Posttranslational covalent modification of proteins

Isoelectric focusing patterns of urinary kallikrein in Dahl salt-hypertension susceptible and resistant rats

Dahl salt-sensitive (S) rats which are susceptible to hypertension have lower urinary kallikrein excretion than salt-resistant (R) rats which are not susceptible. Some physicochemical characteristics of partially purified urinary kallikrein were compared between the S and R strains. The isoelectric focusing pattern of S kallikrein was shifted so that a higher proportion of enzyme was present in isoelectric forms that had higher pI values compared to the pattern for R kallikrein. This strain difference was unique to urinary kallikrein; it was not seen in kallikrein extracted from salivary glands. The isoelectric focusing pattern for R urinary kallikrein could be converted to an S-type pattern by treatment with neuraminidase, which suggests that the differing isoelectric focusing patterns arose from differences in the sialic acid content of the kallikrein. The S kallikrein was slightly more heat-labile than R kallikrein, which was also compatible with the lower sialic acid content of the S enzyme. Tests involving the active site of the enzyme (Km values, pH curves, and heat of activation) were identical for the S and R strains. It was concluded that the structural differences observed in urinary kallikrein between S and R strains were compatible with strain-specific posttranslational processing of the enzyme.

Uukuniemi virus maturation: immunofluorescence microscopy with monoclonal glycoprotein-specific antibodies

Monoclonal antibodies directed against Uukuniemi virus glycoproteins G1 and G2 in combination with polyclonal antibodies against the nucleoprotein (N) were used to study the maturation of the virus in Golgi complexes of infected chicken embryo fibroblasts and BHK cells. Of 25 monoclonal antibodies obtained, 10 were shown to be G1 specific and 15 were shown to be G2 specific by immunoblotting and immunoprecipitation. In double-staining experiments, some of the monoclonal antibodies gave similar distributions of fluorescence as compared with the staining obtained from polyclonal rabbit anti-G1-G2 antibodies. Others, however, preferentially stained either the glycoproteins in the Golgi complex or those at the cell surface. This may indicate that the glycoproteins underwent conformational changes during their transport. Uukuniemi virus infection resulted in the vacuolization of the membranes of Golgi complexes where the maturation of the virus was taking place. Double-staining experiments with monoclonal antibodies which preferentially stained the Golgi-associated viral glycoproteins and with anti-N polyclonal rabbit antiserum showed a correlation between the progressive vacuolization of the Golgi complex and the accumulation of viral nucleoprotein in the Golgi region, suggesting that a morphological alteration of the Golgi complex may be a prerequisite for intracellular maturation of the virus. Treatment of Uukuniemi virus-infected cells with tunicamycin, a drug which inhibits N-linked glycosylation, resulted in the accumulation of both glycoproteins at an intracellular location, apparently representing the endoplasmic reticulum. Double-staining experiments showed a parallel accumulation of nucleoprotein at these sites, indicating that local accumulation of glycoproteins is required for nucleoprotein binding to intracellular membranes.

Protein synthesis in Rift Valley fever virus-infected cells

Rift Valley fever virus-induced protein synthesis was examined by polyacrylamide gel electrophoresis and fluorography. Five virus-induced polypeptides were detected, the nucleocapsid protein N, the nucleus-associated nonstructural protein NS1, the glycoproteins G1 and G2, and a protein of molecular weight 80K. The N, G1, G2, and 80K proteins were present in virion preparations. Sequential studies showed that NS1 accumulated in the nucleus as soon as it was formed and readily associated with nuclei partitioned from noninfected cells. The G1 and G2 proteins labelled with [3H]glucosamine and [3H]mannose. NS1 was shown to be the only virus-induced protein which was phosphorylated.

Quantitative analysis of lysine analogs and derivatives

Methods for the modification of lysine residues in proteins and the analysis of artificially or naturally modified lysine derivatives by quantitative chromatographic procedures are described. The compilation of results should assist structure-function studies and the analysis of new lysine derivatives.

Structure and function of hemoglobin from Urechis caupo

The hemoglobin of the erythrocytes of Urechis caupo is tetrameric. Three chromatographic fractions have been isolated. Fractions F-I (the major fraction) and F-II are each composed of at least five electrophoretic components. Minor fractions F-III has an amino acid composition which is very different from those of fractions F-I and F-II. Amino acid analysis and peptide mapping suggests that fractions F-I and F-II are very similar, and may differ only in a few post-translational modifications. The major fraction, F-I, appears to consist of tetramers in which all subunits are almost identical. Oxygen binding is noncooperative, with a pressure of half-saturation (p50) of 12 mm Hg at 20 degrees C and pH 7.5 in Tris buffers. The oxygen equilibria of undialyzed lysate and of hemoglobin purified by chromatography on Sephadex G-100 are identical. This observation indicates that no allosteric modulator is present. The oxygen equilibrium is not significantly affected by ATP, Cl-, Ca2+, Mg2+, or CO2. The pH dependence of oxygen binding is extremely small: delta Log p50/delta pH is only +0.06 between pH 6 and 7.5. The p50 value changes by no more than 15% between 6.8 microM and 4.3 mM (heme). The apparent enthalpy of oxygenation, delta H, is -11 kcal/mol. Deoxygenation, oxidation, dilution, or pH changes have no significant effect on the state of aggregation. These oxygen-binding properties are consistent with the suggestion that the primary function of the hemoglobin is to store oxygen during the hypoxia which occurs in the burrows of the animal at low tide.

Effect of ethanol on hepatic secretory proteins

Both acute and chronic ethanol administration inhibit the secretion of albumin and glycoproteins from the liver. Impairment of posttranslational steps of the secretory process are mainly involved in this secretory defect, although in some instances altered synthesis of the protein moiety may be a factor. Decreased secretion following ethanol administration results in the intrahepatic retention of export proteins. The secretory defect is a consequence of the metabolism of ethanol and is likely mediated via acetaldehyde, although more conclusive proof is still required. The manner by which acetaldehyde impairs the secretory process is unknown, but may be related to its high reactivity with hepatocellular proteins. The specific posttranslational steps or processes involved in the secretory defect are still unclear; however, it appears that the final steps of secretion (post-Golgi events) may be the primary site of impairment. Impaired secretion of proteins from the liver could contribute to altered levels of plasma proteins and hepatomegaly as well as to the liver injury observed in the alcoholic.

Membership mutation of the genetic code: loss of fitness by tryptophan

Bacillus subtilis strain QB928, a tryptophan-auxotroph, was serially mutated to yield strain HR15. For QB928, tryptophan functioned as a competent amino acid and 4-fluorotryptophan as merely an inferior analogue. For HR15, these roles were reversed. The tryptophan/4-fluorotryptophan growth ratio decreased by a factor of 2 X 10(4) in the transition from QB928 to HR15.

Polypeptide components of human small nuclear ribonucleoproteins

Small nuclear RNA molecules (snRNAs) are associated with polypeptides in vivo, forming small nuclear ribonucleoprotein complexes (snRNPs). These snRNP complexes are targets for certain autoimmune antisera. Antisera of the type anti-Sm precipitate (and therefore define) a class including U1, U2, U4, U5, and U6 snRNAs, whereas antisera of the anti-RNP type precipitate only U1 snRNPs. We used these two types of autoimmune antisera (from patients with systemic lupus erythematosus) to study the polypeptide components in human cells. Sequential immunoprecipitation of the complexes from nuclear extracts with anti-RNP and anti-Sm antibodies, along with radioimmunoassay of protein transfers, identified four polypeptides of 14,000 (P14), 17,000 (P17), 26,000 (P26), and 27,000 (P27) daltons that are present on all members of this class, whereas a 68,000-dalton (P68) polypeptide is present only on U1 snRNPs. Based on the radioimmunoassay, three of these polypeptides, P17, P26, and P27, are also the antigens for anti-Sm antisera, whereas P68 is the antigen for anti-RNP antisera. Long-term phosphate labeling experiments show that the only detectably phosphorylated polypeptide is P68, which contains phosphoserine.

Genetic evidence that the multiple apolipoprotein A-1 isoforms are encoded by a common structural gene

We have used a genetic structural variation of apolipoprotein A-I in mice to examine the origin of the multiple charge isoforms of the plasma protein. Apolipoprotein A-I translated in vitro from hepatic or enteric mRNA revealed that the genetic variation simultaneously alters the charge of the protein produced by both tissues. The variation also shifted the charge of the entire family of isoforms found in plasma or translated in vitro. These results indicate that the protein produced by different tissues as well as the multiple isoforms are all derived from a common structural gene by processing.

Binding of thyroid hormone by heme proteins may signal protein age

Cellular aging is thought to include the accumulation of proteins with post-translational modifications that alter degradation rates or function or both. Protein catabolism has been regarded as a randomly occurring process, but recent observations have suggested mechanisms by which old and young cells may distinguish recently-synthesized protein molecules from "old" proteins. Hemoglobin, myoglobin and other heme proteins bind thyroid hormone progressively with time and in a poorly-dissociable manner. This cumulative acquisition of thyroid hormone is postulated to be an index of molecular aging.

Covalent modifications of chromosomal proteins during aging

Covalent modifications of proteins introduce negative or positive charges into the molecules and thereby cause alterations in the ionic interactions of protein-protein or DNA-protein complexes. Whereas modifications of histones largely affect the organization of chromatin, those of non-histone proteins are believed to be involved in the expression of genes. These modifications during aging have been reviewed here. The available data suggest that the extent of covalent modifications of histones and non-histone chromosomal (NHC) proteins change during aging and such modifications may have an important role in the differential expression of genes at different phases of life span of an organism.

Melanin: the organizing molecule

The hypothesis is advanced that (neuro)melanin (in conjunction with other pigment molecules such as the isopentenoids) functions as the major organizational molecule in living systems. Melanin is depicted as an organizational "trigger" capable of using established properties such as photon-(electron)-phonon conversions, free radical-redox mechanisms, ion exchange mechanisms, and semiconductive switching capabilities to direct energy to strategic molecular systems and sensitive hierarchies of protein enzyme cascades. Melanin is held capable of regulating a wide range of molecular interactions and metabolic processes primarily through its effective control of diverse covalent modifications. To support the hypothesis, established and proposed properties of melanin are reviewed (including the possibility that (neuro)melanin is capable of self-synthesis). Two "melanocentric systems"--key molecular systems in which melanin plays a central if not controlling role--are examined: 1) the melanin-purine-pteridine (covalent modification) system and 2) the APUD (or diffuse neuroendocrine) system. Melanin's role in embryological organization and tissue repair/regeneration via sustained or direct current is considered in addition to its possible control of the major homeostatic regulatory systems--autonomic, neuroendocrine, and immunological.

Association of pp36, a phosphorylated form of the presumed target protein for the src protein of Rous sarcoma virus, with the membrane of chicken cells transformed by Rous sarcoma virus

A cellular protein with a molecular mass of approximately 36 kilodaltons is the presumed target protein of the src protein [the transforming protein encoded by Rous sarcoma virus (RSV)]. The cellular location of the phosphorylated 36-kilo-dalton protein (pp36) in chicken embryo fibroblasts transformed by the Schmidt-Ruppin strain of RSV has been investigated. In these studies, two-dimensional electrophoresis was used for detection of the phosphoproteins in total cell extracts and also in fractionated subcellular components. We conclude that pp36 is localized in the plasma membrane, on the basis of the following observations. (i) Fractionation of 32P-labeled cell extracts showed that pp36 is almost exclusively localized in the crude membrane fraction and no appreciable amount was found in nuclear or cytoplasmic fractions. (ii) On further fractionation of the crude membrane fraction, pp36 was localized mostly in the plasma membrane rather than in other membranous fractions. (iii) Isolated plasma membrane by itself phosphorylated the 36-kilodalton protein on incubation with [gamma-32P]ATP.

Chemical and physical modification of proteins by the hydroxide ion

Proteins are exposed to alkaline conditions during solubilization and/or purification, during food storage and processing, in removal of toxic constituents, and for characterization. During alkali treatment, there are changes in solubility and aggregation, hydrolysis, elimination reactions involving the side chains of certain amino acids, racemization of amino acid residues, addition of compounds to proteins, fragmentation of the peptide chain, as well as modification or elimination of nonprotein constituents. The rates of these reactions are affected by pH, temperature, cations (in some cases), ionic strength (in some cases), protein concentration, and to some extent by the specific nature of the protein. The general mechanisms and stoichiometry of these reactions are described. Other constituents of high protein foods also undergo reactions in alkaline solutions and the products of these reactions may in turn react with proteins. We have described the effect of alkali on enediol formation and fragmentation of carbohydrates, the hydrolysis of lipids in alkaline solution and effect on rate of peroxidation of the polyunsaturated fatty acids, the oxidation of amino acid residues, especially methionine, the oxidation of phenols to benzoquinones, and the catalytic effect of metal ions in alkaline solutions. Alkali treatment is also used in the specific modification of proteins to distinguish between O-glycosyl and amide-linked glycosyl groups, to effect specific cleavage of peptide bonds via beta elimination, in the formation of anhydrotrypsin, anhydrochymotrypsin, anhydrosubtilisin and thiol-subtilisin, and in formation of intrachain crosslinking in proteins.

Identification of the NH2-terminal blocking group of calcineurin B as myristic acid

The NH2-terminal blocking group of the Ca2+-binding B-subunit of calcineurin (protein phosphatase-2B) has been identified as myristic acid by fast atom bombardment mass spectrometry and gas chromatography. The sequence, myristyl-Gly-Asn-Glu-Ala-, is very similar to that of the catalytic subunit of cyclic AMP-dependent protein kinase, the only other protein known to contain this fatty acid. This finding, and the elution of all myristyl peptides at 57% acetonitrile on reverse phase HPLC, may facilitate the identification of other proteins with this blocking group.

n-Tetradecanoyl is the NH2-terminal blocking group of the catalytic subunit of cyclic AMP-dependent protein kinase from bovine cardiac muscle

The unusual NH2-terminal blocking group of the catalytic subunit of bovine cardiac muscle cyclic AMP-dependent protein was found to be amide-linked n-tetradecanoic acid by gas chromatographic-, direct chemical ionization-, and fast atom bombardment-mass spectrometry. In addition, fast atom bombardment mass spectrometry revealed the presence of an additional alanine which had been overlooked when the original sequence was determined. The corrected and completed NH2-terminal sequence of the 350-amino acid catalytic subunit is CH3(CH2)12CONH-Gly-Asn-Ala-Ala-Ala-Ala-Lys.

Light-induced modification of Drosophila retinal polypeptides in vivo

The effect of light on the polypeptide map profile of the Drosophila eye preparation was examined by two-dimensional polyacrylamide gel electrophoresis. The results show (i) that illuminating the living fly reversibly changes the isoelectric points of three classes of polypeptides specific for the photoreceptor layer and (ii) that the norpA mutation, which prevents the generation of the receptor potential, blocks the modifications.

Charge microheterogeneity of the major capsid protein of polyoma virus

The behavior in isoelectric focusing of the major capsid polypeptide VPI of several strains of polyoma virus was studied. Two previously recognized phenomena were reexamined, namely, (i) the separation of the VP1 polypeptide into multiple subspecies differing only slightly from each other in apparent isoelectric point and (ii) strain differences in the overall apparent net charge of the family of VP1 subspecies. It was found that the pattern of subspecies was reproducible when focusing was initiated from either the basic or acidic region of the gel, keeping the ampholyte mixture constant. However, individual subspecies were unstable, and labeled polypeptide could be shifted dramatically by either refocusing of separated subspecies or by altering the concentration of ampholytes. These findings suggest that protein-protein and protein-ampholyte interactions play an important role in the generation of this charge heterogeneity. The basis for the overall charge difference between the VP1 of 3049 virus and several other strains (lpD, lpS, ts59, and A2) was studied, using recombinant viruses constructed of specific sequences derived from 3049 and lpD genomes. The portion of the VP1 polypeptide carrying the altered charge could be mapped to the body of the molecule 3' to the HindIII site at 45.0 map units (3,918 base pairs). This clearly segregates the VP1 charge phenotype from the cyc phenotype of 3049 in which capsid proteins are overproduced and accumulate in the cytoplasm of infected cells.

Oxidized proteins in erythrocytes are rapidly degraded by the adenosine triphosphate-dependent proteolytic system

The rate of protein degradation in rabbit erythrocytes in normally very low. However, when cells were exposed to agents that oxidize cell proteins (nitrite or phenylhydrazine), the degradation of erythrocyte proteins to amino acids increased 7- to 33-fold. This effect was inhibited by the reducing agent methylene blue. Stimulation of proteolysis also occurred in cell extracts and resulted from the production of substrates (damaged proteins) rather than from activation of proteases. Inhibitors of glycolysis and of the soluble adenosine triphosphate-dependent proteolytic pathway decreased the protein degradation induced by nitrite, whereas inhibitors of lysosomal proteolysis had no effect. Thus, the adenosine triphosphate-dependent proteolytic system is present in mature red cells where it may help protect against the accumulation of proteins damaged by oxidation or other means.

The post-natal development of cholecystokinin-like activity in the brain and small intestine of the rat

1. The post-natal development of cholecystokinin (CCK)-like activity was studied in the brain and small intestine of the rat. CCK-like biological activity was measured in extracts of these tissues by an in vitro rabbit gall-bladder bioassay. 2. Immediately after birth, the brain contained very little CCK-like activity whereas the proximal small intestine contained significant concentrations of CCK-like activity. The concentration of CCK-like activity in the brain increased rapidly during the third post-natal week and reached adult values by the end of the fourth week. The development of CCK-like activity in the proximal small intestine differed from that seen in the brain. The concentration of CCK-like activity increased during the first post-natal week. After this time, however, the concentration decreased and the adult values, therefore, were lower than those found immediately after birth. This decrease in concentration resulted from failure of the total content of CCK-like activity to increase despite rapid growth of the intestine. 3. The composition of CCK-like activity in neonatal extracts was determined by gel filtration chromatography with Sephadex G50. Extracts of neonatal brain and intestine contained more than one molecular form of CCK-like activity in contrast to the single peak of activity found in adult extracts. In the developing intestine smaller molecular forms were found in addition to the single larger form found in the adult and in the neonatal brain larger molecular forms were found in addition to the CCK octapeptide found in the adult.

Biochemical genetics of rat esterases: another genetically determined variant, Es-7, is linked to five other esterase loci

A new esterase variant has been isolated by electrophoresis of homogenized testis, heart, and lung tissues. This esterase variant is genetically determined. The carrier strain was crossed with another in which the enzyme was not originally present; the presence of the enzyme was investigated in successive generations and in backcrosses to the carrier strain. Linkage was found with other esterases linkage group V, while there was independent segregation from the immunogenetic markers Ly-1, Ly-2, LH-1 and Rt-la.

An amplified sensitivity arising from covalent modification in biological systems

The transient and steady-state behavior of a reversible covalent modification system is examined. When the modifying enzymes operate outside the region of first-order kinetics, small percentage changes in the concentration of the effector controlling either of the modifying enzymes can give much larger percentage changes in the amount of modified protein. This amplification of the response to a stimulus can provide additional sensitivity in biological control, equivalent to that of allosteric proteins with high Hill coefficients.

Primary structure of the protamine isolated from the sperm nuclei of the dog-fish Scylliorhinus caniculus

A protamine was isolated from mature sperm nuclei of the dog-fish Scylliorhinus caniculus. It contains 31 amino acids per molecule and only five types of residues: arginine (20), glycine (6), serine (3), alanine (1) and tyrosine (1). The primary structure of this protamine is reported. The N-terminal sequence contains the four hydroxylated amino acids of the molecule; the C-terminal region shows a sequence of eleven adjacent residues of arginine and contains all the glycine residues present in the protein. The structure of this 'scylliorhinine' is compared to the amino acid sequence of other sperm protamines whose structure has been previously published. The presence of a modified tyrosine residue in some preparations is discussed in relation to sperm maturation.

Reasons for the occurrence of the twenty coded protein amino acids

Factors involved in the selection of the 20 protein L-alpha-amino acids during chemical evolution and the early stages of Darwinian evolution are discussed. The selection is considered on the basis of the availability in the primitive ocean, function in proteins, the stability of the amino acid and its peptides, stability to racemization, and stability on the transfer RNA. We conclude that aspartic acid, glutamic acid, arginine, lysine, serine and possibly threonine are the best choices for acidic, basic and hydroxy amino acids. The hydrophobic amino acids are reasonable choices, except for the puzzling absences of alpha-amino-n-butyric acid, norvaline and norleucine. The choices of the sulfur and aromatic amino acids seem reasonable, but are not compelling. Asparagine and glutamine are apparently not primitive. If life were to arise on another planet, we would expect that the catalysts would be poly-alpha-amino acids and that about 75% of the amino acids would be the same as on the earth.

Sulfation of gastrin: effect on immunoreactivity

The effect of sulfuric acid esterification of Tyr-12 in gastrin-17 on immunoreactivity was evaluated by the ability of seventeen antisera raised against non-sulfated gastrin-17 to bind sulfated gastrins in extracts of gastrinoma and antral tissue. Using non-sulfated Tyr-12 iodinated gastrin as tracer, and non-sulfated gastrin-17 as standard the antisera showed three different patterns of reactivity: Three antisera (Nos. 2602, 2605 and 4562) bound sulfated gastrins with low (4-23%) potency; four antisera (Nos. 2604, 2720, 4710 and 4713) measured sulfated gastrins with a potency similar to that of non-sulfated gastrins (81-100% crossreactivity); whereas ten antisera (Nos. 2601, 2606, 2609, 2716, 2717, 2718, 4556, 4559, 4560 and 4563) displayed enhanced reactivity with sulfated gastrins (130-373% crossreactivity). Using Gly-2 iodinated gastrin as tracer, the latter type of antisera reacted almost equally with sulfated and non-sulfated gastrins, suggesting that the apparent increase in binding of sulfated gastrins rather is due to increased displacement of Tyr-12 iodinated gastrin. The results show that derivatization of amino acid residues greatly influences antibody binding.

Biochemical genetics of some seed proteins of Pinus radiata

In a high-salt soluble fraction of the total protein from single seeds of Pinus radiata, up to 45 polypeptides were resolved on SDS-polyacrylamide gels. At least one-fifth of these polypeptides showed variation between seeds. In the 27,000--29,000 dalton region, two polypeptides were inherited as codominant alleles at a single locus and were shown to assort independently of another seed protein locus and three allozyme loci. A survey of 120 individuals from the five known native populations of P. radiata in California detected only the 27K and 29K alleles at the locus. In all populations, the 29K allele predominated, and the two island populations were monomorphic for the 29K allele. The 27 and 29 kdalton polypeptides were shown to have very similar amino acid sequences, and the allelic difference at this locus is most probably in the gene sequence for the polypeptide.

GM1 gangliosidosis: enzymatic variation in a single family

Acid beta-galactosidase activity can be separated into multiple molecular forms by isoelectric focusing on cellulose acetate membranes. The residual acid beta-galactosidase in the juvenile form of GM1 gangliosidosis has three bands of enzyme activity with an apparent isoelectric pH (pI) range from 4.9 to 5.2, whereas that in the infantile form has a single band with an apparent pI of 5.2. Separation of residual acid beta-galactosidase into multiple molecular forms by analytical isoelectric focusing demonstrates enzymatic differences that can be correlated with the allelic mutations that affect the GM1 ganglioside beta-galactosidase locus.

Chemistry and biosynthesis of pro-opiomelanocortin. ACTH, MSH's, endorphins and their related peptides

Studies of lipotropins, melanotropins and endorphins on one hand, and of adrenocorticotropin on the other, has given rise to the concept of a multipotent precursor molecule recently renamed proopiomelanocortin. The preferential sites of cleavage of the precursor to produce its biologically active components are made of pairs of basic amino acid residues as described for the biosynthesis of beta-MSH and pro-insulin. Such structural feature is also found in other pro-hormone molecules. Pulse chase experiments and secretory studies carried out in both anterior and intermediate lobes of rat pituitary glands revealed the transformation of different forms of the precursor into different end-products, the anterior lobe producing preferentially ACTH and beta-LPH while the intermediate produces mainly the alpha-MSH and beta-endorphin. The multiple forms of precursors seem to differ in their carbohydrate content although at least two different gene products are still possible. The presence of similar peptides in the hypothalamus makes it highly probable that neuropeptides are biosynthesized with similar process. Thus the model of beta-LPH precursor, proposed as early as in 1967, is now applicable to the biosynthesis of all other neuropeptides. Major advances in this field are expected in the 1980s.

Phosphorylation of caseins, present evidence for an amino acid triplet code posttranslationally recognized by specific kinases

The fifty of so phosphorylated hydroxyamino acid residues hitherto investigated in caseins from different species have been found to occur in tripeptide sequences -Ser/Thr-X-A- where X represents any amino acid residue and A is an acidic residue. This strongly suggests that phosphorylation of caseins involves basically the stepwise enzymatic recognition of primary and secondary anionic amino acid triplets where the determinants are dicarboxylic residues and phosphoseryl residues, respectively. Studies of genetic variants of bovine caseins have provided clear-cut evidence for the actual occurrence of the former recognition sites. The occurrence of the above tripeptide sequences is a necessary but not a sufficient condition for phosphorylation of caseins to occur. Possible factors of constraint such as different intrinsic properties of both phosphate acceptor residues and acidic determinants, the characteristics of the local environment in terms of overall charge and hydrophilicity, secondary structure and steric hindrance, an insufficient available pool of casein kinase(s)... are discussed. All evidence now available supports the concept that phosphorylation of caseins is a posttranslational event and it is suggested that the process may occur during the transfer of completed polypeptide chains from the smooth endoplasmic reticulum to the Golgi apparatus where most of phosphate incorporation is presumably carried out. This organelle is rich in membrane-bound specific cyclic AMP-independent kinase(s) able in vitro to rephosphorylate specifically although not completely phosphatase-treated caseins and caseinophosphopeptides.

Acetaldehyde-dependent changes in hemoglobin and oxygen affinity of human erythrocytes

In the presence of acetaldehyde, metabolizing human erythrocytes accumulate an altered hemoglobin product showing chromatographic similarity to hemoglobin AIa or AIb. The adduct is stable to overnight dialysis with an intracellular half-life of about 5.5 days. Adduct formation is accompanied by proportional changes in cell oxygen affinity (decrease in P50 of 3 mm Hg/mM adduct). Little unaltered hemoglobin remains after overnight incubation in 15 mM acetaldehyde, with significant adduct formation and marked reduction of cell ATP occurring after prolonged incubation in as little as 0.5 mM acetaldehyde.