Phosphofructokinase: Studies on the subunit structure

Paetkau, Verner; Younathan, Ezzat S.; Lardy, Henry A.

doi:10.1016/0022-2836(68)90316-1

Cited by 74 publications

(35 citation statements)

References 33 publications

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“…The criteria of chemical purity were that the enzyme was electrophoretically homogeneous when examined by polyacrylamide gel-electrophoresis in 0.1 "/, sodium dodecylsulphate as well as in 6 M urea at three different pH values. The preparations used were also devoid of N-terminal residues, in agreement with previous work [ 3 ] , and showing that they did not contain internal cleavages caused by partial proteolysis during isolation as has been shown to occur in the case of yeast phosphofructokinase [31].…”

Section: Discussionsupporting

confidence: 87%

“…This independent estimate for the cysteine content of rabbit muscle phosphofructokinase is in excellent agreement with values determined by amino acid analysis in this (cf. Table 1) and in previous [3] studies. Values obtained for lysine (43) and arginine (53) are also in good agreement with previous results and indicate a total of approximately 100 trypsinsensitive bonds per polypeptide chain.…”

Section: Carho~yymet~~ylation and Amino Acid Compositionsupporting

confidence: 60%

“…Peptides revealed by autoradiography and selective staining were thus not representative of the entire protein chain and this procedure would therefore have given a gross underestimate of the total number of tryptic peptides in the digest. In this connection it may be recalled that previous attemps to prepare peptide maps of the enzyme by methods involving the use of electrophoresis at pH 6.5 were reported [3,5] to have given rise to approximately half the expected number of tryptic peptides. Moreover it was these findings that led Brennan et ul.…”

Section: Discussionmentioning

confidence: 99%

“…In earlier studies of the subunit structure of rabbit muscle phosphofructokinase, Paetkau et al [3] noted that the number (40-50) of peptides found in a tryptic digest of the enzyme was approximately half the number to be expected from a polypeptide chain with a molecular weight of 85000 and containing about 100 potential sites for tryptic cleavage. Subsequently Coffee et al [4] found only 8-9 unique radioactively labelled cysteine-containing peptides in a tryptic digest of S-carb~xy['~C]methylated rabbit muscle enzyme, half the number (16 -17) to be expected from the amino acid composition were the subunit polypeptide chain to be of unique sequence over its entire length.…”

mentioning

confidence: 99%

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The Subunits of Rabbit-Muscle Phosphofructokinase. A Search for Sequence Repetition

Walker¹,

Harris²,

Runswick³

et al. 1976

Eur J Biochem

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Rabbit muscle phosphofructokinase uniformly carboxymethylated with iodo[2-14C]acetate consists of subunits with a molecular weight of 80000 5 5000. The subunit polypeptide chain contains 16 and 52 residues respectively of cysteine and arginine and, contrary to previous results, peptide mapping experiments gave no indication that phosphofructokinase chains yield fewer than the expected numbers of cysteine and arginine containing peptides.To test further for the possible occurrence of repeat sequences within a single subunit chain, cysteine-containing peptides were isolated and sequenced from tryptic and thermolytic digests of ~-[2-~~C]carboxymethylated phosphofructokinase. In all, 15 different cysteine sequences (comprising a total of 104 residues) were identified, showing that not more than one of an expected 16 cysteinecontaining sequences is repeated, and that the subunits in phosphofructokinase are of unique sequence along their entire length. The near quantitative isolation of several cysteine-containing peptides shows further that all subunits are of similar if not identical sequence.

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Section: Discussionsupporting

confidence: 87%

Section: Carho~yymet~~ylation and Amino Acid Compositionsupporting

confidence: 60%

Section: Discussionmentioning

confidence: 99%

mentioning

confidence: 99%

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The Subunits of Rabbit-Muscle Phosphofructokinase. A Search for Sequence Repetition

Walker¹,

Harris²,

Runswick³

et al. 1976

Eur J Biochem

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“…At the present stage of the analysis, bearing in mind the errors involved in the equilibrium experiments, we suggest that the self-association of phosphofructokinase may be described by the following equations : The discrepancy between their results and that obtained here is not readily explicable. It is possible that phosphofructokinase is a difficult enzyme to denature completely and that our conditions were not as drastic as those of Paetkau et al [19], although on the face of it they appear identical. The previous history of the enzyme preparation may also affect the ease with which it denatures.…”

Section: The Effect Of Non-idealitymentioning

confidence: 76%

The Self‐Association of Rabbit‐Muscle Phosphofructokinase

Leonard

Walker

1972

European Journal of Biochemistry

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The sedimentation pattern of phosphofructokinase indicates that the enzyme undergoes a self‐association reaction. Alkaline pH and high ionic strength prevented the reaction. At pH 10.5 fructose 1, 6‐bisphosphate stabilised the “monomer” of the self‐association, which had s020,w= 11.9 ± 0.4 S, and D020,w= 3.22 ± 0.33 × 10−7 cm/sec giving a molecular weight of 340000. Sedimentation equilibrium gave a molecular weight of 330000 ± 12000. The Z‐average molecular weight, measured at pH 8 by sedimentation equilibrium, increased in a sigmoid fashion with concentration from 340000 at 0.5 mg/ml to 2000000 at 7 mg/ml. By comparing the experimental curve for the variation of molecular weight versus concentration with calculated curves for open and closed polymerisations, it is suggested that the monomer associates to give a closed hexamer probably via an intermediate dimer or trimer which is present in very small amounts. The apparent association constant at pH 8.0 and 20°C was 6 × 1023 M−1 for the monomer‐hexamer reaction. The minimum molecular weight obtained in 6 M guanidine hydrochloride, 0.1 M 2‐mercaptoethanol was 85000 ± 10000 measured by a sedimentation velocity method and 76000 ± 5000 measured by sedimentation equilibrium. This implies that the “monomer” is composed of four polypeptide chains of approximately equal molecular weight.

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