EC:3.4.21.4 - FACTA Search

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Query: EC:3.4.21.4 (trypsin)
42,187 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The epitope of the monoclonal antibody 20D6 was localized by N-terminal sequencing of the smallest immunoreactive peptides obtained after CNBr and trypsin cleavage of the F1 alpha subunit of the mitochondrial ATPase/ATP synthase. Immunochemical analysis of overlapping synthetic octapeptides, covering the immunoreactive peptide sequence, has defined the seven-amino-acid sequence recognized by 20D6 as 84EGDIVKR90. The binding of 20D6 was lost after substituting either I87 by K or S, or R90 by C or A as it occurs in the alpha subunit sequence of Escherichia coli or chloroplast ATPase, respectively. This explained the lack of immunoreactivity of 20D6 to these species and indicated the importance of charged as well as hydrophobic residues in the epitope. Immunochemical analysis of synthetic peptides by polyclonal anti-F1 antisera showed that this region is highly immunodominant. In a competitive ELISA, the monoclonal antibody bound with similar affinity to F1 in the presence and absence of substrate as well as to cold dissociated F1, indicating that the epitope was located on the surface of the alpha subunit and not buried between F1 subunits. The lack of binding of 20D6 when F1 is bound to the membrane showed that the epitope exposed at the surface of purified soluble F1 became masked after binding to the membrane. This suggests that it is located at the interface between F1 and the membrane.
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PMID:Localization on the mitochondrial F1 ATPase alpha subunit of an epitope masked in the membrane-bound enzyme using a monoclonal antibody and synthetic peptides. 171 90

The rate of trypsin cleavage of the epsilon subunit of Escherichia coli F1 (ECF1) has been found to be ligand-dependent, as measured indirectly by the activation of the enzyme that occurs on protease digestion, or when followed directly by monitoring the cleavage of this subunit using monoclonal antibodies. The cleavage of the epsilon subunit was fast in the presence of ADP alone, ADP + MG2+, ATP + EDTA, or AMP-PNP, but slow when Pi was added along with ADP + Mg2+ or when ATP + Mg2+ was added to generate ADP + Pi (+Mg2+) in the catalytic site(s). The half-maximal concentration of Pi required in the presence of ADP + Mg2+ to protect the epsilon subunit from cleavage by trypsin was 50 microM, which is in the range measured for the high-affinity binding of Pi to F1. The ligand-dependent conformational changes in the epsilon subunit were also examined in cross-linking experiments using the water-soluble carbodiimide 1-ethyl-3-[3-(dimethylamino)propyl]carbodiimide (EDC). In the presence of ATP + Mg2+ or ADP + Mg2+ + Pi, the epsilon subunit cross-linked to beta in high yield. With ATP + EDTA or ADP + Mg2+ (no Pi), the yield of the beta-epsilon cross-linked product was much reduced. We conclude that the epsilon subunit undergoes a conformational change dependent on the presence of Pi. It has been found previously that binding of the epsilon subunit to ECF1 inhibits ATPase activity by decreasing the off rate of Pi [Dunn, S. D., Zadorozny, V. D., Tozer, R. G., & Orr, L. E. (1987) Biochemistry 26, 4488-4493]. This reciprocal relationship between Pi binding and epsilon-subunit conformation has important implications for energy transduction by the E. coli ATP synthase.
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PMID:Catalytic site nucleotide and inorganic phosphate dependence of the conformation of the epsilon subunit in Escherichia coli adenosinetriphosphatase. 182 19

An inhibitor of Crithidia fasciculata and Trypanosoma cruzi H+ -ATP synthase (ATPase) was isolated from these organims mitochondrial particles, either by (a) ammonium sulfate-cholate extraction followed by heat treatment and ethanol precipitation, or (b) gel-filtration on Sephadex G-50, followed by a similar purification procedure. Inactivation by trypsin supported the inhibitor peptide structure. Removal of the peptide inhibitor increased about three-fold the specific activity of the protozoan ATPases. The isolated peptides and a highly purified bovine heart ATPase inhibitor inhibited C. fasciculata ATPase as a function of the peptide concentration.
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PMID:Isolation of the peptide inhibitor of H+-ATP synthase from Crithidia fasciculata and Trypanosoma cruzi. 252 3

The membrane F0 sector of mitochondrial ATP synthase complex was rapidly isolated by direct extraction with CHAPS from F1-depleted submitochondrial particles. The preparation thus obtained is stable and can be reconstituted in artificial phospholipid membranes to result in oligomycin-sensitive proton conduction, or recombined with purified F1 to give the oligomycin-sensitive F0F1-ATPase complex. The F0 preparation and constituent polypeptides were characterized by SDS-polyacrylamide gel electrophoresis and immunoblot analysis. The functional role of F0 polypeptides was examined by means of trypsin digestion and reconstitution studies. It is shown that, in addition to the 8 kDa DCCD-binding protein, the nuclear encoded protein [(1987) J. Mol. Biol. 197, 89-100], characterized as an intrinsic component of F0 (F0I, PVP protein [(1988) FEBS Lett. 237,9-14]) [corrected] is involved in H+ translocation and the sensitivity of this process to the F0 inhibitors, DCCD and oligomycin.
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PMID:Mitochondrial F0F1 H+-ATP synthase. Characterization of F0 components involved in H+ translocation. 254 59

F1-stripped everted membrane vesicles of the ATP synthase-overproducing Escherichia coli strain KY 7485 were treated with trypsin for different lengths of time. Subsequently, the Fo complex was isolated and analyzed by sodium dodecyl sulfate-gel electrophoresis, as well as immunoblotting using antibodies raised against subunit b. By these techniques 3 degradation products with apparent molecular masses of about 16 kDa could be detected in accordance with previous findings (Perlin, D.S., and Senior, A.E. (1985) Arch. Biochem. Biophys. 236, 603-611). Labeling of isolated trypsin-treated Fo fractions with the thiol-specific reagent N-(7-dimethylamino-4-methylcoumarinyl)-maleimide, which has been demonstrated recently to specifically modify subunit b (Schneider, E., and Altendorf, K. (1985) Eur. J. Biochem. 153, 105-109) revealed that the 16-kDa digestion products were degraded into two stable fragments of 12 and 8.3 kDa. These polypeptides do not react with the anti-b antibodies. Treatment of purified liposome-integrated Fo with trypsin resulted in a similar cleavage pattern. In both cases protease digestion inhibited F1 binding while proton-translocating activity remained unaffected. However, liposomes reconstituted with Fo isolated from trypsin-treated membranes were impaired in both binding of F1 and proton translocation. These activities could be restored when reconstitution was carried out in the presence of native subunit b. From this we conclude that the C-terminal region of subunit b is necessary for proper reconstitution of Fo into liposomes.
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PMID:Fo portion of Escherichia coli ATP synthase. Further resolution of trypsin-generated fragments from subunit b. 288 81

Trypsin cleavage has been used to probe structure-function relationships of the Escherichia coli ATP synthase (ECF1F0). Trypsin cleaved all five subunits, alpha, beta, gamma, delta, and epsilon, in isolated ECF1. Cleavage of the alpha subunit involved the removal of the N-terminal 15 residues, the beta subunit was cleaved near the C-terminus, the gamma subunit was cleaved near Ser202, and the delta and epsilon subunits appeared to be cleaved at several sites to yield small peptide fragments. Trypsin cleavage of ECF1 enhanced the ATPase activity between 6- and 8-fold in different preparations, in a time course that followed the cleavage of the epsilon subunit. This removal of the epsilon subunit increased multisite ATPase activity but not unisite ATPase activity, showing that the inhibitory role of the epsilon subunit is due to an effect on cooperativity. The detergent lauryldimethylamine oxide was found to increase multisite catalysis and also increase unisite catalysis more than 2-fold. Prolonged trypsin cleavage left a highly active ATPase containing only the alpha and beta subunits along with two fragments of the gamma subunit. All of the subunits of ECF1 were cleaved by trypsin in preparations of ECF1F0 at the same sites as in isolated ECF1. Two subunits, the beta and epsilon subunits, were cleaved at the same rate in ECF1F0 as in ECF1 alone. The alpha, gamma, and delta subunits were cleaved significantly more slowly in ECF1F0.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Structure-function relationships of the Escherichia coli ATP synthase probed by trypsin digestion. 289 50

Upon incubation with trypsin, the adenosine-5'-triphosphatase (ATPase) activity of the nucleotide-depleted F1 is first rapidly and slightly activated and then slowly inactivated. The first phase is simultaneous with the conversion of the alpha subunit into an alpha' fragment which migrates between alpha and beta on sodium dodecyl sulfate-polyacrylamide gel electrophoresis. The second phase is related to the proteolysis of the three main subunits, alpha', beta, and gamma. Preincubation of the enzyme with low concentrations of adenosine 5'-diphosphate (ADP) or adenosine 5'-triphosphate (ATP) does not modify the slight increase of activity but efficiently prevents the inactivation induced by trypsin. The alpha leads to alpha' conversion is not affected whereas the further proteolysis of alpha', beta, and gamma does not occur. On the contrary, even high concentrations of GDP only slightly lower the trypsin-induced inactivation. The presence of endogenous tightly bound nucleotides also partially lowers the sensitivity to trypsin since F1 is less rapidly inactivated and proteolyzed than the nucleotide-depleted F1. Phosphate, at high concentrations, both slows down the first phase of activation and simultaneous alpha leads to alpha' conversion and prevents the second phase of inactivation and proteolysis of the main subunits. Pretreatment of the nucleotide-depleted F1 with trypsin under conditions where the ATPase activity is largely inhibited only slightly modifies, however, the hysteretic behavior of the enzyme: the ADP binding and the concomitant hysteretic inhibition of the residual activity are not markedly diminished. The purified ATPase-ATP synthase complex binds very few ADP's and is not hysteretically inhibited. Its ATPase activity is rapidly activated but not further inhibited by trypsin. Preincubation of the complex with ADP does not modify the effects of trypsin.
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PMID:Use of trypsin to monitor conformational changes of mitochondrial adenosinetriphosphatase induced by nucleotides and phosphate. 622 Jul 37

During net nucleoside triphosphate synthesis by chloroplast ATP synthase the extent of water oxygen incorporation into each nucleoside triphosphate released increases with decrease in ADP, GDP or IDP concentration. Likewise, during net ATP hydrolysis by the Mg2+-activated chloroplast ATPase, the extent of water oxygen incorporation into each Pi released increases as the ATP, GTP, or ITP concentration is decreased. However, the concentration ranges in which substrate modulation occurs differs with each nucleotide. Modulation of oxygen exchange during synthesis and hydrolysis of adenine nucleotides, as measured by variation in the extent of water oxygen incorporation into products, occurs below 250 microM. In contrast, guanosine and inosine nucleotides alter the extent of exchange at higher and much wider concentration ranges. Activation of the chloroplast ATPase by either heat or trypsin results in similar catalytic behavior as monitored by ATP modulation of oxygen exchanges during hydrolysis in the presence of Mg2+. More exchange capacity is evident with octylglucoside-activated enzyme at all ATP concentrations. High levels of tentoxin were also found to alter the catalytic exchange parameters resulting in continued water oxygen exchange into Pi released during hydrolysis at high ATP concentrations. Little or no oxygen exchange accompanies ATP hydrolysis in the presence of Ca2+. The [18O]Pi species formed from highly gamma-18O-labeled ATP at lower ATP concentrations gives a distribution as expected if only one catalytic pathway is operative at a given ATP concentration. This and other results support the concept of catalytic cooperativity between alternating sites as explanation for the modulation of oxygen exchange by nucleotide concentration.
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PMID:Probes of catalytic site cooperativity during catalysis by the chloroplast adenosine triphosphate and the adenosine triphosphate synthase. 630 19

The catalytic sector, F1, and the membrane sector, F0, of the mitochondrial ATP synthase complex are joined together by a 45-A-long stalk. Knowledge of the composition and structure of the stalk is crucial to investigating the mechanism of conformational energy transfer between F0 and F1. This paper reports on the near neighbor relationships of the stalk subunits with one another and with the subunits of F1 and F0, as revealed by cross-linking experiments. The preparations subjected to cross-linking were bovine heart submitochondrial particles (SMP) and F1-deficient SMP. The cross-linkers were three reagents of different chemical specificities and different lengths of cross-linking from zero to 10 A. Cross-linked products were identified after gel electrophoresis of the particles and immunoblotting with subunit-specific antibodies to the individual subunits alpha, beta, gamma, delta, OSCP, F6, A6L, a (subunit 6), b, c, and d. The results suggested that the two b subunits form the principal stem of the stalk to which OSCP, d, and F6 are bound independent of one another. Subunits b, OSCP, d, and F6 cross-linked to alpha and/or beta, but not to gamma or delta. The COOH-terminal half of A6L, which is extramembranous, cross-linked to d but not to any other stalk or F1 subunit. No cross-links of subunits a and c with any stalk or F1 subunits were detected. In F1-deficient SMP, cross-linked b+b and d+F6 dimers appeared, and the extent of cross-linking between b and OSCP diminished greatly. The addition of F1 to F1-deficient particles appeared to reverse these changes. Treatment of F1-deficient particles with trypsin rapidly hydrolyzed away OSCP and F6, fragmented b to membrane-bound 18-, 12-, and 8-9-kDa antigenic fragments, which cross-linked to d and/or with one another. Trypsin also removed the COOH-terminal part of A6L, but the remainder still cross-linked to subunit d. Models showing the near neighbor relationships of the stalk subunits with one another and with the alpha and beta subunits at a level near the proximal end (bottom) of F1 and at the membrane-matrix interface are presented.
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PMID:ATP synthase complex. Proximities of subunits in bovine submitochondrial particles. 783 33

Certain forms of ceroid lipofuscinosis, a hereditary degenerative disease, are characterized by accumulation of large amounts of subunit c of mitochondrial ATP synthase in lysosomal storage bodies of numerous tissues. The subunit c protein appears to constitute a major fraction of the total storage body protein. In previous studies it was demonstrated that hydrolysates of total storage body protein from affected humans and sheep contain significant amounts of epsilon-N-trimethyllysine (TML). This finding suggested that one or both of the two lysine residues of subunit c might be methylated in the stored form of the protein. The normal subunit c protein from mitochondria does not appear to be methylated. Using a putative canine model for the juvenile form of ceroid lipofuscinosis, analyses were conducted to determine whether lysosomal storage of subunit c was accompanied by lysine methylation of this protein. In affected dogs, as in humans and sheep with hereditary ceroid lipofuscinosis, the storage bodies were found to contain large amounts of subunit c protein, as indicated by polyacrylamide gel electrophoresis and partial amino acid sequence analysis. The subunit c protein partially purified from isolated storage bodies was found to contain lysine and TML in an almost equimolar ratio. Normal subunit c contains 2 lysine residues, one at position 7 and the other at position 43. Removal of the first 7 residues of the partially purified protein through sequential Edman degradation resulted in a dramatic increase in the TML to lysine ratio in the residual protein. This suggests that lysine residue 43 is methylated. Confirmation that residue 43 of the stored protein is TML was obtained by amino acid sequence analysis after cleavage of the protein with trypsin. This finding strongly suggests that specific methylation of lysine residue 43 of mitochondrial ATP synthase plays a central role in the lysosomal storage of this protein.
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PMID:Lysine methylation of mitochondrial ATP synthase subunit c stored in tissues of dogs with hereditary ceroid lipofuscinosis. 814 84

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