Isolation and characterization of glycogen branching enzyme from rabbit liver

Glycogen branching enzyme was isolated from rabbit liver. The highly purified enzyme shows a monomer molecular weight of 71 000 by sodium dodecyl sulfate-polyacrylamide gel electrophoresis and apparent molecular weights of 93 000 by sucrose density gradient sedimentation and 52 000 by gel-exclusion chromatography on Sephacryl S-300. No glucosamine, mannosamine, galactosamine, or sialic acid was detected in the protein. An amino acid analysis is reported. The spectrum of branching enzyme is that of a simple polypeptide, with A1%280nm = 24.6. Highly purified branching enzyme consists of several closely related active enzyme forms that can be resolved by isoelectric focusing in polyacrylamide gel. The major species of pI 5.7 is flanked by less abundant forms of pI 5.6 and 5.8. Seemingly identical enzyme forms are observed in crude extracts of rabbit liver, skeletal muscle, brain, and heart, although the absolute and relative concentrations vary among the tissues. Branching enzyme apparently does not exhibit tissue-specific isoenzymes.     

Isolation and partial molecular characterization of heat-stable growth factor from human placenta

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Turkey muscle acylphosphatase: purification and comparative studies

Turkey muscle acylphosphatase is strongly bound to anti-(horse muscle acylphosphatase ) antibodies covalently linked to an agarose resin. This permits use of an affinity chromatography step in the purification, which increased the final yield and allowed us to isolate three different molecular forms of the enzyme. Form 1 is a mixed disulfide between the polypeptide chain and glutathione; form 3 is an S-S dimer of the polypeptide chain present in form 1, while form 2, present in a very low amount, consists of a polypeptide chain quite similar in aminoacid composition to that found in form 1. The three molecular forms show very similar kinetic parameters. The comparison of these molecular forms with those isolated from horse muscle showed similar kinetic properties but different structural features.     

Isolation and characterization of an organic solvent soluble polypeptide component from photoreceptor complexes of Rhodospirillum rubrum.

An organic solvent soluble polypeptide has been isolated from photoreceptor complexes and chromatophores of Rhodospirillum rubrum. After extraction of the protein from lyophilized samples with 1:1 chloroform-methanol, it was purified by column chromatography. Its isoelectric point determined by isoelectric focusing was 7.10. When analyzed by sodium dodecyl sulfate-polyacrylamide gel electrophoresis, the purified polypeptide ran as a single band of an apparent molecular weight of 12 000. However, according to amino acid analysis, the minimal molecular weight based on one histidine residue per polypeptide is 19 000. The polypeptide contains no cysteine and no tyrosine. Amino acid analysis indicated that three methionines were present per histidine residue and cyanogen bromide cleavage gave four smaller peptides which were isolated by two-dimensional electrophoresis and chromatography. Spectroscopic analysis indicated the presence of three tryptophan residues per histidine and N-bromosuccinamide cleavage also gave four smaller peptides which could be isolated by two-dimensional electrophoresis and chromatography. The C-terminal amino acid was shown to be glycine by two methods, while the N-terminal amino acid appears to be blocked. The organic solvent soluble polypeptide accounts for approximately 50% of the chromatophore protein and seems to bind the antenna bacteriochlorophyll and carotenoid molecules. Using this procedure, organic solvent soluble polypeptides were isolated from several photosynthetic bacteria and were found to have substantially different amino acid contents.     

The complete amino acid sequence of bovine skeletal muscle acylphosphatase

The primary structure of bovine skeletal muscle acylphosphatase was determined by performing the sequence analyses of the complete series of tryptic peptides. The amino acid composition of the entire series of peptic peptides was used to reconstruct the sequence by the overlapping method. The proposed structure is further confirmed by analogy with known amino acid sequences of acylphosphatase from skeletal muscle of other vertebrate species. The length of the polypeptide chain is 98 residues, identical to the length of the enzymes from other known mammalian species, but different from that found in turkey. The enzyme is NH2-acetylated and a comparison with the analogous molecular forms from other vertebrate species indicates that there are several long polypeptide stretches strictly conserved (93-97% identical position among mammals, and about 80% between calf and turkey enzymes).     

The comparative structure of mammalian glyceraldehyde 3-phosphate dehydrogenase

1. The amino acid sequences around the thiol groups of glyceraldehyde 3-phosphate dehydrogenase from badger and monkey skeletal muscle were compared with the sequences around the thiol groups in the enzyme isolated from other organisms. 2. Preliminary evidence of the existence of isoenzymes in the badger was obtained. Only the major form, however, could be purified completely. 3. The monkey enzyme contains only three cysteine residues per polypeptide chain compared with the four found in all the other mammalian enzymes so far examined, including that of badger, and the two in yeast. The missing thiol group in monkey was identified as residue 281 in the corresponding sequence of the pig enzyme. 4. These experiments rule out any essential role for cysteine-281 in the function of the mammalian enzymes. 5. Further evidence of the remarkable conservation of amino acid sequence in this enzyme during evolution is presented and discussed.     

The amino-acid sequence of troponin C from frog skeletal muscle.

The primary structure of the troponin C from skeletal muscle of the frog Rana esculenta has been determined. The amino acid sequence was deduced from amino acid determinations of peptides obtained after cleavage with cyanogen bromide. Overlapping peptides were isolated from tryptic digests of performic-acid-oxidized troponin C and phthalylated performic-acid-oxidized troponin C. All overlaps have been determined except for the Arg-Ile sequence at position 103--104, which has been obtained by comparison with homologous troponins C. Frog troponin C consists of one polypeptide chain containing 152 amino acids. The calculated molecular weight is 18299. There is a single cysteine residue at position 101 and a single tyrosine residue at position 112. No histidine or tryptophan residues are present. The amino-terminal amino acid is N-acetylated. The homology of frog troponin C with other skeletal and cardiac troponin C is briefly discussed.     

The complete amino acid sequence of ubiquitin, an adenylate cyclase stimulating polypeptide probably universal in living cells.

The complete amino acid sequence was determined for bovine ubiquitin, and adenylate cyclase stimulating polypeptide, which is probably represented universally in living cells. Ubiquitin has a molecular weight of 8451 and consists of a single polypeptide chain containing 74 amino acid residues. It contains four arginine residues but no cysteine or trytophan residues. The first 61 amino acid residues were obtained by automated Edman degradations. Tryptic digestion of maleated ubiquitin yielded four peptide fragments that were resolved by molecular sieve chromatography and coded in order of decreasing chain length (MT-1, MT-2, MT-3, and MT-4). The automated sequenator determinations on native ubiquintin provided overlapping sequence data for three of these fragments that gave an order of MT-1, MT-3, and then MT-2; Peptide MT-4, a dipeptide, was therefore assigned to the C terminus, and the placement of peptide MT-2 was corroborated by analysis of data from carboxypeptidase digestions of maleated ubiquitin. Peptide MT-2 was domaleated and sequenced by manual Edman degradations through a single lysine residue. It was cleaved at this residue with trypsin, and the two resultant peptides were separated by ion-exchange chromatography. Manual sequencing of the C-terminal demaleated tryptic peptide of MT-2 completed the sequence of MT-2 and that of native ubiquitin. The sequence of ubiquitin was further confirmed and supported by amino acid and parital sequence anlysis of fragments obtained by digestion of maleated ubiquitin with chymotrypsin or staphylococcal protease.     

Isolation and complete amino-acid sequence of the small polypeptide from light-harvesting pigment-protein complex I (B870) of Rhodopseudomonas capsulata

The small bacteriochlorophyll-binding polypeptide of the light-harvesting complex B870 was extracted from the intracytoplasmic membrane of the strain A1a+ of Rhodopseudomonas capsulata with chloroform/methanol/ammonium acetate and separated by chromatography on Sephadex LH60 using the same solvent. The polypeptide obtained from the peak fraction III was found to be homogeneous and identical with the small polypeptide isolated from the B870 complex as shown by dodecyl sulfate/polyacrylamide gel electrophoresis, amino acid composition and N-terminal sequence. The complete amino acid sequence is given. The relative molecular mass based on the amino acid sequence is 5341. The polarity of amino acids is 35.42%. The C-terminal part of the peptide chain from residue 29 to 48 is hydrophobic and includes one His residue.     

On the identification of the uncoupler binding protein of bovine mitochondrial oligomycin sensitive ATPase

The 55,000 dalton polypeptide component of the membrane sector of the mitochondrial oligomycin sensitive ATPase has been purified by recycling chromatography on BioGel P-100. The amino acid composition of the purified polypeptide differs significantly from that of the α-subunit of F₁ with which it shares a similar apparent molecular weight. However, the amino acid composition of the former is identical to that of the Factor B polypeptide, which is known to occur in oligomeric forms. Evidence is presented which suggests that the mitochondrial uncoupler binding proteins and the various oligomeric forms of the Factor B polypeptide, including the 55,000 dalton species described in the present report, are identical.     

The amino acid compositions of the tryptic, chymotryptic and peptic peptides from the L-2 light chain of rabbit skeletal muscle myosin.

The light chain fraction was separated from rabbit skeletal muscle myosin and four kinds of light chains, L-1, L-2, L-3 and L-4 in the fraction were further isolated by column chromatography using DEAE-cellulose DE-52. After amino-ethylation, the L-2 light chain was digested with trypsin. It was also digested with chymotrypsin and pepsin, respectively, after carboxymethylation. Each of the tryptic, chymotryptic and peptic peptides thus obtained was separated and purified and their amino acid compositions were analyzed.     

Lectin from sainfoin (Onobrychis viciifolia scop.). Complete amino acid sequence

The complete amino acid sequence of a lectin from sainfoin ( Onobrychis viciifolia Scop . var. Eski ) has been determined by sequential Edman analyses of the intact protein and peptides derived from digests with trypsin and thermolysin. Peptides were purified by pH fractionation, by gel filtration, and by cation-exchange and reverse-phase high-performance liquid chromatography. Seven segments of continuous sequence, accounting for the entire protein, were aligned through sequence comparison with several homologous leguminous lectins to give the final structure. Sainfoin lectin monomer, a glycoprotein which contains a single polypeptide chain of 236 amino acid residues with a molecular weight of 26 509, has amino- and carboxyl-terminal residues of alanine and threonine, respectively. A single residue of cysteine, located at position 33, is the only sulfur-containing amino acid present. Asparagine-118 is the single oligosaccharide attachment site. At least two apparent allelomorphic forms of the protein, having valine or isoleucine at position 49 in equal amounts, were detected. The amino acid sequence of sainfoin lectin exhibits circular permutation relative to that of the homologous protein concanavalin A.     

Structures of the major carbohydrates of natural human interleukin-2

Purified human interleukin-2 secreted by peripheral blood lymphocytes from healthy donors was found to exist in several forms. These forms were (partially) resolved by reversed-phase high-performance liquid chromatography and sodium dodecyl sulfate/polyacrylamide gel electrophoresis. Two major polypeptide species (interleukin-2 N1 and N2, 16.5 kDa) were shown to be glycosylated on the basis of [3H]galactose/[3H]glucosamine incorporation and determination of amino sugars after acid hydrolysis. A third component (interleukin-2 M, 14.5 kDa) represents a nonglycosylated form. The amino acid composition and the NH2-terminal sequence of both forms are consistent with the data deduced from the cDNA coding for interleukin-2 after removal of a leader peptide of 20 amino acids. Carbohydrates are O-linked to the IL-2 protein via threonine-3 of the polypeptide chain. The oligosaccharides were released by reductive beta-elimination and were purified by gel filtration and high-performance liquid chromatography. Applying methylation analysis, exoglycosidase digestion and fast atom bombardment mass spectrometry the following major carbohydrate structures were identified: N1, NeuAc(alpha 2-3)Gal(beta 1-3)GalNAc-ol; and N2, NeuAc(alpha 2-3)Gal(beta 1-3)[NeuAc(alpha 2-6)]GalNAc-ol.     

A new method for the preparation of a calcium activated neutral protease highly sensitive to calcium ions

A Ca²⁺--activated neutral protease has been purified from chicken skeletal muscle to homogeneity by a new method which employs affinity chromatography on casein CH-Sepharose 4B. SDS polyacrylamide gel electrophoresis shows that the purified enzyme consists of a single polypeptide chain with a molecular weight of 76,000. For half-maximum activity this protease requires 50 μM Ca²⁺ ions and its optimum pH is 7.6. The protease is inhibited by leupeptin, antipain, E-64 and endogenous inhibitor. The purified protease is very labile upon storage; after 3 days at 4°C no detectable activity remained.     

Eu-actinin, a new structural protein of the Z-line of striated muscles

A new protein component of the Z-line of striated muscles was isolated from chicken breast muscle. This protein has been designated as eu-actinin because of its close similarity in polypeptide molecular weight to actin. Eu-actinin was extracted from myosin-removed myofibrils at low ionic strength at pH 6.5 and purified by column chromatography on Sepharose 4B and DEAE-cellulose. Although the polypeptide molecular weight of eu-actinin measured by SDS-polyacrylamide gel electrophoresis is similar to that of actin, other physico-chemical properties of eu-actinin definitely differ from those of actin. The isoelectric point of eu-actinin was more acidic than that of actin. The amino acid composition of eu-actinin was found to be different from that of actin or those of other muscle structural proteins. The results of analytical gel filtration on Sepharose 4B indicated that eu-actinin forms dimers through non-covalent bonding under aqueous conditions. Eu-actinin has a low axial asymmetry under low-salt conditions, as judged from its intrinsic viscosity ([eta] = 6.4 ml/g for the dimer state) and exhibits a tendency to undergo self-association with increasing ionic strength. Interactions of eu-actinin with other muscle proteins were examined by the affinity column technique. It was shown that eu-actinin binds to actin and alpha-actinin. Eu-actinin exhibited strong seeding ability for the polymerization of actin. Antibody to eu-actinin was raised in a goat and purified by affinity chromatography. The specific antibody against eu-actinin did not form precipitine lines with actin or alpha-actinin. Immunofluorescence studies revealed that eu-actinin is localized at the Z-line of myofibrils. The FITC-conjugated antibody to eu-actinin also stained the Z-lines of rabbit skeletal muscle and chicken cardiac muscle. Therefore, it was concluded that eu-actinin is a new, ubiquitous constituent of Z-lines of striated muscles.     

Primary structure of human fibrinogen and fibrin. Isolation and partial characterization of chains of fragment D.

Fragment D has been isolated as an apparently single molecular weight species (molecular weight about 100,000) from plasmin digests of humman fibrinogen, using a combination of affinity chromatography on insolubilized "fibrin monomer" and gel filtration. This fragment consists of three chains with molecular weights of 15,000 (Dbeta), 42,500 (Dgamma1) or 39,500 (Dgamma2), and 14,000 (Dalpha) held together by disulfide bonds. The S-carboxymethyl derivatives of the chains have been separated by gel filtration and ion exchange chromatography, and their identity has been confirmed by peptide mapping and immunological analysis. The chain with a molecular weight of 45,000 is a fragment of the Bbeta chain of fibrinogen. The chain derived from the gamma chain of fibrinogen occurred in two molecular forms having molecular weight 42,500 and 39,500. The chain derivative with molecular weight 14,000 is most likely derived from the Aalpha chain of fibrinogen. The chains were characterized by NH2-terminal sequence analysis, amino acid composition, and carbohydrate staining. The two molecular analysis, amino acid composition, and carbohydrate staining. The two molecular forms of the gamma chain appeared to be identical except for an NH2-terminal peptide extension of 23 amino acid residues in the longer chain. The latter has sequences in common with the COOH-terminal part of the gamma chain of the NH2-terminal disulfide knot (BROMBACK, B., BRONDAHL, N. J., HESSEL, B., IWANAGA, S., and WALLEN, P. (1973) J. Biol. Chem. 248, 5806-5820); its NH2-terminal residue being Ala-63 of the gamma chain of fibrinogen.     

Structural characteristics of prostaglandin synthetase from sheep vesicular gland

Prostaglandin synthetase contains both oxygenase and peroxidase activity and catalyzes the first step of prostaglandin synthesis. Aspirin (acetylsalicylic acid) inhibits oxygenase activity by acetylating a serine residue of the enzyme. In the current study, we have investigated the subunit structure of this complex enzyme and the stoichiometry of aspirin-mediated acetylation of the enzyme. The enzyme was purified to near homogeneity in both active and aspirin-acetylated forms. The purified protein was analyzed for enzymatic activity, [3H]acetate content following treatment with [acetyl-3H]aspirin, NH2-terminal sequence, and amino acid composition. The results show first, that the enzyme can be purified to near homogeneity in an active form; second, that the enzyme consists of a single polypeptide chain (molecular weight 72,000 by sodium dodecyl sulfate polyacrylamide gel electrophoresis) with a unique NH2-terminal sequence (Ala-Asp-Pro-Gly-Ala-Pro-Ala-Pro-Val-Asn-Pro-Met-Gly-); and third, that aspirin inhibits the enzyme by transfer of one acetate per enzyme monomer. Therefore, the two distinct enzymatic activities, oxygenation and peroxidation, are present in a single polypeptide chain. Experiments with a cross-linking agent indicate that in nonionic detergent the enzyme is a dimer of two identical subunits.     

The subunit structure and active site sequence of porcine spleen deoxyribonuclease

An acid DNase (DNase II) from porcine spleen was purified by sequential chromatography over carboxymethyl-cellulose, blue dextran-Sepharose, hydroxylapatite, and sulfoxyethyl-cellulose. The purified enzyme shows two polypeptide bands on sodium dodecyl sulfate-polyacrylamide gel electrophoresis at Mr 35,000 (alpha chain) and 10,000 (beta chain). The sum of the two molecular weights is that of the native enzyme (45,000). Thus, the DNase II molecule is an alpha,beta dimer. The two polypeptides are not joined by disulfide bonds, but can be cross-linked chemically with dimethyl suberimidate. They are dissociable in 8 M urea, after which they can be isolated by gel filtration on Sephadex G-100, eluting with 1 M acetic acid. Once dissociated, the two polypeptides cannot be reassociated to regenerate DNase II activity. The sum of the amino acid compositions of the two polypeptides is that of the native enzyme, and both contain carbohydrate. The beta chain is devoid of histidine, half-cystine, valine, and methionine. The NH2-terminal amino acid of the alpha chain is leucine, while that of the beta chain cannot be identified by either dansylation or Edman degradation. Alkylation of an essential histidine residue of DNase II occurs on incubation of the enzyme with [2-14C] ICH2COOH (Oshima, R. G., and Price, P. A. (1973) J. Biol. Chem. 248, 7522-7526). Radioactivity is found only in the alpha chain. After hydrolysis of the alpha chain with trypsin, chymotrypsin, and thermolysin, radioactive peptides were isolated by gel filtration on Sephadex G-25 and reversed-phase high performance liquid chromatography. Sequence analyses of the radioactive peptides show alkylation of 1 of 9 histidines in the entire amino acid sequence of DNase II. The sequence around this histidine, determined by manual microsequencing and by the release of amino acids with carboxypeptidases A and B, is Ala-Thr-Glu-Asp-His-Ser-Lys-Trp.     

Calcium binding of arterial tropomyosin: involvement in the thin filament regulation of smooth muscle

Bovine aortic tropomyosin has been isolated by DEAE-Sepharose chromatography following isoelectric precipitation and ammonium sulfate fractionation. A single polypeptide [Mr 36 000 on a sodium dodecyl sulfate (SDS)-polyacrylamide gel] was obtained under different electrophoretic conditions. The amino acid composition of bovine tropomyosin was very similar to that of rabbit skeletal muscle; the amino-terminal residue is blocked. The molecular weight of the native tropomyosin (76 000), which is twice that calculated from the SDS-polyacrylamide gel, suggests that the molecule is a dimer. The diffusion coefficient of 3.4 X 10(-7) cm2 s-1 and the frictional coefficient of 1.7 indicate that the molecule is asymmetric. Comparative high-pressure liquid chromatography peptide mapping of rabbit skeletal and bovine aortic tropomyosins shows primary structure variation. Bovine aortic tropomyosin binds calcium under physiological conditions of pH and ionic strength (22 mol of Ca2+/mol of tropomyosin with a Kd of 1.4 mM). Such a property is not shared by skeletal tropomyosin. In low Mg2+ concentration, both skeletal and aortic actin activations of the skeletal myosin ATPase activity are calcium independent. Addition of aortic tropomyosin to a hybrid actomyosin (aortic actin, skeletal myosin) yields an enhancement of the actin activation of the myosin ATPase activity, but the addition of skeletal tropomyosin yields a decrease of this activity. However, both the enhancement and decrease are calcium dependent. Addition of skeletal or aortic tropomyosin to an actomyosin system, where both actin and myosin come from skeletal muscle, yields only an enhancement of the actin activation of the myosin ATPase activity.(ABSTRACT TRUNCATED AT 250 WORDS)