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N-terminus determination

The Sanger method for N-terminus determination is a less common alternative to the Edman degradation. In the Sanger method, the peptide is treated with the Sanger reagent, 2,4-dinitrofluorobenzene, and then hydrolyzed by reaction with 6 M aqueous HC1. The N-terminal amino acid is recovered as its 2,4-dinitrophenyl derivative and identified. [Pg.1180]

FIGURE 22.35 Sanger method for N-terminus determination in peptides. [Pg.1080]

Only the N terminal amide bond is broken m the Edman degradation the rest of the peptide chain remains intact It can be isolated and subjected to a second Edman procedure to determine its new N terminus We can proceed along a peptide chain by beginning with the N terminus and determining each ammo acid m order The sequence is given directly by the structure of the PTH derivative formed m each successive degradation... [Pg.1135]

Carboxypeptidase catalyzed hydrolysis can be used to identify the C terminal ammo acid The N terminus is determined by chemical means One reagent used for this purpose is Sanger s reagent 1 fluoro 2 4 dimtrobenzene (see Figure 27 9)... [Pg.1151]

One way in which to determine whether one part of the molecule may influence the structure about the N-terminus, or whether the assignments of the [ C]methyl resonances in the C-n.m.r. spectra of fully reductively [ CJmethylated glycophorins A and A are correct is to isolate the various glycophorin glycopeptides that have been produced by enzymic or chemical means. [Pg.186]

Furthermore, the distribution of this peptide is compatible with PCP receptor densities, with highest concentrations of both ligand and receptor in areas that could be relevant to the psychotomimetic properties of PCP. Amino acid analysis of an aliquot of the purified fraction shows the peptide to contain at least 26 residues. Because the peptide is blocked at the N-terminus, enzyme fragments have been generated and purified over HPLC for sequence determination. [Pg.45]

The determination of the structure of the iron transporter, ferric-binding, protein (hFBP)t from Haemophilus influenzae (Bruns et ah, 1997) at 0.16 nm resolution shows that it is a member of the transferrin superfamily, which includes both the transferrins and a number of periplasmic binding proteins (PBP). The PBPs transport a wide variety of nutrients, including sugars, amino acids and ions, across the periplasm from the outer to the inner (plasma) membrane in bacteria (see Chapter 3). Iron binding by transferrins (see below) requires concomitant binding of a carbonate anion, which is located at the N-terminus of a helix. This corresponds to the site at which the anions are specifically bound in the bacterial periplasmic sulfate- and... [Pg.150]

N-terminal sequencing is normally undertaken by Edman degradation (Figure 7.5). Although this technique was developed in the 1950s, advances in analytical methodologies now facilitate fast and automated determination of up to the first 100 amino acids from the N-terminus of most proteins, and usually requires a sample size of less than 1 umol to do so (Figure 7.6). [Pg.188]

The idea behind the use of chemical labeling is a straightforward approach to simplify peak assignment into the proper ion series. If either peptide s C- or N-terminus is labeled by specific isotopic cluster, the labeled ions are easily recognizable on the spectrum and determination of the sequence string is no longer a problem. [Pg.209]

Fig. 2. Primary structure of hamster PrP (Stahl et al., 1993). The first 22 residues at the N-terminus are the signal sequence. PrPc is completely digested by proteinase K, whereas the N-terminal sequence of PrPSc to residue 89 (arrow, closed head) is digested. — CHO indicates the glycosylation sites at residues 181 and 197 Gpi the glycosylpho-sphatidylinositol anchor at 231 and the N-terminal octarepeats. In one case of human prion disease, a stop codon was found at 145 (arrow, open head) (Kitamoto et al., 1993). HI, H2, H3, and H4 denote the predicted a-helices (Huang et al, 1994, 1996), and A-C denote the a-helices and SI, S2 the /(-strands determined by solution NMR (James et al, 1997). Fig. 2. Primary structure of hamster PrP (Stahl et al., 1993). The first 22 residues at the N-terminus are the signal sequence. PrPc is completely digested by proteinase K, whereas the N-terminal sequence of PrPSc to residue 89 (arrow, closed head) is digested. — CHO indicates the glycosylation sites at residues 181 and 197 Gpi the glycosylpho-sphatidylinositol anchor at 231 and the N-terminal octarepeats. In one case of human prion disease, a stop codon was found at 145 (arrow, open head) (Kitamoto et al., 1993). HI, H2, H3, and H4 denote the predicted a-helices (Huang et al, 1994, 1996), and A-C denote the a-helices and SI, S2 the /(-strands determined by solution NMR (James et al, 1997).
The Western blot method is often used in the analysis of host cell impurities. It can be used to identify a recurring impurity. O Keefe et al. used a Western blot to identify an E. coli protein impurity in the preparation of the recombinant fibroblast growth factor (aFGF).29 By using specific antisera to the E. coli host cell proteins, they were able to isolate the impurity and determine its N-terminus amino acid sequence to confirm its identity. Antibodies could be used to determine the concentration of this impurity in sample preparations. [Pg.298]

See other pages where N-terminus determination is mentioned: [Pg.574]    [Pg.143]    [Pg.574]    [Pg.143]    [Pg.1135]    [Pg.1178]    [Pg.176]    [Pg.100]    [Pg.187]    [Pg.256]    [Pg.1135]    [Pg.197]    [Pg.59]    [Pg.375]    [Pg.21]    [Pg.164]    [Pg.117]    [Pg.186]    [Pg.809]    [Pg.298]    [Pg.164]    [Pg.247]    [Pg.17]    [Pg.33]    [Pg.124]    [Pg.249]    [Pg.38]    [Pg.143]    [Pg.367]    [Pg.286]    [Pg.127]    [Pg.128]    [Pg.134]    [Pg.153]    [Pg.94]    [Pg.127]    [Pg.433]    [Pg.111]   
See also in sourсe #XX -- [ Pg.61 , Pg.596 , Pg.694 ]



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