Gene 68, a new bacteriophage T4 gene which codes for the 17K prohead core protein is involved in head size determination

We have identified the gene for a major component of the prohead core of bacteriophage T4, the 17K protein. The gene, which we call gene 68, lies between genes 67 and 21 in the major cluster of T4 head genes. All of the genes in this region of the T4 genome have overlapping initiation and termination codons with the sequence T-A-A-T-G. We present the DNA sequence of the gene and show that it codes for a protein containing 141 amino acids with an acidic amino-terminal half and a basic carboxyl terminus. Antibodies prepared against the 17K protein were used to show that it is cleaved by the phage-coded gp21 protease during head maturation and that most of the protein leaves the head after cleavage. A frameshift mutation of the gene was constructed in vitro and recombined back into the phage genome. The mutated phages had a drastically reduced burst size and about half of the particles produced were morphologically abnormal, having isometric rather than prolate heads. Thus, the 17K protein is involved in head shape determination but is only semi-essential for T4 growth.     

Analysis of the pigment content of an antenna pigment-protein complex from three strains of Rhodopseudomonas sphaeroides

The pigment content of a B800–850 light-harvesting pigment-protein complex isolated from three different stains of Rhodopseudomonas sphaeroides has been determined. In each case the ratio of carotenoid to bacteriochlorophyll present is very nearly 1 : 3 an no specificity with regard to carotenoid type was observed.The fourth derivative of the infra-red absorption bands of the complex was determined and it is concluded that the minimal functional unit of B800–850 complex consists of 1 carotenoid molecule and three bacteriochlorophyll molecules. The data presented here, together with the previous study of Austin, (Austin, L.A. (1976) Ph.D. Thesis, University of California at Berkeley, Lawrence Berkeley Laboratory Report No. LBL 5512) suggest that the 800 nm absorption band represents one of these bacteriochlorophyll molecules while the remaining two bacteriochlorophylls are responsible for the 850 nm band.The absorption spectra and circular dichroism spectra of the complexes suggests that their structure has not been greatly altered during the purification.     

Biochemical and ultrastructural characterization of a high molecular weight soluble Mg2+ -ATPase from human erythrocytes

The isolation and purification of a 600,000 Mr cytosolic Mg2+ -ATPase from human erythrocytes is described. The electrophoretic properties of the native and sodium dodecyl sulphate-dissociated protein are presented and compared with those of the erythrocyte protein cylindrin . The Mg2+-ATPase has a single subunit of Mr 100,000 and it has an isoelectric point of 4.9. From transmission electron microscopy of negatively stained specimens, it is proposed that the Mg2+-ATPase is hexameric, containing two superimposed trimers of the 100,000 Mr subunit, which gives rise to a 13 nm pseudohexagonal particle with a central 3 nm cavity. Varying the orientation of the protein in the negative stain also produces images that are not hexagonal. When orientated on-edge, the protein produces a double-disc image, which is most clearly defined under acidic negative staining conditions with uranyl acetate, when some aggregation of the protein is produced. The ultrastructure of the Mg2+-ATPase is shown to be distinctly different from that of cylindrin . A comparative discussion of the negatively stained transmission electron microscopical images of the Mg2+-ATPase, mitochondrial F1-ATPase and several other oligomeric proteins and enzymes is presented.     

Conditionally lethal mutants of bacteriophage T4 defective in production of a transfer RNA

The two buried carboxyls (Asp-102 and Asp-194) in both chymotrypsin and chymotrypsinogen are ionized at pH values greater than 4.2 and may be ionized even as low as pH 3.This was demonstrated by coupling most of the surface carboxyis of the proteins by a carbodi-imide with glycinamide or semicarbazide to diminish the groups ionizing at low pH and then titrating the proton uptake on denaturation by sodium dodecyl sulphate between pH 3.0 and 4.6. At pH values greater than 4.2 all unblocked carboxyls are ionized. The proton uptake during the conformational change on denaturation was determined by a stopped-flow procedure and found to be about 2H⁺/mol between pH 3.0 and 3.6. The rate constant for the uptake of protons is the same as that for the exposure of tryptophan and lies in the tens of millisecond region.The buried negative charge at the active site appears to be mainly on Asp-102 rather than on His-57, the pK_a of which must be raised by the buried charge. This enhances its efficacy as a base catalyst in the “charge relay system”.The presence of an intact charge relay system in the inactive zymogen illustrates the importance of stereochemical fit between enzyme and substrate. Enzyme catalysis could hardly be mediated by a catalyst which is uniquely reactive in the absence of correct enzyme-substrate orientation as this would be inconsistent with its specificity.     

Exploring structural homology of proteins.

A method for systematically comparing the folding of the three-dimensional structures of proteins has been developed. A search function, plotted in terms of three Eulerian angles, represents the number of sequentially equivalenced amino acids. For each orientation one protein structure is rotated about its center of mass with respect to the other and probabilities are calculated which estimate the degree of structural parallelism. The structurally equivalent residues with highest probabilities are then selected for the best common topology. It was observed that, when structures containing about 150 residues were compared, the random background had a mean value of around 14 residues and the standard deviation was approximately nine residues. The method has been shown to be successful in determining the similarity of the NAD binding domains of lactate dehydrogenase and glyceraldehyde-3-phosphate dehydrogenase, and in comparing the heme binding fold of cytochrome b₅ with the globins.Application of the method to compare hen egg white lysozyme and T4 phage lysozyme led to a single significant peak of 62 residues. The structural homology indicated by this peak showed that the substrate, as bound to hen egg white lysozyme, has a corresponding binding site in the large cleft of the phage lysozyme. The predicted binding site of N-acetyl glucosamine at position C compares well with an N-acetyl glucosamine center observed to bind to crystalline phage lysozyme (B. W. Matthews, personal communication).Some results for the comparison of the two Fe-S cage binding domains of ferredoxin are also presented.     

Membrane ATPase of Bacillus subtilis. I. Purification and properties

The membrane ATPase (EC 3.6.1.3) of Bacillus subtilis can be solubilized by a shock-wash process. Two procedures for purifying the solubilized enzyme are reported. A protease inhibitor, phenylmethane sulfonylfluoride, was introduced in the solubilization and purification step.The resultant ATPase purified by density gradient centrifugation has a molecular weight of 315 000, an s_20,w of 13,4 and an ámino acid composition very similar to bacterial ATPases already studied.After exposure to polyacrylamide gel electrophoresis in presence of sodium dodecyl sulphate (SDS), or 8 M urea or SDS-urea, the purified ATPase can be dissociated in two non-identical subunits of molecular weights 59 000 (α) and 57 000 (β) with different charges.Kinetic studies showed that Ca²⁺ or Zn²⁺ are required for ATPase activity, although Mg²⁺ was uneffective. At optimal Ca²⁺ concentration, the Mg²⁺ has an inhibitory effect. The K_m for ATP is 1.3 mM. Inhibitors of the oxydative phosphorylation, of the mitochondrial ATPase and of the (Na⁺ + K⁺)-ATPase are studied.     

Polypeptide composition of purified QH2:cytochrome c oxidoreductase from beef-heart mitochondria

1. The polypeptide composition of purified QH₂:cytochrome c oxidoreductase prepared by three different methods from beef-heart mitochondria has been determined. Polyacrylamide gel electrophoresis in the presence of dodecyl sulphate resolves eight intrinsic polypeptide bands; when, in addition, 8 M urea is present and a more highly cross-linked gel is used, the smallest polypeptide band is resolved into three different bands.

2. The identity of several polypeptide bands has been established by fractionation. The two heaviest polypeptides (bands 1 and 2) represent the so-called core proteins, band 3 the hemoprotein of cytochrome b, band 4 the hemoprotein of cytochrome c₁, band 5 the Rieske Fe-S protein, band 6 a polypeptide associated with cytochrome c₁ and identified with the so-called oxidation factor, and band 7 a polypeptide associated with cytochrome b.

3. The validity of molecular weight estimates for the polypeptides of the enzyme based on their mobility on dodecyl sulphate gels has been examined. The polypeptides of bands 1, 2 and 3 showed anomalous migration rates. The molecular weights of the other polypeptides have been estimated from their relative mobilities on either dodecyl sulphate gels or 8 M urea-dodecyl sulphate gels as 29 000, 24 000, 12 000, 8000, 6000, 5000 and 4000, respectively.

4. The stoicheiometry of the different polypeptides in the intact complex was determined using separate staining factors for the individual polypeptide bands.     

Incorporation of N-acetylglucosamine from UDP-N-acetylglucosamine into proteins and lipid intermediates in microsomal and golgi membranes from rat liver

Rough and smooth microsomes and Golgi membranes incorporate $\text{N-}\text{acetylglucosamine}$ from $\text{UDP}\text{-N-}\text{acetylglucosamine}$ into endogenous protein acceptors. A lipid intermediate of the dolichol phosphate type participates in this transfer reaction in the case of both microsomal subfractions, but the nature of lipid glycosylation is different in these two fractions. Glucosamine transfer in Golgi membranes does not appear to involve a lipid intermediate. In contrast to the results obtained under in vivo conditions, no glucosamine label is recovered in nascent ribosomal proteins or on luminal secretory proteins after incubation in vitro. Proteolysis of intact vesicles of the subfractions removes glycosylated dolichol phosphate and protein acceptors to various extents and interferes with transferase activities. This finding suggests the possibility that glycosylation at the cytoplasmic side of the membrane of the endoplasmic reticulum may involve a system separate from that acting at the luminal side of the same membrane.     

Retinoids increase the incorporation of D-[3H]galactose into epidermal glycoproteins

All-trans retinoic acid increased the incorporation of D-[³H]galactose into particulate and soluble glycoproteins in the epidermis of cultured pig skin slices nearly two-fold. Increased incorporation of D-[³H]galactose was not blocked by tunicamycin. This effect was specific for D-[³H]galactose since the incorporation of D-[³H]glucosamine and L-[¹⁴C]leucine into epidermal glycoproteins was unaffected by all-trans retinoic acid. All-trans retinoic acid and 13-cis retinoic acid had quantitatively similar effects on D-[³H]galactose incorporation. All-trans retinyl acetate and an aromatic retinoic acid analogue (‘Etretinate’) were less effective. SDS polyacrylamide gel electrophoresis and fluorography showed increased incorporation of D-[³H]galactose into all epidermal glycoproteins in the presence of all-trans retinoic acid. There was no evidence for synthesis of new glycoproteins such as mucins.     

Adenylate cyclase system of human skeletal muscle: Subcellular distribution and general properties

The subcellular localization of adenylate cyclase was examined in human skeletal muscle. Three major subcellular membrane fractions, plasmalemma, sarcoplasmic reticulum and mitochondria, were characterized by membrane-marker biochemical studies, by dodecyl sulfate polycrylamide gel electrophoresis and by electron microscopy. About 60% of the adenylate cyclase of the homogenate was found in the plasmalemmal fraction and 10–14% in the sarcoplasmic reticulum and mitochondria. When the plasmalemmal preparation was subjected to discontinuous sucrose gradients, the distribution of adenylate cyclase in different subfractions closely paralleled that of (Na⁺ + K⁺)-ATPase. The highest specific activity was found in a fraction which setteled at the 0.6–0.8 M sucrose interface. The electron microscopic study of this fraction revealed the presence of flattened sacs of variable sizes and was devoid of mitochondrial and myofibrillar material. The electron microscopy of each fraction supported the biochemical studies with enzyme markers. The three major membrane fractions also contained a low K_m phosphodiesterase activity, the highest specific activity being associated with sarcoplasmic reticulum.The plasmalemmal adenylate cyclase was more sensitive to catecholamine stimulation than that associated with sarcoplasmic reticulum or mitochondria. The catecholamine-sensitive, but not the basal, enzyme was further stimulated by GTP. The plasmalemmal adenylate cyclase had typical Michaelis-Menten kinetics with respect to ATP and the apparent K_m for ATP was approx. 0.3. mM. The pH optimum for that enzyme was 7.5. The enzyme required Mg²⁺, and the concentration to achieve half-maximal stimulation was approx. 3 mM. Higher concentrations of Mg²⁺ (about 10 mM) were inhibitory. Solubilization of the plasmalemmal membrane fraction with Lubrol-PX resulted in preferential extraction of 106 000- and 40 000-dalton protein components. The solubilized adenylate cyclase lost its sensitivity for catecholamine stimulation, and the extent of fluoride stimulation was reduced to one-sixth of that of the intact membranes. It is concluded that the catalytically active and hormone-sensitive adenylate cyclase is predominantly localized in the surface membranes of the cells within skeletal muscle. (That “plasmalemmal” fraction is considered likely to contain, in addition to plasmalemma of muscle cells, plasmalemma of bloodvessel cells (endothelium, and perhaps smooth muscle) which may be responsible for a certain amount of the adenylate cyclase activity and other propertiesobserved in that fraction.)The method of preparation used in this study provides a convenient material for evaluating the catecholamine-adenylate cyclase interactions in human skeletal muscle.     

Spatial organization of histones and DNA in the nucleosome core particle: A model

We present here an attempt to build up a space-filling model of the nucleosome core particle based on the chemical crosslinking data of Mirzabekov and coworkers (23). It is shown that the models proposed earlier are inconsistent with the results of these authors. The main characteristics of our model are as follows: a) the DNA superhelix contains at least 90 base pairs (bp) per turn; b) the particle has a dyad axis of symmetry; c) the histone octamer may be regarded as consisting of two heterotypic tetramers. The possible shape and function of core histones are discussed in the light of the model.     

Assembly pathway of newly synthesized LamB protein an outer membrane protein of Escherichia coli K-12

The assembly of newly induced LamB protein (phage lambda receptor) was investigated in an operon fusion strain of Escherichia coli, in which the lamB gene is expressed under lac promoter control. The induction kinetics both for total cellular and for cell surface-exposed LamB protein were studied by immunochemical detection methods, using two distinct antisera directed against detergent-solubilized LamB trimers and completely denatured LamB monomers, respectively. Anti-trimer antibodies recognized both monomers and trimers, whereas anti-monomer antibodies only reacted with monomers. Provided appropriate solubilization conditions were used, both antisera were able to immunoprecipitate intracellular mature LamB protein quantitatively. Following induction, the first LamB antigenic determinants were detected after 60 to 80 seconds; detection of the newly synthesized protein by anti-monomer antibodies slightly preceded that by anti-trimer antibodies, a finding that could be partly explained by the observation that anti-monomer antibodies recognized a larger fraction of nascent LamB than did anti-trimer antibodies. Exposure of antigenic determinants at the cell surface was delayed for 30 to 50 seconds with respect to their synthesis. Therefore, either translocation or conformational changes must be rate-limiting in the series of processes that eventually convert the newly synthesized protein into its mature outer membrane state. LamB protein was found to occur in at least three clearly distinguishable states. State I is the LamB monomer, state II corresponds to a metastable trimer that dissociates in sodium dodecyl sulphate above 60 degrees C, and state III is the state LamB trimer that dissociates in sodium dodecyl sulphate only at temperatures above 90 degrees C. The chase kinetics of these states showed that conversion of newly synthesized LamB monomers to stable LamB trimers occurred in two stages: state I monomers were chased into metastable state II trimers rapidly (t 1/2 = 20 s), whereas stabilization of state II trimers to state III trimers was a relatively slow (t 1/2 = 5.7 min) process. Based on our results, a timing sequence in the assembly of outer membrane LamB protein is proposed.