Poly(<scp>L</scp>‐histidyl‐<scp>L</scp>‐alanyl‐α‐<scp>L</scp>‐glutamic acid). I. Synthesis

Goren, H. Joseph; Katchalski‐Katzir, Ephraim; Fridkin, Mati

doi:10.1002/bip.1977.360161013

Cited by 5 publications

(4 citation statements)

References 39 publications

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“…The synthesis of poly(G1u-His-Lys-Tyr) using free histidine and dicyclohexylcarbodiimide was reported by Vajda.7 However, free histidine, when used together with p-nitrophenyl esters, introduced some undesirable side reactions, leading to insoluble polymers, as found by Trudelle in our laboratory (unpublished results). Poly(HisAla-Glu) was prepared by Goren et al 8 The imidazole ring was blocked with either dinitrophenyl (DNPIg or t-butyloxycarbonyl (Boc)lo groups. Thiolysis was used to remove the dinitrophenyl groups.…”

Section: Introductionmentioning

confidence: 99%

Synthesis and β‐conformation of sequential polypeptides containing arginine, histidine, and leucine

1984

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SynopsisAlternating poly(Arg-Leu) and copolypeptides with Arg-Leu and His-Leu sequences were prepared by condensation of the corresponding p-nitrophenyl dipeptide esters in the presence of 1-hydroxybenzotriazole. Arginine was used without any protection and histidine side chains were protected using r-benzyloxymethyl group recently introduced in peptide chemistry. The ability of these polypeptides with alternating hydrophilic and hydrophobic residues to form water-soluble P-sheets was investigated by CD.

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Section: Introductionmentioning

confidence: 99%

Synthesis and β‐conformation of sequential polypeptides containing arginine, histidine, and leucine

1984

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“…[0I208 -4000 fH 33,000 -4000 where fH is the fractional a-helix content and [8]208 is the ellipticity of a polypeptide solution at 208 nm. b) In the "2-wavelength method" the ellipticity a t 210 nm ([19]2~0) and 225 nm ([8lZz5) of a polypeptide may be described by the following equations: …”

Section: Calculation Of Helix P-structure and Random-coil Content Omentioning

confidence: 99%

“…c) The "3-wavelength method" is based on the same equations for [dl210 and [8]225 as for the "2-wavelength method" plus the following equation for [dlzig: …”

Section: Calculation Of Helix P-structure and Random-coil Content Omentioning

confidence: 99%

“…Circular dichorism (CD) studies on poly(His-Ala-Glu) (pH 2-9) demonstrated that the poly amino acid assumed a random conformation and could be made partially a-helical in the presence of high concentrations of trifluoroethanol. 8 The non-a-helical nature of poly (His-Ala-Glu) is probably due to electrostatic repulsive forces between the histidine side chains and between the glutamic acid side chains (ith and (i + 3rd) residue. Since the lysyl side chain is further away from the peptide backbone and has greater freedom of movement, it may be envisioned to have a less disruptive force on an a-helical conformation of poly(Lys-Ala-Glu).…”

Section: Introductionmentioning

confidence: 99%

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Poly(L‐lysyl‐L‐alanyl‐α‐L‐glutamic acid). II. Conformational studies

Goren¹,

McMillin²,

Walton³

1977

Biopolymers

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SynopsisThe solution characterization of poly(Lys-Ala-Glu) is described. This polytripeptide is zwitterionic at neutral pH and is shown to take on a conformation which is dictated by the state of ionization, molecular weight, temperature, and solvent. The polypeptide is almost entirely a-helical a t low pH and temperature for polymers of greater than 25,000 molecular weight. Melting profiles for these conditions show t , -20 OC. Analysis of circular dichroism curves shows the a-helical content to vary in a linear manner with molecular weight in the range 3000-30,000. At neutral pH the charged polypeptide is essentially random, but substantial a-helix could be induced by addition of methanol or trifluoroethanol. At temperatures where the sequential polypeptide is a random coil, addition of trifluoroethanol produces a polymer which is mostly a-helical but also contains an appreciable amount of 0-structure. The infrared spectrum of a low-molecular-weight fraction assumed to be cyclo(Lys-Ala-Glu)* was tentatively assigned a 0-pleated sheet structure.A comparison of this polytripeptide in various ionization states with other polytripeptides containing L-alanine and L-glutamate or L-lysine shows the a-helix directing properties for the (uncharged) residues to lie in the order Ala > Glu > Lys.

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Poly(L‐histidyl‐L‐alanyl‐α‐L‐glutamic acid). II. Catalysis of p‐nitrophenyl acetate hydrolysis

et al. 1978

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SynopsisThe hydrolysis of p-nitrophenyl acetate is catalyzed by imidazole, free in solution or as the side chain in poly(His-Ala-Glu). This is based on the observations that the reaction is first order in ester and first order in nonprotonated imidazole. Catalysis of p-nitrophenyl acetate hydrolysis is dependent on solvent conditions. The effect of low concentrations of ethanol, dioxane, and trifluoroethanol were investigated. As the concentration of organic solvent is increased, the second-order rate constant for imidazole catalysis decreases. The decrease, however, is greater for imidazole than for poly(His-Ala-Glu). In 2% trifluoroethanol/water solution, free imidazole has twice the catalytic activity of polymeric imidazole, while in 40% trifluoroethanol/water they have equal activity. Since under the latter solvent conditions poly(His-Ala-Glu) is partially a-helical, the relative improvement in polymeric-imidazole catalysis may be attributed to imidazole hydrogen-bonded to a carboxylate ion. With this assumption the carboxylate-imidazole hydrogen-bonded system has been calculated to have three times the base catalytic activity of imidazole.

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Poly(L‐histidyl‐L‐alanyl‐α‐L‐glutamic acid). I. Synthesis

Cited by 5 publications

References 39 publications

Synthesis and β‐conformation of sequential polypeptides containing arginine, histidine, and leucine

Synthesis and β‐conformation of sequential polypeptides containing arginine, histidine, and leucine

Poly(L‐lysyl‐L‐alanyl‐α‐L‐glutamic acid). II. Conformational studies

Poly(L‐histidyl‐L‐alanyl‐α‐L‐glutamic acid). II. Catalysis of p‐nitrophenyl acetate hydrolysis

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