Chromatographic characteristics and subcellular localization of synthase phosphatase,phosphorylase phosphatase and histone phosphatase in human polymorphonuclear leukocytes

Summary Synthase phosphatase, phosphorylase phosphatase and histone phosphatase activity in a leukocyte homogenate were found to have different sedimentation charcteristics: both synthase phosphatase and phosphorylase phosphatase activity are associated with the microsomal fraction, while the majority of histone phosphatase activity (75–85%) was found in the cytosol. Synthase phosphatase, phosphorylase phosphatase and histone phosphatase activities accompanying the microsomal fraction are readily solubilized by 0.3% Triton X-100.When the solubilized microsomal enzymes were chromatographed on Sephadex G-200, the majority of synthase phosphatase, phosphorylase phosphatase and histone phosphatase activity migrated in single peaks corresponding to apparent molecular weights of 380 000, 250 000 and 68 000, respectively. A minor peak of 30 000, which had phosphatase activity against all three substrates was also obtained.Ethanol treatment resulted in solubilization and dissociation of the three phosphatase activities. It was found that although ethanol treatment resulted in a 4-fold increase of phosphorylase phosphatase activity, histone phosphatase activity was decreased (by 60%), while synthase phosphatase activity remained stable. Similar results were obtained when ethanol treatment was performed on the 17 000 × g supernatant.Chromatography of the ethanol-treated microsomes (or homogenate) on Sephadex G-200 showed that the phosphatase activity towards synthase D, phosphorylase a and phosphohistone coincided a M_r 30 000 species. Heat treatment of the M_r 30 000 peak resulted in dissociation of synthase phosphatase and phosphorylase phosphatase activity.Synthase phosphatase was inhibited by phosphorylase a in a kinetically non-competitive manner while histone phosphatase activity was notinhibited by synthase D (8.5 unit/ ml) orby phosphorylase a(12 unit/ ml).     

The purification and partial amino acid sequence of a polypeptide from the glutelin fraction of rice grains; homology to pea legumin

The glutelin fraction was extracted from grain meals of rice (Oryzea sativa) with 50 mM Tris-HCl buffer (pH 8.8) containing 6 M urea and 10 mM 2-mercaptoethanol. Polypeptides of glutelin were separated and purified by ion-exchange chromatography under denaturing conditions. Analysis by two-dimensional gel electrophoresis showed that 2 major polypeptides of the rice glutelin fraction, M_r 36 000 and 22 000, were linked in disulphide bonded pairs containing one M_r 36 000 and one M_r 22 000 subunit. A partial amino acid sequence of the purified M_r 22 000 glutelin subunit showed it to be homologous to the β-subunit of pea legumin, a storage protein which also contains disulphide-linked subunit pairs (M_r 38 000 and M_r 22 000). It is therefore proposed that the major component of rice glutelin is a legumin-like protein.     

Alterations in amounts and covalent modifications of low-molecular-weight chromosomal proteins in Chinese hamster ovary cells during polyamine depletion

The effect of polyamine depletion on phosphorylation and ADP-ribosylation of low-M_r chromosomal proteins was studied in intact, mutant Chinese hamster ovary cells (CHO-P22) devoid of ornithine decarboxylase activity. When starved of polyamines for 6 days, severe polyamine deficiency develops and the cells gradually stop growing. The rate of DNA synthesis was retarded to 16% of the control value and to 29% in density-inhibited cells. The synthesis of high-mobility-group (HMG) proteins was decreased by 65% in polyamine-depleted cells and by 40% in density-inhibited cells. The synthesis of core histones was decreased by 40% both in polyamine-depleted and density-inhibited cells. In polyamine-depleted cells the molar ratio of the higher-M_r HMG proteins (HMG 1 + 2) to the lower-M_r HMG proteins (HMG 14 + P) was about one-half of that found in cells grown in the presence of putrescine or in density-inhibited cells. In contrast to HMG proteins, no major differences were found in the content of core histones in these cell populations. In the perchloric acid-soluble fraction of nuclear proteins, ³²P was incorporated mainly into histone H1, HMG P and a protein migrating more slowly than HMG 1 (protein P1). Specific changes in the ³²P-labeling and migration of a number of protein bands, including histone H1, was observed in polyamine-depleted cells as compared to cells grown in the presence of putrescine or to density-inhibited cells. ADP-ribosylation experiments using [³H]adenosine showed a different pattern of label distribution; the higher-M_r HMG proteins from polyamine-depleted cells contained about one-half the amount of label found in the proteins from control cells. The lower-M_r HMG proteins and histone H1 were the preferentially labeled proteins in polyamine-depleted cells. Labeling of core histones with [³²P]orthophosphate or [³H]adenosine did not differ markedly in the two cell populations. The results obtained using intact polyamine auxotrophic cells indicated that polyamine depletion is connected with more severe alterations in amounts and covalent modifications (phosphorylation and ADP-ribosylation) of HMG chromosomal proteins and histone H1 than core histones.     

High tyrosine-specific protein kinase activity in normal human peripheral blood lymphocytes

Tyrosine-specific protein kinase (ATP: protein phosphotransferase, EC 2.7.1.37) activity was measured in normal human nonadherent peripheral blood lymphocytes using synthetic peptide substrates having sequence homologies with either pp60^src or c-myc. A high level of tyrosine-specific protein kinase activity was found associated with the cell particulate fraction (100 000 × g pellet). High-pressure liquid chromatography and phosphoamino acid analysis of the synthetic peptide substrates substantiated the phosphorylation of tyrosine residues by the particulate fraction enzyme. The human enzyme was also capable of phosphorylating a synthetic random polymer of 80% glutamic acid and 20% tyrosine. Enzyme activity was half-maximal with 22 μM Mg·ATP and had apparent K_m values for the synthetic peptides from 1.9 to 7.1 mM. The enzyme preferred Mg²⁺ to Mn²⁺ for optimal activity and was stimulated 2–5-fold by low levels (0.05%) of some ionic as well as non-ionic detergents including deoxycholate, Nonidet P-40 and Triton X-100. The enzyme activity was not stimulated by N⁶;O^2′-dibutyryl cyclic AMP (100 μM), N⁶;O^2′-dibutyryl cyclic GMP (100 μM), Ca²⁺ (200 μM), insulin (1 μg/ml) or homogeneous human T-cell growth factor (3 μg/ml) under the conditions used. Alkaline-resistant phosphorylation of particulate proteins in vitro revealed protein bands with M_r 59 000 and 54 000 suggesting that there are endogenous substrates for the human lymphocyte tyrosine protein kinase.     

A carbene-generating photoaffinity probe for beta-adrenergic receptors

A new radioiodinated (2.2 Ci/μmol) iodocyanopindolol derivative carrying a 4-(3-trifluoromethyldiazirino)benzoyl residue has been synthesized. The long-wavelength absorption of the diazirine permits formation of the carbene by photolysis under very mild conditions. [¹²⁵I]ICYP-diazirine binds with high affinity (K_d = 60 pM) to β-receptors from turkey erythrocyte membranes. Upon irradiation, [¹²⁵I]ICYP-diazirine is covalently incorporated in a M_r 40 000 protein. Stereoselective inhibition of photolabeling by the (?)enantiomers of alprenolol and isoproterenol indicated that the M_r 40 000 protein contains a β-adrenergic binding site. The yield of specific labeling was up to 8.2% of total β-receptor binding sites. The M_r 40 000 protein photolabeled in the membrane could be solubilized at comparable yield with either digitonin or Triton X-100. Irradiation of digitonin-solubilized turkey erythrocyte membranes with [¹²⁵I]ICYP-diazirine resulted in specific labeling of two proteins with M_r 40 000 and 50 000. In guinea-pig lung membranes, at least five proteins were photolabeled, of which one (with approximate M_r 67 000) was labeled specifically.     

Isolation and characterization of the outer membrane of Acinetobacter calcoaceticus

A method for the separation of the outer membrane (OM) from the cytoplasmic membrane (CM) of Acinetobacter calcoaceticus 69/V grown on different carbon sources is described. The contamination of the OM with CM was less than 10%. Independent of the carbon source, five protein bands with apparent molecular weights of 47 000, 33000, 21 000, 19 000 and 12 000 were found by solubilization at 37°C and six bands at 100°C (apparent M_r 53 000, 47 000, 38 000, 26 000, 21000, 12000). Three proteins were modifiable by heat. With the periodic acid-Schiff procedure the bands with apparent M_r of 33 000 and 12 000 were made visible. After growth on d,l-carnitine an additional two non-heat-modifiable protein bands with apparent M_r between 40 000 and 45 000 were detected. By cultivation on acetate and peptone as carbon source one additional band (M_r 15 000) from OM of cells could be found.     

Effect of estrogen-treated porcine ampulla oviductal epithelial cells on early embryonic development in vitro and characterization of their protein synthetic activity

Recent studies by Buhi et al. have demonstrated that estrogen (E₂) is responsible for the induction of de novo synthesis and secretion of certain oviductal secretory proteins (OSP) and inhibition of other OSP in porcine oviductal explant cultures. The present work was undertaken to evaluate the effect of E₂-treated oviductal epithelial cell coculture on the development of early porcine embryos derived from in vitro matured and fertilized oocytes. In vitro synthesis of secretory proteins by E₂-treated oviductal cells used for coculture was also investigated by one-dimensional (1D) and two-dimensional (2D) sodium dodecyl sulfate (SDS) polyacrylamide gel electrophoresis (PAGE). The results showed that the cleavage rate was significantly enhanced by coculturing fertilized eggs with E₂-treated oviductal epithelial cells. The in vitro protein synthetic pattern of oviductal secretory proteins was influenced by E₂ treatment. These variations included the disappearance of one protein (82 000 M_r) and the appearance of another (33 000 M_r) in the E₂-treated group as assessed by 1D-SDS-PAGE. Additional proteins of M_r 97 000 and an M_r 36 000–45 000 complex were increased in abundance by the E₂ treatment. Analyses by 2D-SDS-PAGE revealed three major E₂-dependent proteins, of M_r 45 000 (pI 5.5), 43 000 (pI 5.5) and a 36 000–45 000 M_r (pI 4.8) protein complex, whereas polypeptides of M_r 97 000 (pI 5.1), 36 000 (pI 8.0) and 25 000 (pI 6.8) were inhibited by E₂ treatment. The results demonstrated that porcine epithelial cell protein synthetic patterns are influenced by E₂ treatment and that estradiol treatment of oviductal cells may increase the rate of zygote cleavage during early development in vitro in pigs.     

Purification and characterization of the messenger ribonucleoprotein-associated casein kinase II of Artemia salina cryptobiotic gastrulae

The mRNP-associated protein kinase is purified to near homogeneity by ion-exchange chromatography on phosphocellulose and affinity chromatography on casein-Sepharose 4B and ATP-agarose. The cyclic nucleotide-independent enzyme phosphorylates casein using either ATP or GTP. The enzyme exists in two forms composed of subunits with M_r 36 500 (α) and 28 000 (β) and of subunits with M_r 36 500 (α), 33 000 (α′) and 28 000 (β). The undegraded enzyme has an M_r of 136 000 ± 7000. The enzyme is inhibited by heparin and hemin and stimulated by spermine. The mRNP-associated protein kinase may be classified as a casein kinase II. Main mRNP protein phosphate acceptors have M_r values of 112 000, 72 000, 65 000, 53 000, 38 000, 28 000, 23 500 and 21 000. Phosphorylation of the M_r 38 000 poly(A)-binding protein resulted in the generation of different acidic ionic species. From the observed inhibition of the translational activity after phosphorylation by the mRNP-associated protein kinase a function in the repression of mRNP is proposed.     

Identification and characterization of an immunologically conserved adenovirus early region 11,000 Mr protein and its association with the nuclear matrix

Antisera from some hamsters bearing adenovirus-induced tumors contain antibodies to an 11,000 M_r adenovirus-induced protein. In adenovirus-infected HeLa cells, this early viral protein was specifically associated with the nuclear matrix fraction. After two-dimensional gel electrophoresis, two forms of the 11,000 M_r protein at pI 5.6 and pI 5.4 were found. Only the pI 5.4 form of this protein was associated with the nuclear matrix fraction. Adenoviruses from groups A, B, C, D and E all produced an early viral protein (10,000 to 12,000 M_r) that reacted with group C antibody to the 11,000 M_r protein. To date, this is the only known early viral protein that is immunologically conserved in all of the human adenovirus groups.The positions of two methionine and seven leucine residues were determined by sequencing the first 35 amino acids from the N terminus of the adenovirus serotype 2 group C 11,000 M_r protein. The positions of these amino acid residues were compared to the adenovirus serotype 2 nucleotide sequence, which uniquely localized the structural gene of the 11,000 M_r protein to region E4, subregion 3 in type 2 adenovirus. A frameshift mutant, which contained a deletion of one base-pair in the structural gene of the 11,000 M_r protein, was isolated and mapped by marker rescue and nucleotide sequence analysis. This mutant failed to produce immunologically detectable 11,000 M_r protein. The mutant had a viable phenotype, producing normal levels of infectious virus in both HeLa cells and WI38 cells in culture. These experiments identify the first adenovirus early region 4 protein detected in virus-infected cells.     

Phosphorylation of the α-subunit of (Na+ + K+)-ATPase by carbachol in tissue slices and the role of phosphoproteins in stimulus-secretion coupling

This study examined the changes in protein phosphorylation in response to cholinergic (muscarinic) stimulation of salivary secretion in the rat submandibular gland. Carbachol stimulation was associated with phosphorylation in a number of protein bands as detected by sodium dodecyl sulfate (SDS) polyacrylamide gel electrophoresis and autoradiography. The molecular masses (M_r) of two proteins, in which the amount of phosphorylation more than doubled in response to carbachol, were 22 000 and 96 000. The M_r 96 000 protein precipitated at 120 000 × g while most of the M_r 22 000 protein remained in the supernatant at this speed. The effect of carbachol on the phosphorylation of the M_r 22 000 and 96 000 proteins was blocked by atropine, indicating that the cholinergic receptor involved is muscarinic. The time course of phosphorylation of the M_r 22 000 protein consisted of a rapid incrase in phosphorylation within the first min of carbachol stimulation. This increased phosphorylation persisted for less than 1 min. The increased phosphoryaltion of the M_r 96 000 protein also occurred within the first min but it persisted for at least 10 min. However, removal of the muscarinic agonist, carbachol, resulted in the rapid dephosphorylation of this protein. When the plasma membranes were purified, the M_r 96 000 protein was phosphorylated by ATP in the presence of Na⁺ and Mg²⁺. It was dephosphorylated by K⁺. This proves that the M_r 96 000 dalton protein is the α-subunit of the (Na⁺ + K⁺)-ATPase.     

Specific non-histone protein fractions associated with ‘active’ chromatin in immunized rats

Summary Non-histone proteins of normal, non-immunized rats and rats immunized with mouse spleen cells were labelled with three different amino acids: [³H]tryptophan, [³H]methionine and [³H]leucine. Chromatin was fractionated at increasing salt concentrations into three fractions: 0.35 M NaCl-soluble, 2 M NaCl-soluble and residual. Non-histone protein fractions F (M_r 12 000) and H (M_r 3 000) highly labelled with [³H]tryptophan, lower with [³H]methionine but not with [³H]leucine, were present mainly in the residual fraction. After DNAse II treatment non-histone protein fractions F and H disappeared in chromatin fractions and were present in Mg^2– soluble fractions which suggests that, similar to the fractions I (M_r below 3 000) and B (M_r 120 000) described previously (5), these fractions may be associated with active transcribed genes.     

Protein kinases in brown adipose tissue of developing rats II. Two soluble kinase activities and their affinities for nucleotide and protein substrates

A heat-stable, soluble component of brown adipose tissue from newborn rats was found to be readily phosphorylated by protein kinase of the same subcellular fraction. The concentration of this component in brown fat decreased with the age of the animals. A boiled crude microsomal preparation from rat liver was also phosphorylated by brown fat protein kinase. The GTP-linked phosphorylation of the endogenous heat-stable protein was not stimulated by ATP (in contrast to phosphorylation of histone). The maximum velocity of phosphorylation achieved with GTP was about 2.5 times higher than that with ATP as nucleotide substrate. This difference was not due to ATPase activity in the assay. With histone as the protein acceptor both activities were the same. The affinity of protein kinase(s) for ATP was lower with the endogenous heat-stable brown-fat protein and with boiled microsomes (K_m of 0.21 mM and 0.17 mM, respectively) than with histone (K_m of 0.05 M). No detecable ATPase activity was present in either acceptor protein. It is concluded that the 100 000 × g supernatant fraction from brown fat of infant rats contains two protein kinase activities. One preferentially uses ATP and histone as substrates and the other uses endogenous heat-stable soluble proteins and either ATP or GTP.     

Identification and Purification of a Derepressible Alkaline Phosphatase from Anacystis nidulans R2

We have examined the increase in alkaline phosphatase activity in the cyanobacterium Anacystis nidulans R2 upon phosphate deprivation. Much of the activity is released into the medium when A. nidulans is osmotically shocked, indicating that the enzyme is located either in the periplasmic space or is loosely bound to the cell wall. The polypeptide associated with phosphatase activity has been identified as a single species of M_r 160,000. Several lines of evidence demonstrate that this polypeptide is responsible for alkaline phosphatase activity: (a) It is absent when cells are grown in the presence of phosphate and specifically accumulates during phosphate deprivation. (b) It is the major periplasmic polypeptide extracted by osmotic shock. (c) It represents over 90% of the protein in a fraction of periplasmic polypeptides enriched for phosphatase activity. (d) Antibodies raised against the purified species of M_r 160,000 inhibit phosphatase activity by approximately 70%.     

The separation and properties of two phosphoprotein phosphatases from the dimorphic fungus Mucor rouxii

Soluble preparations from mycelium of the dimorphic fungus Mucor rouxii contained detectable amounts of phosphoprotein phosphatase activity. This cytosolic phosphatase activity exhibited a molecular weight below 80,000 and could be resolved into two different forms (enzymes I and II) by chromatography on DEAE-cellulose followed by gel filtration on Sephacryl S-300. Enzyme I (M_r 64,000) was mainly a histone phosphatase activity, absolutely dependent on divalent cations, with a K_0.5 for MnCl₂ of 2 mm. Enzyme II (M_r 40,000) was active with histone and phosphorylase. Its activity was independent or slightly inhibited by Mn²⁺. This enzyme was strongly inhibited by 50 mm NaF or 1 mm ATP. When partially purified enzymes I and II were separately treated with ethanol, the catalytic properties of enzyme II were apparently not affected while those of enzyme I were drastically changed. The activity with histone, which was originally dependent on Mn²⁺, became independent or slightly inhibited by the cation. The treatment was accompanied by a notable increase in phosphorylase phosphatase activity which was strongly inhibited by Mn²⁺. Treated enzyme I eluted from DEAE-cellulose and Sephacryl S-300 columns at a position similar to that of enzyme II.     

Identification of casein kinase 1, casein kinase 2, and cAMP-dependent protein kinase-like activities in Trypanosoma evansi

Trypanosoma evansi contains protein kinases capable of phosphorylating endogenous substrates with apparent molecular masses in the range between 20 and 205 kDa. The major phosphopolypeptide band, pp55, was predominantly localized in the particulate fraction. Anti-alpha and anti-beta tubulin monoclonal antibodies recognized pp55 by Western blot analyses, suggesting that this band corresponds to phosphorylated tubulin. Inhibition experiments in the presence of emodin, heparin, and 2,3-bisphosphoglycerate indicated that the parasite tubulin kinase was a casein kinase 2 (CK2)-like activity. GTP, which can be utilized instead of ATP by CK2, stimulated rather than inactivated the phosphorylation of tubulin in the parasite homogenate and particulate fraction. However, GTP inhibited the cytosolic CK2 responsible for phosphorylating soluble tubulin and other soluble substrates. Casein and two selective peptide substrates, P1 (RRKDLHDDEEDEAMSITA) for casein kinase (CK1) and P2 (RRRADDSDDDDD) for CK2, were recognized as substrates in T. evansi. While the enzymes present in the soluble fraction predominantly phosphorylated P1, P2 was preferentially labeled in the particulate fractions. These results demonstrated the existence of CK1-like and CK2-like activities primarily located in the parasite cytosolic and membranous fractions, respectively. Histone II-A and kemptide (LRRASVA) also behaved as suitable substrates, implying the existence of other Ser/Thr kinases in T. evansi. Cyclic AMP only increased the phosphorylation of histone II-A and kemptide in the cytosol, demonstrating the existence of soluble cAMP-dependent protein kinase-like activities in T. evansi. However, no endogenous substrates for this enzyme were identified in this fraction. Further evidences were obtained by using PKI (6-22), a reported inhibitor of the catalytic subunit of mammalian cAMP-dependent protein kinases, which specifically hindered the cAMP-dependent phosphorylation of histone II-A and kemptide in the parasite soluble fraction. Since the sum of the values obtained in the parasite cytosolic and particulate fractions were always higher than the values observed in the total T. evansi lysate, the kinase activities examined here appeared to be inhibited in the original extract.     

Subcellular localization of enterokinase (Enteropeptidase EC 3.4.21.9) in rat small intestine

The subcellular localization of enterokinase is controversial. In this study, enterokinase was extracted from a soluble fraction and a brush border fraction of rat small intestine by differential centrifugation. The soluble fraction contained 41% of the initial enterokinase activity while the brush border fraction contained only 4.6% of the initial activity. In contrast, alkaline phosphatase monitored as a brush border marker, yielded 26.3 in the brush border fraction and only 6% in the soluble fraction. Further separation of the soluble fraction on a Sepharose 4B column revealed three peaks of enterokinase activity. One small peak (3%) of a bound enzyme (M_r, 2·10^?6) and two larger peaks of free enzyme (M_r, 3·10⁵ and 9·10⁵). In contrast, alkaline phosphatase major fraction was in a high molecular weight peak of bound enzyme. When the brush border fraction was chromatographed only a single peak of bound enterokinase and alkaline phosphatase were found. In the lower part of the small intestine, no brush border-bound enterokinase was found, while the peak of alkaline phosphatase was the same as in the upper intestine. These data suggest that enterokinase activity in the rat intestine is mainly in a free form localized in the mucin and soluble fraction and to a negligible extent in the brush border.     

Possible Involvement of Phosphorylation of Occludin in Tight Junction Formation

Occludin is an integral membrane protein localizing at tight junctions in epithelial and endothelial cells. Occludin from confluent culture MDCK I cells resolved as several (>10) bands between 62 and 82 kD in SDS-PAGE, of which two or three bands of the lowest M_r were predominant. Among these bands, the lower predominant bands were essentially extracted with 1% NP-40, whereas the other higher M_r bands were selectively recovered in the NP-40–insoluble fraction. Alkaline phosphatase treatment converged these bands of occludin both in NP-40–soluble and -insoluble fractions into the lowest M_r band, and phosphoamino acid analyses identified phosphoserine (and phosphothreonine weakly) in the higher M_r bands of occludin. These findings indicated that phosphorylation causes an upward shift of occludin bands and that highly phosphorylated occludin resists NP-40 extraction. When cells were grown in low Ca medium, almost all occludin was NP-40 soluble. Switching from low to normal Ca medium increased the amount of NP-40–insoluble occludin within 10 min, followed by gradual upward shift of bands. This insolubilization and the band shift correlated temporally with tight junction formation detected by immunofluorescence microscopy. Furthermore, we found that the anti–chicken occludin mAb, Oc-3, did not recognize the predominant lower M_r bands of occludin (non- or less phosphorylated form) but was specific to the higher M_r bands (phosphorylated form) on immunoblotting. Immunofluorescence microscopy revealed that this mAb mainly stained the tight junction proper of intestinal epithelial cells, whereas other anti-occludin mAbs, which can recognize the predominant lower M_r bands, labeled their basolateral membranes (and the cytoplasm) as well as tight junctions. Therefore, we conclude that non- or less phosphorylated occludin is distributed on the basolateral membranes and that highly phosphorylated occludin is selectively concentrated at tight juctions as the NP-40–insoluble form. These findings suggest that the phosphorylation of occludin is a key step in tight junction assembly.     

Co-purification of type I alkaline phosphatase and type I phosphoprotein phosphatase from various animal tissues

A purification procedure, which included ethanol treatment as a step for dissociating the large molecular forms of type I phosphoprotein phosphatase, was employed for the studies of the alkaline phosphatase and phosphoprotein phosphatase activities in bovine brain, heart, spleen, kidney, and uterus, rabbit skeletal muscle and liver, and lobster tail muscle. The results indicate that the major phosphoprotein phosphatase (phosphorylase a as a substrate) and alkaline phosphatase (p-nitrophenyl phosphate as a substrate; Mg²⁺ and dithiothreitol as activators) activities in the extracts of all tissues studied were copurified as an entity of M_r = 35,000. The purified enzymes from different tissues exhibit similar physical and catalytic properties with respect to either the phosphoprotein phosphatase or the alkaline phosphatase activity. The present findings indicate that (a) the M_r = 35,000 species, which represents a catalytic entity of the large molecular forms of type I phosphoprotein phosphatase, is widespread in animal tissues, indicating that it is a multifunctional phosphatase; (b) the association of type I alkaline phosphatase activity with type I phosphoprotein phosphatase is a general phenomenon.     

Pancreatic B-cells secrete a range of novel peptides besides insulin

Insulin secretion by a transplantable rat islet B-cell tumour is accompanied by the release of two putative proinsulin cleavage intermediates, four peptides of M_r 9000–12 000 (excluding proinsulin) and peptides of M_r 21 000, 34 000 and 60 000. Granule-enriched subcellular preparations contain major peptides of identical M_r values. Of these peptides seven at least coincide in molecular weight with peptides secreted by isolated rat islets and thus may be constituents of the normal insulin secretory granule.     

In Vitro Processing of Precursors of Thylakoid Membrane Proteins of Chlamydomonas reinhardtii y-1

Studies of in vitro processing of precursors of the major chlorophyll a/b-binding polypeptides of Chlamydomonas reinhardtii y-1 were undertaken to define the precursor-product relationships. Analysis of translates, prepared from C. reinhardtii poly(A)-rich RNA in a rabbit reticulocyte lysate system, which were incubated with the soluble fraction from C. reinhardtii cells, showed that the 31,500 relative molecular mass (M_r) precursor was converted to the M_r 29,500 thylakoid membrane polypeptide whereas the M_r 30,000 precursor was converted to the M_r 26,000 product. Furthermore, the M_r 31,500 polypeptide, when bound to antibodies, was not processed to the mature polypeptide of M_r 29,500, although the presence of antibodies did not prevent the precursor of M_r 30,000 from being converted to the mature M_r 26,000 polypeptide. The mature fraction of M_r 26,000, was separated into two bands corresponding to polypeptides 16 and 17 in the electrophoretic system of Chua and Bennoun (1975 Proc Natl Acad Sci USA 72: 2175-2179).

Processing activity was present in the soluble fraction obtained from cells grown in the light or in the dark. Therefore, processing of the precursor polypeptides does not appear to be involved in the regulation by light of the accumulation of these polypeptides in thylakoid membranes.