 fluorimeter.
Eluted from the long column of the Beckman-Spinco analyzer after 26 ml. of effluent. Separated from glutamine and asparagine in a 30° chromatographic run. [Pg.284]

See other pages where Glutamine, chromatographic separation is mentioned: [Pg.43]    [Pg.365]    [Pg.226]    [Pg.43]    [Pg.203]    [Pg.458]    [Pg.249]    [Pg.43]    [Pg.473]    [Pg.228]    [Pg.126]    [Pg.175]    [Pg.351]    [Pg.250]    [Pg.285]    [Pg.325]    [Pg.83]    [Pg.2672]    [Pg.1334]    [Pg.1335]    [Pg.85]    [Pg.283]    [Pg.261]    [Pg.264]    [Pg.56]    [Pg.1079]   


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Glutamin

Glutamine

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