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1.
Rabbit skeletal muscle glycogen synthase was inhibited by pyridoxal 5'-phosphate and irreversibly inactivated after sodium borohydride reduction of the enzyme-pyridoxal-P complex. The irreversible inactivation by pyridoxal-P was opposed by the presence of the substrate UDP-glucose. With [3H]pyridoxal-P, covalent incorporation of 3H label into the enzyme could be monitored. UDP-glucose protected against 3H incorporation, whereas glucose-6-P was ineffective. Peptide mapping of tryptic digests indicated that two distinct peptides were specifically modified by pyridoxal-P. One of these peptides contained the NH2-terminal sequence of the glycogen synthase subunit. Chymotrypsin cleavage of this peptide resulted in a single-labeled fragment with the sequence: Glu-Val-Ala-Asn-(Pyridoxal-P-Lys)-Val-Gly-Gly-Ile-Tyr. This sequence is identical to that previously reported (Tagaya, M., Nakano, K., and Fukui, T. (1985) J. Biol. Chem. 260. 6670-6676) for a peptide specifically modified by a substrate analogue and inferred to form part of the active site of the enzyme. Sequence analysis revealed that the modified lysine was located at residue 38 from the NH2 terminus of the rabbit muscle glycogen synthase subunit. An analogous tryptic peptide obtained from the rabbit liver isozyme displayed a high degree of sequence homology in the vicinity of the modified lysine. We propose that the extreme NH2 terminus of the glycogen synthase subunit forms part of the catalytic site, in close proximity to one of the phosphorylated regions of the enzyme (site 2, serine 7). In addition, the work extends the known NH2-terminal amino acid sequences of both the liver and muscle glycogen synthase isozymes.  相似文献   

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4.
Proenzyme dipeptidyl peptidase I (DPP I) of Schistosoma japonicum was expressed in a baculovirus expression system utilizing Trichoplusia ni BTI-5B1-4 (High Five) strain host insect cells. The recombinant enzyme was purified from cell culture supernatants by affinity chromatography on nickel-nitriloacetic acid resin, exploiting a polyhistidine tag fused to the COOH-terminus of the recombinant protease. The purified recombinant enzyme resolved in reducing SDS-PAGE gels as three forms, of 55, 39, and 38 kDa, all of which were reactive with antiserum raised against bacterially expressed S. japonicum DPP I. NH(2)-terminal sequence analysis of the 55-kDa polypeptide revealed that it corresponded to residues -180 to -175, NH(2)-SRXKXK, of the proregion peptide of S. japonicum DPP I. The 39- and 38-kDa polypeptides shared the NH(2)-terminal sequence, LDXNQLY, corresponding to residues -73 to -67 of the proregion peptide and thus were generated by removal of 126 residues from the NH(2)-terminus of the proenzyme. Following activation for 24 h at pH 7.0, 37 degrees C under reducing conditions, the recombinant enzyme exhibited exopeptidase activity against synthetic peptidyl substrates diagnostic of DPP I. Specificity constants (k(cat)/K(m)) for the recombinant protease for the substrates H-Gly-Arg-NHMec and H-Gly-Phe-NHMec were found to be 14.4 and 10.7 mM(-)1 s(-1), respectively, at pH 7.0. Approximately 1 mg of affinity-purified schistosome DPP I was obtained per liter of insect cell culture supernatant, representing approximately 2 x 10(9) High Five cells.  相似文献   

5.
Serial culture of Rhodospirillum rubrum with 2% CO2 in H2 as the exclusive carbon source resulted in a rather large fraction of the soluble protein (greater than 40%) being comprised of ribulosebisphosphate carboxylase (about sixfold higher than the highest value previously reported). Isolation of the enzyme from these cells revealed that it has physical and kinetic properties similar to those previously described for the enzyme derived from cells grown on butyrate. Notably, the small subunit (which is a constituent of the carboxylase from eucaryotes and most procaryotes) was absent in the enzyme from autotrophically grown R. rubrum. Edman degradation of the purified enzyme revealed that the NH2 terminus is free (in contrast to the catalytic subunit of the carboxylase from eucaryotes) and that the NH2-terminal sequence is Met-Asp-Gln-Ser-Ser-Arg-Tyr-Val-Asn-Leu-Ala-Leu-Lys-Glu-Glu-Asp-Leu-Ile-Ala-Gly-Gly-Glx-His-Val-Leu-. Crystals of the enzyme were readily obtained by dialysis against distilled water.  相似文献   

6.
Processing of pulmonary surfactant protein B by napsin and cathepsin H   总被引:10,自引:0,他引:10  
Surfactant protein B (SP-B) is an essential constituent of pulmonary surfactant. SP-B is synthesized in alveolar type II cells as a preproprotein and processed to the mature peptide by the cleavage of NH2- and COOH-terminal peptides. An aspartyl protease has been suggested to cleave the NH2-terminal propeptide resulting in a 25-kDa intermediate. Napsin, an aspartyl protease expressed in alveolar type II cells, was detected in fetal lung homogenates as early as day 16 of gestation, 1 day before the onset of SP-B expression and processing. Napsin was localized to multivesicular bodies, the site of SP-B proprotein processing in type II cells. Incubation of SP-B proprotein from type II cells with a crude membrane extract from napsin-transfected cells resulted in enhanced levels of a 25-kDa intermediate. Purified napsin cleaved a recombinant SP-B/EGFP fusion protein within the NH2-terminal propeptide between Leu178 and Pro179, 22 amino acids upstream of the NH2 terminus of mature SP-B. Cathepsin H, a cysteine protease also implicated in pro-SP-B processing, cleaved SP-B/EGFP fusion protein 13 amino acids upstream of the NH2 terminus of mature SP-B. Napsin did not cleave the COOH-terminal peptide, whereas cathepsin H cleaved the boundary between mature SP-B and the COOH-terminal peptide and at several other sites within the COOH-terminal peptide. Knockdown of napsin by small interfering RNA resulted in decreased levels of mature SP-B and mature SP-C in type II cells. These results suggest that napsin, cathepsin H, and at least one other enzyme are involved in maturation of the biologically active SP-B peptide.  相似文献   

7.
This report describes the primary structure of a rat liver beta-galactoside alpha 2,6-sialyltransferase (EC 2.4.99.1), a Golgi apparatus enzyme involved in the terminal sialylation of N-linked carbohydrate groups of glycoproteins. The complete amino acid sequence was deduced from the nucleotide sequence of cDNA clones of the enzyme. The primary structure suggests that the topology of the enzyme in the Golgi apparatus consists of a short NH2-terminal cytoplasmic domain, a 17-residue hydrophobic sequence which serves as the membrane anchor and signal sequence, and a large lumenal, catalytic domain. NH2-terminal sequence analysis of a truncated form of the enzyme, obtained by purification from tissue homogenates, reveals that it is missing a 63-residue NH2-terminal peptide which includes the membrane binding domain. These and supporting results show that soluble forms of the sialyltransferase can be generated by proteolytic cleavage between the NH2-terminal signal-anchor and the catalytic domain.  相似文献   

8.
The beta-galactosidase from the Antarctic gram-negative bacterium Pseudoalteromonas haloplanktis TAE 79 was purified to homogeneity. The nucleotide sequence and the NH(2)-terminal amino acid sequence of the purified enzyme indicate that the beta-galactosidase subunit is composed of 1,038 amino acids with a calculated M(r) of 118,068. This beta-galactosidase shares structural properties with Escherichia coli beta-galactosidase (comparable subunit mass, 51% amino sequence identity, conservation of amino acid residues involved in catalysis, similar optimal pH value, and requirement for divalent metal ions) but is characterized by a higher catalytic efficiency on synthetic and natural substrates and by a shift of apparent optimum activity toward low temperatures and lower thermal stability. The enzyme also differs by a higher pI (7.8) and by specific thermodynamic activation parameters. P. haloplanktis beta-galactosidase was expressed in E. coli, and the recombinant enzyme displays properties identical to those of the wild-type enzyme. Heat-induced unfolding monitored by intrinsic fluorescence spectroscopy showed lower melting point values for both P. haloplanktis wild-type and recombinant beta-galactosidase compared to the mesophilic enzyme. Assays of lactose hydrolysis in milk demonstrate that P. haloplanktis beta-galactosidase can outperform the current commercial beta-galactosidase from Kluyveromyces marxianus var. lactis, suggesting that the cold-adapted beta-galactosidase could be used to hydrolyze lactose in dairy products processed in refrigerated plants.  相似文献   

9.
Glycogen synthase, the rate-limiting enzyme in glycogen biosynthesis, has been postulated to exist as isozymes in rabbit liver and muscle (Camici, M., Ahmad, Z., DePaoli-Roach, A. A., and Roach, P. J. (1984) J. Biol. Chem. 259, 2466-2473). Both isozymes share a number of properties including multiple phosphorylation of the enzyme subunit. In the present study, we determined the amino acid sequences surrounding phosphorylation sites in the rabbit liver isozyme recognized by cyclic AMP-dependent protein kinase. Two dominant phosphopeptides (P-1 and P-2) were generated from tryptic digestion. Amino acid sequences of the purified peptides were determined by automated Edman degradation using a gas-phase sequenator. The locations of phosphorylated residues were identified by measuring 32Pi release during Edman degradation cycles. The NH2-terminal sequence of peptide P-1 is S-L-S(P)-V-T-S-L-G-G-L-P-Q-W-E-V-E-E-L-P-V-D-D-L-L-L-P-E-V. This sequence exhibits a strong homology to the site 2 region in the NH2 terminus of the muscle isozyme. The NH2-terminal sequence of peptide P-2 is M-Y-P-R-P-S(P)-S(P)-V-P-P-S-P-L-G-S-Q-A. This sequence shows strong homology to the site 3 region in the COOH terminus of the muscle isozyme. However, some interesting sequence differences were revealed in this region. For example, substitution of serine for alanine at position 6 of peptide P-2 created a new phosphorylation site for cyclic AMP-dependent protein kinase. Phosphorylation of the proline/serine-rich site 3 region correlated with inactivation of the liver isozyme and suggests an important role for this segment of the molecule in the regulation of glycogen synthase. No phosphorylation sites corresponding to sites 1a and 1b of the muscle isozyme were detected. In addition, the results provide definitive chemical proof that glycogen synthase from rabbit liver and muscle are isozymes encoded by distinct messages.  相似文献   

10.
G-proteins couple hormonal activation of receptors to the regulation of specific enzymes and ion channels. Gs and Gi are G-proteins which regulate the stimulation and inhibition, respectively, of adenylyl cyclase. We have constructed two chimeric cDNAs in which different lengths of the alpha subunit of Gs (alpha s) have been replaced with the corresponding sequence of the Gi alpha subunit (alpha i2). One chimera, referred to as alpha i(54)/s' replaces the NH2-terminal 61 amino acids of alpha s with the first 54 residues of alpha i. Within this sequence there are 7 residues unique to alpha s, and 16 of the remaining 54 amino acids are nonhomologous between alpha i and alpha s. The second chimera, referred to as alpha i/s(Bam), replaces the first 234 amino acids of alpha s with the corresponding 212 residues of alpha i. Transient expression of alpha i(54)/s in COS-1 cells resulted in an 18- to 20-fold increase in cyclic AMP (cAMP) levels, whereas expression of either alpha i/s(Bam) or the wild-type alpha s polypeptide resulted in only a 5- to 6-fold increase in cellular cAMP levels. COS-1 cells transfected with alpha i showed a small decrease in cAMP levels. Stable expression of the chimeric alpha i(54)/s polypeptide in Chinese hamster ovary (CHO) cells constitutively increased both cAMP synthesis and cAMP-dependent protein kinase activity. CHO clones expressing transfected alpha i/s(Bam) or the wild-type alpha s and alpha i cDNAs exhibited cAMP levels and cAMP-dependent protein kinase activities similar to those in control CHO cells. Therefore, the alpha i(54)/s chimera behaves as a constitutively active alpha s polypeptide, whereas the alpha i/s(Bam) polypeptide is regulated similarly to wild-type alpha s. Expression in cyc-S49 cells, which lack expression of wild-type alpha s, confirmed that the alpha i(54)/s polypeptide is a highly active alpha s molecule whose robust activity is independent of any change in intrinsic GTPase activity. The difference in phenotypes observed upon expression of alpha i(54)/s or alpha i/s(Bam) indicates that the NH2-terminal moieties of alpha s and alpha i function as attenuators of the effector enzyme activator domain which is within the COOH-terminal half of the alpha subunit. Mutation at the NH2 terminus of alpha s relieves the attenuator control of the Gs protein and results in a dominant active G-protein mutant.  相似文献   

11.
The leucine aminopeptidase of Aeromonas proteolytica (EC 3.4.11.10) is a monomeric metalloenzyme having the capacity to bind two Zn2+ atoms in the active site. Structural information of this relatively small aminopeptidase that could illuminate the catalytic mechanism of the metal ions is lacking; hence, we have obtained sequences from the purified enzyme, cloned the corresponding gene, and expressed the recombinant protein in Escherichia coli. The deduced primary amino acid sequence of this secreted protease suggests a potential signal peptide at the NH2 terminus. Expression of the recombinant and native proteins in E. coli and in extracts of culture media of A. proteolytica indicates that the aminopeptidase is secreted as an active and thermosensitive 43-kDa protein that is rapidly transformed to thermostable forms of 30 and 32 kDa. Comparison of the deduced amino acid sequence of the A. proteolytica leucine aminopeptidase with other Zn(2+)-binding metalloenzymes failed to show homologies to the consensus binding sequence His-Glu-X-X-His for the metal ion.  相似文献   

12.
The beta-galactoside alpha 2,6 sialyltransferase, an integral membrane protein localized to the trans-region of the Golgi apparatus, has been converted into a catalytically active secreted protein by the replacement of the NH2-terminal signal-anchor domain with the cleavable signal peptide of human gamma-interferon. Pulse-chase analysis of the wild type and recombinant proteins expressed in stably transfected Chinese hamster ovary cells showed that the wild type sialyltransferase (47 kDa) remained cell-associated. In contrast, the signal peptide-sialyltransferase fusion protein yielded an enzymatically active 41-kDa polypeptide which was secreted with a half-time of 2-3 h, consistent with cleavage of the signal peptide. The data indicate that the catalytic domain does not contain sufficient information for retention in the Golgi apparatus and that retention signals are likely to be found in the NH2-terminal 57 amino acids of the wild type enzyme.  相似文献   

13.
Limited trypsin digestion of type I cAMP-dependent protein kinase holoenzyme results in a proteolytic-resistant Delta(1-72) regulatory subunit core, indicating that interaction between the regulatory and catalytic subunits extends beyond the autoinhibitory site in the R subunit at the NH(2) terminus. Sequence alignment of the two R subunit isoforms, RI and RII, reveals a significantly sequence diversity at this specific region. To determine whether this sequence diversity is functionally important for interaction with the catalytic subunit, specific mutations, R133A and D328A, are introduced into sites adjacent to the active site cleft in the catalytic subunit. While replacing Arg(133) with Ala decreases binding affinity for RII, interaction between the catalytic subunit and RI is not affected. In contrast, mutant C(D328A) showed a decrease in affinity for binding RI while maintaining similar affinities for RII as compared with the wild-type catalytic subunit. These results suggest that sequence immediately NH(2)-terminal to the consensus inhibition site in RI and RII interacts with different sites at the proximal region of the active site cleft in the catalytic subunit. These isoform-specific differences would dictate a significantly different domain organization in the type I and type II holoenzymes.  相似文献   

14.
Neuroserpin (NS) is a serine protease inhibitor (or serpin) that is widely expressed in the developing and adult nervous systems. It has been implicated in the regulation of proteases involved in processes such as synaptic plasticity, neuronal migration, and axogenesis. To aid in the characterization of this new serpin we have established a high-level expression system in Drosophila S2 cells and developed a purification strategy to obtain neuroserpin for functional studies. Suspension cultures of S2-NS cells secreted recombinant neuroserpin into the medium. High-level expression was maintained when the cells were switched to a nonselection serum-free medium for 3-4 days to facilitate protein purification. Recombinant neuroserpin was purified by sequential chromatography on Macroprep ceramic hydroxyapatite, Type I, POROS HQ20, Resource Q, and Superdex 75 HR 10/30 media. Two secreted forms of neuroserpin were observed with molecular weights of approximately 49 and approximately 50 kDa which may represent alternative glycosylation at three putative N-linked glycosylation sites. Amino acid sequence analysis indicated three NH(2)-terminal sequences. The major sequence was generated by cleavage at the Gly(18)-Ala(19) bond consistent with removal of an 18-amino-acid signal peptide. Two further sequences were identified each with one fewer amino acids at the NH(2)-terminus. All three NH(2)-terminal sequences were also identified by mass spectrometric analysis of neuroserpin following trypsin digestion. Mass spectrometry also confirmed the protein had an intact carboxyl terminus while complex formation assays indicated the inhibitor was functionally active. In summary, Drosophila S2 cells offered a nonlytic stable expression system for the continual production of neuroserpin in high-density suspension cultures.  相似文献   

15.
《The Journal of cell biology》1993,121(6):1221-1232
Expression of chimeras, composed of portions of two different glucose transporter isoforms (GLUT-1 and GLUT-4), in CHO cells had indicated that the cytoplasmic NH2 terminus of GLUT-4 contains important targeting information that mediates intracellular sequestration of this isoform (Piper, R. C., C. Tai, J. W. Slot, C. S. Hahn, C. M. Rice, H. Huang, D. E. James. 1992. J. Cell Biol. 117:729-743). In the present studies, the amino acid constituents of the GLUT-4 NH2-terminal targeting domain have been identified. GLUT-4 constructs containing NH2- terminal deletions or alanine substitutions within the NH2 terminus were expressed in CHO cells using a Sindbis virus expression system. Deletion of eight amino acids from the GLUT-4 NH2 terminus or substituting alanine for phenylalanine at position 5 in GLUT-4 resulted in a marked accumulation of the transporter at the plasma membrane. Mutations at other amino acids surrounding Phe5 also caused increased cell surface expression of GLUT-4 but not to the same extent as the Phe5 mutation. GLUT-4 was also localized to clathrin lattices and this colocalization was abolished when either the first 13 amino acids were deleted or when Phe5 was changed to alanine. To ascertain whether the targeting information within the GLUT-4 NH2-terminal targeting domain could function independently of the glucose transporter structure this domain was inserted into the cytoplasmic tail of the H1 subunit of the asialoglycoprotein receptor. H1 with the GLUT-4 NH2 terminus was predominantly localized to an intracellular compartment similar to GLUT- 4 and was sequestered more from the cell surface than was the wild-type H1 protein. It is concluded that the NH2 terminus of GLUT-4 contains a phenylalanine-based targeting motif that mediates intracellular sequestration at least in part by facilitating interaction of the transporter with endocytic machinery located at the cell surface.  相似文献   

16.
Due to the lack of de novo purine nucleotide biosynthesis, hypoxanthine-guanine phosphoribosyltransferase (HGPRTase) is an essential enzyme in the human parasite Schistosoma mansoni for supplying guanine nucleotides and has been proposed as a potential target for antiparasitic chemotherapy. While the enzyme can be purified from adult schistosome worms, yields are too low to allow extensive structural and kinetic studies. We therefore cloned and sequenced the cDNA and gene encoding the schistosomal enzyme but were unable to positively identify the amino-terminal sequence of the enzyme from the DNA sequence. Knowledge of the exact amino terminus was necessary before accurate expression of active enzyme could be attempted. Therefore, we purified the HGPRTase from crude extracts of the adult worms. The purified enzyme has a subunit molecular mass of 26 kDa and an amino-terminal sequence of Met-Ser-Ser-Asn-Met. This sequence matched one of the potential initiation sites predicted from the cDNA and gene sequence. We next expressed the correct size cDNA of the S. mansoni HGPRTase in Escherichia coli using a vector that is regulated by a bacterial alkaline phosphatase promoter and uses an E. coli signal peptide for secretion of expressed product into the periplasmic space. Using this expression system, some of the recombinant enzyme is secreted and found to have a correct amino terminus. That remaining in the cytoplasm has part of the signal peptide attached to the amino terminus. The recombinant schistosomal HGPRTase isolated from the periplasm of the transformed E. coli was purified and found to have kinetic and physical properties identical to those of the native enzyme.  相似文献   

17.
Large quantities of recombinant human aldose reductase were produced using Spodoptera frugiperda cells and properties of the enzyme were characterized. Direct purification of the recombinant aldose reductase by affinity column chromatography using Matrex gel orange A yielded a single 36 kDa band, similar in size to the purified human muscle aldose reductase, on a sodium dodecyl sulfate-polyacrylamide gel after silver staining. The isoelectric point of the recombinant enzyme was 5.85 which is identical to the human muscle aldose reductase. Following the treatment with an acylamino-acid releasing enzyme, the blocked NH2-terminal amino acid was identified to be acetylalanine. The successive NH2-terminal sequence and that of the COOH-terminal peptide concurred with the expected translated sequence. Kinetic analyses of the recombinant enzyme activity for various substrates and the cofactor, NADPH, demonstrated a good agreement with the previously reported kinetic data on the purified human aldose reductase. A high concentration of (NH4)2SO4 elicited a significant increase in both Km and Kcat for DL-glyceraldehyde as well as D-glucose. Although IC50 values for most of the aldose reductase inhibitors with recombinant enzyme were found to fall within the comparable range of those obtained with nonhuman mammalian enzymes, the IC50 value for epalrestat was more than 10-fold higher in the recombinant enzyme. These results indicate that the recombinant human aldose reductase expressed in the baculovirus system possesses structurally and enzymatically similar properties as those reported for the native human enzyme and should serve as a superior enzyme preparation to nonhuman mammalian enzymes for the screening of the efficacy and potency of newly developed aldose reductase inhibitors.  相似文献   

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19.
A full length cDNA for acid phosphatase in rat liver lysosomes was isolated and sequenced. The predicted amino acid sequence comprises 423 residues (48,332 Da). A putative signal peptide of 30 residues is followed by the NH2-terminal sequence of lysosomal acid phosphatase (45,096 Da). The deduced NH2-terminal 18-residue sequence is identical with that determined directly for acid phosphatases purified from the rat liver lysosomal membranes. The primary structure deduced for acid phosphatase contains 9 potential N-glycosylation sites and a hydrophobic region which could function as a transmembrane domain. It exhibits 89% and 67% sequence similarities in amino acids and nucleic acids, respectively, to human lysosomal acid phosphatase. The amino acid sequence of the putative transmembrane segment shows a complete similarity to that of the human enzyme. Northern blot hybridization analysis identified a single species of acid phosphatase mRNA (2.2 kbp in length) in rat liver.  相似文献   

20.
A yeast gene for a methionine aminopeptidase, one of the central enzymes in protein synthesis, was cloned and sequenced. The DNA sequence encodes a precursor protein containing 387 amino acid residues. The mature protein, whose NH2-terminal sequence was confirmed by Edman degradation, consists of 377 amino acids. The function of the 10-residue sequence at the NH2 terminus, containing 1 serine and 6 threonine residues, remains to be established. In contrast to the structure of the prokaryotic enzyme, the yeast methionine aminopeptidase consists of two functional domains: a unique NH2-terminal domain containing two motifs resembling zinc fingers, which may allow the protein to interact with ribosomes, and a catalytic COOH-terminal domain resembling other prokaryotic methionine aminopeptidases. Furthermore, unlike the case for the prokaryotic gene, the deletion of the yeast MAP1 gene is not lethal, suggesting for the first time that alternative NH2-terminal processing pathway(s) exist for cleaving methionine from nascent polypeptide chains in eukaryotic cells.  相似文献   

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