Your search keyword '"proenzyme"' showing total 31 results

1. Quantification of the zymogenicity and the substrate-induced activity enhancement of complement factor D.

Author

Dani, Ráhel, Oroszlán, Gábor, Martinusz, Róbert, Farkas, Bence, Dobos, Bernadett, Vadas, Evelin, Závodszky, Péter, Gál, Péter, and Dobó, József

Subjects

ZYMOSAN, SERINE, PROTEOLYSIS, ECULIZUMAB, NATURAL immunity

Abstract

Complement factor D (FD) is a serine protease present predominantly in the active form in circulation. It is synthesized as a zymogen (pro-FD), but it is continuously converted to FD by circulating active MASP-3. FD is a unique, selfinhibited protease. It has an extremely low activity toward free factor B (FB), while it is a highly efficient enzyme toward FB complexed with C3b (C3bB). The structural basis of this phenomenon is known; however, the rate enhancement was not yet quantified. It has also been unknown whether pro-FD has any enzymatic activity. In this study, we aimed to measure the activity of human FD and pro-FD toward uncomplexed FB and C3bB in order to quantitatively characterize the substrate-induced activity enhancement and zymogenicity of FD. Pro-FD was stabilized in the proenzyme form by replacing Arg25 (precursor numbering) with Gln (pro-FD-R/Q). Activated MASP-1 and MASP-3 catalytic fragments were also included in the study for comparison. We found that the complex formation with C3b enhanced the cleavage rate of FB by FD approximately 20 million-fold. C3bB was also a better substrate for MASP-1, approximately 100-fold, than free FB, showing that binding to C3b renders the scissile Arg-Lys bond in FB to become more accessible for proteolysis. Though easily measurable, this cleavage by MASP-1 is not relevant physiologically. Our approach provides quantitative data for the two-step mechanism characterized by the enhanced susceptibility of FB for cleavage upon complex formation with C3b and the substrate-induced activity enhancement of FD upon its binding to C3bB. Earlier MASP-3 was also implicated as a potential FB activator; however, MASP-3 does not cleave C3bB (or FB) at an appreciable rate. Finally, pro-FD cleaves C3bB at a rate that could be physiologically significant. The zymogenicity of FD is approximately 800, i.e., the cleavage rate of C3bB by pro-FD-R/Q was found to be approximately 800-fold lower than that by FD. Moreover, pro-FD-R/Q at approximately 50-fold of the physiological FD concentration could restore half-maximal AP activity of FD-depleted human serum on zymosan. The observed zymogen activity of pro-FD might be relevant in MASP-3 deficiency cases or during therapeutic MASP-3 inhibition. [ABSTRACT FROM AUTHOR]

Published

2023

2. Quantification of the zymogenicity and the substrate-induced activity enhancement of complement factor D

Author

Ráhel Dani, Gábor Oroszlán, Róbert Martinusz, Bence Farkas, Bernadett Dobos, Evelin Vadas, Péter Závodszky, Péter Gál, and József Dobó

Subjects

innate immunity, complement, serine protease, proenzyme, kinetics, factor D, Immunologic diseases. Allergy, RC581-607

Abstract

Complement factor D (FD) is a serine protease present predominantly in the active form in circulation. It is synthesized as a zymogen (pro-FD), but it is continuously converted to FD by circulating active MASP-3. FD is a unique, self-inhibited protease. It has an extremely low activity toward free factor B (FB), while it is a highly efficient enzyme toward FB complexed with C3b (C3bB). The structural basis of this phenomenon is known; however, the rate enhancement was not yet quantified. It has also been unknown whether pro-FD has any enzymatic activity. In this study, we aimed to measure the activity of human FD and pro-FD toward uncomplexed FB and C3bB in order to quantitatively characterize the substrate-induced activity enhancement and zymogenicity of FD. Pro-FD was stabilized in the proenzyme form by replacing Arg25 (precursor numbering) with Gln (pro-FD-R/Q). Activated MASP-1 and MASP-3 catalytic fragments were also included in the study for comparison. We found that the complex formation with C3b enhanced the cleavage rate of FB by FD approximately 20 million-fold. C3bB was also a better substrate for MASP-1, approximately 100-fold, than free FB, showing that binding to C3b renders the scissile Arg-Lys bond in FB to become more accessible for proteolysis. Though easily measurable, this cleavage by MASP-1 is not relevant physiologically. Our approach provides quantitative data for the two-step mechanism characterized by the enhanced susceptibility of FB for cleavage upon complex formation with C3b and the substrate-induced activity enhancement of FD upon its binding to C3bB. Earlier MASP-3 was also implicated as a potential FB activator; however, MASP-3 does not cleave C3bB (or FB) at an appreciable rate. Finally, pro-FD cleaves C3bB at a rate that could be physiologically significant. The zymogenicity of FD is approximately 800, i.e., the cleavage rate of C3bB by pro-FD-R/Q was found to be approximately 800-fold lower than that by FD. Moreover, pro-FD-R/Q at approximately 50-fold of the physiological FD concentration could restore half-maximal AP activity of FD-depleted human serum on zymosan. The observed zymogen activity of pro-FD might be relevant in MASP-3 deficiency cases or during therapeutic MASP-3 inhibition.

Published

2023

3. Extensive Basal Level Activation of Complement Mannose-Binding Lectin-Associated Serine Protease-3: Kinetic Modeling of Lectin Pathway Activation Provides Possible Mechanism

Author

Gábor Oroszlán, Ráhel Dani, András Szilágyi, Péter Závodszky, Steffen Thiel, Péter Gál, and József Dobó

Subjects

innate immunity, complement, lectin pathway, serine protease, proenzyme, autoactivation, Immunologic diseases. Allergy, RC581-607

Abstract

Serine proteases (SPs) are typically synthesized as precursors, termed proenzymes or zymogens, and the fully active form is produced via limited proteolysis by another protease or by autoactivation. The lectin pathway of the complement system is initiated by mannose-binding lectin (MBL)-associated SPs (MASP)-1, and MASP-2, which are known to be present as proenzymes in blood. The third SP of the lectin pathway, MASP-3, was recently shown to be the major activator, and the exclusive “resting blood” activator of profactor D, producing factor D, the initiator protease of the alternative pathway. Because only activated MASP-3 is capable of carrying out this cleavage, it was presumed that a significant fraction of MASP-3 must be present in the active form in resting blood. Here, we aimed to detect active MASP-3 in the blood by a more direct technique and to quantitate the active to zymogen ratio. First, MASPs were partially purified (enriched) from human plasma samples by affinity chromatography using immobilized MBL in the presence of inhibitors. Using this MASP pool, only the zymogen form of MASP-1 was detected by Western blot, whereas over 70% MASP-3 was in an activated form in the same samples. Furthermore, the active to zymogen ratio of MASP-3 showed little individual variation. It is enigmatic how MASP-3, which is not able to autoactivate, is present mostly as an active enzyme, whereas MASP-1, which has a potent autoactivation capability, is predominantly proenzymic in resting blood. In an attempt to explain this phenomenon, we modeled the basal level fluid-phase activation of lectin pathway proteases and their subsequent inactivation by C1 inhibitor and antithrombin using available and newly determined kinetic constants. The model can explain extensive MASP-3 activation only if we assume efficient intracomplex activation of MASP-3 by zymogen MASP-1. On the other hand, the model is in good agreement with the fact that MASP-1 and -2 are predominantly proenzymic and some of them is present in the form of inactive serpin–protease complexes. As an alternative hypothesis, MASP-3 activation by proprotein convertases is also discussed.

Published

2017

4. Priprava ter karakterizacija metaloproteaze Mpl iz patogene bakterije Listera monocytogenes

Author

Korošec, Sara and Podobnik, Marjetka

Subjects

topnost, metalloprotease, Mpl, solubility, proenzyme, metaloproteaza, Listeria monocytogenes, pro-encim

Abstract

Bakterija Listeria monocytogenes je znotrajcelični patogen, ki prehaja med celicami in se deli v citosolu gostiteljske celice. Znotrajcelični cikel zajema pobeg iz vakuole, pri čemer sodeluje več virulentnih faktorjev, med drugim metaloproteaza Mpl. Gre za slabo raziskan bakterijski protein, zato smo se odločili za izolacijo in karakterizacijo. Pripravili smo več različnih konstruktov, ki so se med seboj razlikovali po afinitetni oznaki, prisotnosti signalnega zaporedja in pro- ali zreli obliki Mpl. Začetni pogoji gojenja bakterijskih celic in izražanja proteina so pokazali, da se rekombinanten proMpl izraža, a se nahaja v netopni frakciji, medtem ko izražanja zrele oblike Mpl nismo opazili. Cilj je postal pridobiti topno obliko proMpl. K temu izzivu smo pristopali sistematsko, tako da smo spreminjali oziroma vpeljevali po eno do dve spremenljivki hkrati. Preverili smo vpliv: i) temperature in časa izražanja, ii) liznega pufra, iii) metode bakterijske lize, a nobena od naštetih spremenljivk ni povečala topnosti proteina. Analiza z NaDS-PAGE je pokazala še prisotnost neznanega proteina velikosti približno 40 kDa, ki je predvidoma bakterijskega izvora. Delo smo nadaljevali s pripravo konstrukta, ki je omogočal izražanje proMpl v periplazemski prostor bakterije, vendar takšna sprememba ni povečala topnosti. Naslednji poskus je slonel na predpostavki, da ima proMpl težnjo k agregaciji v primeru prevelike količine izražanja. S tem namenom smo opazovali vpliv koncentracije induktorja in vrste bakterijskega gojišča, kar prav tako ni bila rešitev. Naslovili smo tudi možnost, da se proMpl ne uspe zviti do nativne konformacije. Pripravili smo konstrukt, ki omogoča izražanje nativnega proMpl brez dodatnih aminokislinskih ostankov. Novo pripravljen konstrukt smo izražali v prisotnosti in odsotnosti cinka dodanega v bakterijsko gojišče. Cinkov atom se nahaja v aktivnem mestu proMpl, prav zato bi lahko imel vlogo pri pravilnem zvitju. Poskusili smo še z izolacijo proMpl iz periplazemskega prostora, pri čemer celic nismo lizirali, ampak izvedli metodo modificiranega osmotskega šoka, vendar to ni povečalo topnosti Mpl. Pokazali smo, da rekombinantno izražanje proMpl zahteva posebne pogoje, ki jih kljub sistematskemu iskanju nismo odkrili. V modelu tridimenzionalne strukture, napovedane z AlphaFold2, lahko opazimo nestrukturirane dele in sklepamo na pomembnost propeptida. Predpostavljamo, da bi s sistematično pripravo različnih konstruktov proMpl na osnovi AlphaFold2 modela lahko pripravili take, ki bi se uspešno izražali v E.coli. Bacterium Listeria monocytogenes is an intracellular pathogen with the ability to spread between cells and divide in the cytosol of host cells. During intracellular cycle it becomes entrapped inside the vacuole, from which it escapes using virulence factors, including metalloprotease Mpl. Due to lack of information for this protein, we decided to isolate and characterize it. We prepared constructs which differed in affinity tag, signal peptide, sequence – either pro or mature form of Mpl. Cultivation of bacterium and expression of Mpl under initial conditions, showed that proMpl is expressed but remains in insoluble fraction, but mature Mpl is not even expressed. The goal became to obtain a soluble form of proMpl. We approached this challenge systematically, changing or introducing one or two variables at a time. Firstly, we checked the influence of i) temperature and time of expression, ii) lysis buffer, iii) bacterial lysis method, but none of the listed variables increased protein solubility. Results from NaDS-PAGE showed the presence of an unknow protein the size of approximately 40 kDa, which is most probably a bacterial protein. We continued the work by preparing a construct that allows expression of proMpl in the periplasmic space of the bacteria but did not see an increase in the solubility. The next assumption was that when proMpl is overexpressed it has a higher tendency to aggregate. We tested the influence of inducer concentration and type of bacterial medium, which was also not a solution. Next, we assumed that proMpl is not able to reach its native conformation, thus we prepared a construct which enables expression of proMpl without additional amino acid residues. We expressed proMpl from this newly prepared construct in the presence and absence of external zinc added to the bacterial culture medium. proMpl contains one zinc atom in its active site, therefore it could have an impact on correct folding. We also tried to isolate proMpl from the periplasmic space using modified osmotic shock, but this method was not the solution. We show that the expression of recombinant proMpl requires special conditions, which we did not discover despite a systematic search. Lastly, we determined the model of three-dimensional structure using AlphaFold2. The model predicts some unstructured regions, and we can also observe the importance of the propeptide. We assume that by systematically preparing various proMpl constructs based on AlphaFold2 model, we could prepare those that would be successfully expressed in E. coli.

Published

2022

5. Extensive Basal Level Activation of Complement Mannose-Binding Lectin-Associated Serine Protease-3: Kinetic Modeling of Lectin Pathway Activation Provides Possible Mechanism.

Author

Oroszlán, Gábor, Dani, Ráhel, Szilágyi, András, Závodszky, Péter, Thiel, Steffen, Gál, Péter, and Dobó, József

Subjects

ZYMOGENS, MANNOSE, LECTINS, SERINE proteinases, COMPLEMENT (Immunology), PROTEOLYSIS, CARRIER proteins

Abstract

Serine proteases (SPs) are typically synthesized as precursors, termed proenzymes or zymogens, and the fully active form is produced via limited proteolysis by another protease or by autoactivation. The lectin pathway of the complement system is initiated by mannose-binding lectin (MBL)-associated SPs (MASP)-1, and MASP-2, which are known to be present as proenzymes in blood. The third SP of the lectin pathway, MASP-3, was recently shown to be the major activator, and the exclusive "resting blood" activator of profactor D, producing factor D, the initiator protease of the alternative pathway. Because only activated MASP-3 is capable of carrying out this cleavage, it was presumed that a significant fraction of MASP-3 must be present in the active form in resting blood. Here, we aimed to detect active MASP-3 in the blood by a more direct technique and to quantitate the active to zymogen ratio. First, MASPs were partially purified (enriched) from human plasma samples by affinity chromatography using immobilized MBL in the presence of inhibitors. Using this MASP pool, only the zymogen form of MASP-1 was detected by Western blot, whereas over 70% MASP-3 was in an activated form in the same samples. Furthermore, the active to zymogen ratio of MASP-3 showed little individual variation. It is enigmatic how MASP-3, which is not able to autoactivate, is present mostly as an active enzyme, whereas MASP-1, which has a potent autoactivation capability, is predominantly proenzymic in resting blood. In an attempt to explain this phenomenon, we modeled the basal level fluid-phase activation of lectin pathway proteases and their subsequent inactivation by C1 inhibitor and antithrombin using available and newly determined kinetic constants. The model can explain extensive MASP-3 activation only if we assume efficient intracomplex activation of MASP-3 by zymogen MASP-1. On the other hand, the model is in good agreement with the fact that MASP-1 and -2 are predominantly proenzymic and some of them is present in the form of inactive serpin-protease complexes. As an alternative hypothesis, MASP-3 activation by proprotein convertases is also discussed. [ABSTRACT FROM AUTHOR]

Published

2017

6. ВПЛИВ ПРОЕНЗИМУ НА ПЕРЕТРАВНІСТЬ ПОЖИВНИХ РЕЧОВИН ПЕРЕПЕЛАМИ ЗА РІЗНИХ РІВНІВ СУХОЇ ПИВНОЇ ДРОБИНИ У КОМБІКОРМАХ

Author

ГОЛУБЄВА, Т. А. and МАХНО, К. І.

Abstract

Copyright of Biological Resources & Nature Management is the property of National University of Life & Environmental Sciences of Ukraine and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2017

7. C-terminal processing of tyrosinase is responsible for activation of Pholiota microspora proenzyme.

Author

Kawamura-Konishi, Yasuko, Maekawa, Saya, Tsuji, Mariko, and Goto, Hideyuki

Subjects

*PHENOL oxidase, *MICROSPORIDIA, *RECOMBINANT proteins, *ESCHERICHIA coli, *ENTEROKINASE, *CHYMOTRYPSIN

Abstract

Tyrosinase is expressed as a 67-kDa protein in Pholiota microspora (synonym Pholiota nameko), whereas the same enzyme purified from fruiting bodies of P. microspora is a 42-kDa protein that is cleaved with a C-terminal 25-kDa polypeptide from the 67-kDa protein. To confirm the role of C-terminal processing in enzyme activity, we expressed a recombinant 67-kDa tyrosinase in Escherichia coli cells. To obtain a soluble protein, the recombinant tyrosinase was expressed as a thioredoxin fusion protein with an enterokinase-cleavable site. Enterokinase digestion of the fusion protein produced a recombinant 67-kDa tyrosinase that did not have any catalytic activity. However, chymotrypsin digestion of the fusion protein produced a recombinant 44-kDa tyrosinase that was catalytically active and had a 25-kDa cleaved C-terminal. Kinetic parameters of the 44-kDa tyrosinase were similar to those of the 42-kDa tyrosinase purified from the fruiting bodies. These results suggest that tyrosinase is expressed in P. microspora as a latent 67-kDa proenzyme and is converted to the mature active 42-kDa enzyme by proteolytic processing of the C-terminal. [ABSTRACT FROM AUTHOR]

Published

2011

8. Identification, characterization and deduced amino acid sequence of the dominant protease from Kudoa paniformis and K. thyrsites: A unique cytoplasmic cysteine protease

Author

Funk, Valerie A., Olafson, Robert W., Raap, Monique, Smith, Derek, Aitken, Laura, Haddow, Jody D., Wang, Diana, Dawson-Coates, Jennifer A., Burke, Robert D., and Miller, Kristina M.

Subjects

*AMINO acid sequence, *PROTEIN metabolism, *PROTEOLYTIC enzymes, *PROTEINASES, *FISHES, *KUDOA, *CYTOPLASM, *CYSTEINE proteinases

Abstract

Abstract: Kudoa paniformis and Kudoa thyrsites (Myxozoa: Myxosporea) infections are associated with severe proteolysis of host muscle tissue post-mortem. The present study was undertaken to identify and characterize the protease responsible for myoliquefaction and determine mechanisms controlling protease function in vivo. N-terminal sequence analysis of partially purified protease from hake muscle infected with K. paniformis and K. thyrsites revealed a 23 amino acid sequence that aligned with cysteine proteases. Enzyme inhibition assays confirmed the presence of an essential active site cysteine residue. Using the above K. paniformis amino acid sequence data, a corresponding cDNA sequence from K. thyrsites plasmodia was elucidated revealing a cathepsin L proenzyme (Kth-CL). The translated amino acid sequence lacked a signal sequence characteristic of lysosomal and secreted proteins suggesting a unique cytoplasmic location. Only the proenzyme form of Kth-CL was present in Atlantic salmon muscle anti-mortem but this form became processed in vivo when infected muscle was stored at 4 °C. The proenzyme of Kth-CL showed uninhibited activity at pH 6.0, negligible activity at pH 6.5 and no measurable activity at pH 7.0 whilst the processed protease showed stability and function over a broad pH range (pH 4.5–8.8). The pH dependent processing and function of Kth-CL was consistent with histidine residues in the proregion playing a critical role in the regulation of Kth-CL. [Copyright &y& Elsevier]

Published

2008

9. Purification, Characterization, and Molecular Cloning of Tyrosinase from Pholiota nameko.

Author

Kawamura-Konishi, Yasuko, Tsuji, Mariko, Hatana, Seiichi, Asanuma, Masahiro, Kakuta, Dai, Kawano, Takeshi, Mukouyama, Etsuko B., Goto, Hideyuki, and Suzuki, Haruo

Subjects

*PHENOL oxidase, *PHOLIOTA, *CHEMICAL purification, *MOLECULAR cloning, *HOMOGENEITY, *ENZYME analysis, *CHEMICAL research

Abstract

The article discusses a study which describes the purification, characterization and molecular cloning of Tyrosinase from Pholiota nameko. Tyrosinase was isolated from fruit bodies of Pholiota nameko and purified to homogeneity. The study showed that P. nameko has a high level of tyrosinase activity. It is suggested that nameko tyrosinase is expressed as a proenzyme activated to form a mature enzyme by proteolysis.

Published

2007

10. Kinetic analysis of a general model of activation of aspartic proteinase zymogens

Author

Varón, R., García-Moreno, M., Valera-Ruipérez, D., García-Molina, F., García-Cánovas, F., Ladrón-de Guevara, R.G., Masiá-Pérez, J., and Havsteen, B.H.

Subjects

*PROTEOLYTIC enzymes, *ENZYME analysis, *ENZYME kinetics, *CHEMICAL kinetics

Abstract

Abstract: Starting from a simple general reaction mechanism of activation of aspartic proteinase zymogens involving an uni- and a bimolecular simultaneous route, the time course equation of the concentration of the zymogen and of the activated enzyme have been derived. From these equations, an analysis quantifying the relative contribution to the global process of the two routes has been carried out for the first time. This analysis suggests a way to predict the time course of the relative contribution as well as the effect of the initial zymogen and activating enzyme concentrations, on the relative weight. An experimental design and kinetic data analysis is suggested to estimate the kinetic parameters involved in the reaction mechanism proposed. Finally, we apply some of our results to experimental data obtained by other authors in experimental studies of the activation of some aspartic proteinase zymogens. [Copyright &y& Elsevier]

Published

2006

11. Pyruvoyl-Dependent Arginine Decarboxylase from Methanococcus jannaschii: Crystal Structures of the Self-Cleaved and S53A Proenzyme Forms

Author

Tolbert, W. David, Graham, David E., White, Robert H., and Ealick, Steven E.

Subjects

*ARGININE, *POLYAMINES, *DECARBOXYLASES

Abstract

The three-dimensional structure of pyruvoyl-dependent arginine decarboxylase from Methanococcus jannaschii was determined at 1.4 A˚ resolution. The pyruvoyl group of arginine decarboxylase is generated by an autocatalytic internal serinolysis reaction at Ser53 in the proenzyme resulting in two polypeptide chains. The structure of the nonprocessing S53A mutant was also determined. The active site of the processed enzyme unexpectedly contained the reaction product agmatine. The crystal structure confirms that arginine decarboxylase is a homotrimer. The protomer fold is a four-layer αββα sandwich with topology similar to pyruvoyl-dependent histidine decarboxylase. Highly conserved residues Asn47, Ser52, Ser53, Ile54, and Glu109 are proposed to play roles in the self-processing reaction. Agmatine binding residues include the C terminus of the β chain (Ser52) from one protomer and the Asp35 side chain and the Gly44 and Val46 carbonyl oxygen atoms from an adjacent protomer. Glu109 is proposed to play a catalytic role in the decarboxylation reaction. [Copyright &y& Elsevier]

Published

2003

12. Structures and Functions of Precursors of Bacterial Proteases.

Author

Serkina, A., Shevelev, A., and Chestukhina, G.

Abstract

The data on the precursors of bacterial proteases were generalized. The structure and special features of processing of the precursors of bacillary subtilisins, the α-lytic protease from Lysobacter enzymogenesand the related chymotrypsin-like proteases from Streptomyces griseus, and the metalloproteases from bacilli and Pseudomonas aeruginosawere discussed. The approaches to producing the precursors and the protease propeptides and to in vitrocharacterizing them were particularly analyzed. The following physiological functions of the propeptides within the protease precursors were considered probable: (a) inhibition of the proteases to protect the host cells from the proteolytic damage; (b) participation in the folding of the mature enzyme; and (c) providing for the protease interaction with the bacterial cell surveillance mechanisms, including protease translocation through the cell wall. [ABSTRACT FROM AUTHOR]

Published

2001

13. Structure, interdomain dynamics, and pH-dependent autoactivation of pro-rhodesain, the main lysosomal cysteine protease from African trypanosomes

Author

Tanja Schirmeister, Patrick Johe, Christian Kersten, Hannes Neuweiler, Elmar Jaenicke, and Ute A. Hellmich

Subjects

Models, Molecular, Trypanosoma brucei rhodesiense, 0301 basic medicine, medicine.medical_treatment, Biochemistry, cysteine protease, proenzyme, fluorescence correlation spectroscopy (FCS), Trypanosoma brucei, BBB, blood–brain barrier, CD, circular dichroism, chemistry.chemical_classification, Enzyme Precursors, biology, Chemistry, hsCathL, human cathepsin L, Hydrogen-Ion Concentration, Cysteine protease, FCS, fluorescence correlation spectroscopy, Cysteine Endopeptidases, HAT, Human African Trypanosomiasis, NTD, neglected tropical disease, Research Article, crystal structure, Proteases, SEC, size-exclusion chromatography, PET-FCS, photoinduced electron transfer–fluorescence correlation spectroscopy, African Sleeping Sickness, Cleavage (embryo), 03 medical and health sciences, TbCathB, T. brucei cathepsin B, Protein Domains, Zymogen, medicine, Molecular Biology, zymogen, rhodesain, Cathepsin, Protease, 030102 biochemistry & molecular biology, Active site, Cell Biology, biology.organism_classification, molecular dynamics, Enzyme Activation, Enzyme, 030104 developmental biology, biology.protein, autoinhibition, Heterologous expression

Abstract

Rhodesain is the lysosomal cathepsin L-like cysteine protease ofT. brucei rhodesiense, the causative agent of Human African Trypanosomiasis. The enzyme is essential for the proliferation and pathogenicity of the parasite as well as its ability to overcome the blood-brain barrier of the host. Lysosomal cathepsins are expressed as zymogens with an inactivating pro-domain that is cleaved under acidic conditions. A structure of the uncleaved maturation intermediate from a trypanosomal cathepsin L-like protease is currently not available. We thus established the heterologous expression ofT. brucei rhodesiensepro-rhodesain inE. coliand determined its crystal structure. The trypanosomal pro-domain differs from non-parasitic pro-cathepsins by a unique, extended α-helix that blocks the active site and whose interactions resemble that of the antiprotozoal inhibitor K11777. Interdomain dynamics between pro- and core protease domain as observed by photoinduced electron transfer fluorescence correlation spectroscopy increase at low pH, where pro-rhodesain also undergoes autocleavage. Using the crystal structure, molecular dynamics simulations and mutagenesis, we identify a conserved interdomain salt bridge that prevents premature intramolecular cleavage at higher pH values and may thus present a control switch for the observed pH-sensitivity of pro-enzyme cleavage in (trypanosomal) CathL-like proteases.

Published

2021

14. 大腸菌によるproMTG 発現精製と圧力変性

Subjects

蛋白質の圧力変性, プロ酵素, proenzyme, pressure-induced unfolding, microbial transglutaminase, 微生物トランスグルタミナーゼ

Abstract

Understanding of pressure effect on conformational change of proteins will allow a method by which enzymatic activities are freely manipulated by pressure application. For this goal, we investigated the pressure effect on the proenzyme of microbial transglutaminase（ MTG）. First, we examined the E. coli protein expression system. Then, we found an effective expression conditions. Subsequently, we measured the pressure-induced unfolding of the obtained proMTG. The results indicate that the native conformation of proMTG has a relatively low volume, indicating that structural rigidity is enhanced in the proenzyme state. We suppose that the enhanced rigidity likely contribute to the suppression of its enzymatic activity.酵素活性は加圧条件下で変化することが知られている。圧力のこの効果の分子的なメカニズムを理解し加圧による酵素機能の制御が可能になれば、幅広い応用が予想される。そこで、我々は加圧による微生物由来トランスグルタミナーゼ（ MTG）の構造への影響を調べることを目指した。タンパク質架橋化酵素、トランスグルタミナーゼ（TG）は幅広く生物界に存在し、基質タンパク質どうしを架橋する機能を持つ酵素である。はじめに我々はMTG のプロ酵素であるproMTG の大腸菌による大量発現の系の確立を目指した。発現条件検討の結果、20℃で長時間の発現誘導を行うと、正しい構造を持った状態で発現することが分かり、効率の良いproMTG 発現条件を決定できた。得られたproMTG を用いて圧力蛍光測定実験を行ったところ、圧力感受性が非常に低いことが分かった。これは変性に伴う体積変化（ΔV）の絶対値が小さいことを示す。一般的に変性に伴い、蛋白質分子のモル体積は減少し、天然状態の分子構造内にボイドと呼ばれる隙間が多いとΔV の絶対値は大きくなるが、proMTG ではプロ配列が酵素の活性部位にクレフトにぴったり挟まっており、これが分子構造に隙間のない状態にしているため低いΔV が得られたと考えられる。構造が密になることでpro 状態の分子の剛直性を上げ、その結果酵素活性が抑制されているものと考えられる。

Published

2016

15. Protective effects of calpain inhibitor for prolonged hypothermic cardiac preservation.

Author

Saito, Takayuki, Mishima, Akira, Asano, Miki, Ukai, Tomohiko, Yamamoto, Shigeki, Kunimatsu, Mitoshi, Sasaki, Makoto, and Manabe, Tadao

Abstract

Purpose: For successful organ transplantation, it is important to properly preserve the donor organ. This study was carried out to investigate tissue damage generated by the activation of calpain during prolonged hypothermic cardiac preservation using specific antibodies for μ- and m-calpain proenzymes, and to ensure the protective effect of calpain inhibitor 1 (N-acetyl-leucyl-leucyl-norleucinal). Methods: Excised rat hearts were divided into two groups: in Group I, the heart was arrested and immersed in University of Wisconsin solution with 20 μM of calpain inhibitor 1 (n = 28) and in Group N, the heart was arrested and immersed in University of Wisconsin solution without calpain inhibitor (n = 27). After a 12-hour preservation period at 4°C, the hearts were reperfused on an isolated perfusion apparatus. Separation of the myocardial calpain isozymes was carried out by DEAE cellulose chromatography and both calpain proenzymes were detected by immunoblotting. Results: The cardiac function was more satisfactorily maintained in Group I in comparison with Group N. Remarkable leakage of creatine kinase, glutamic-oxaloacetic transaminase and lactate dehydrogenase was detected in Group N, while it was efficiently suppressed in Group I. During ischemia, μ-calpain proenzyme decreased in Group N (p < 0.01), but there was no significant change in m-calpain. However, during reperfusion, both μ- and m-calpains decreased more in Group N (p < 0.01). Conclusion: Activation of calpain proenzymes and a decrease in cardiac function during preservation and reperfusion were demonstrated. The use of calpain inhibitor to protect against tissue damage was suggested as being useful for the prolonged preservation of the heart. [ABSTRACT FROM AUTHOR]

Published

1999

16. Folding and activation of human procathepsin S from inclusion bodies produced in <em>Escherichia coli</em>.

Author

Kopitar, Gregor, Dolinar, Marko, Štrukelj, Borut, Pungerčar, Jože, and Turk, Vito

Subjects

*ESCHERICHIA coli, *BENZOATES, *ENZYMES, *CATALYSTS, *GEL permeation chromatography, *RECOMBINANT antibodies

Abstract

Human procathepsin S was produced in the form of insoluble inclusion bodies in Escherichia coli using an inducible T7-based expression system. After cell disruption, the dissolved inclusion body proteins were S-sulphonated with 2-nitro-5-thiosulphobenzoate and purified by gel filtration. Recombinant procathepsin S was renatured at pH 7.6 by a two-step dilution which significantly increased the yield of production compared to single-step dilution. The proenzyme was autocatalytically processed to active cathepsin S at pH 4.5 in the presence of an excess of cysteine and catalytic amounts of dexiran sulphate. Most of the loss of procathepsin S occurred during folding probably because of aggregation. Concentrations lower than 20 μg/ml of procathepsin S were necessary to minimise such aggregation. The recombinant cathepsin S was catalytically active on fluorogenic substrates and had kinetic properties similar to those of recombinant enzyme produced in yeast. The expression, renaturation, and activation procedures used enable the production of up to 2 mg of catalytically active recombinant human cathepsin S/I fermentation. [ABSTRACT FROM AUTHOR]

Published

1996

17. Structure, interdomain dynamics, and pH-dependent autoactivation of pro-rhodesain, the main lysosomal cysteine protease from African trypanosomes.

Author

Johé P, Jaenicke E, Neuweiler H, Schirmeister T, Kersten C, and Hellmich UA

Subjects

Enzyme Activation, Hydrogen-Ion Concentration, Models, Molecular, Protein Domains, Cysteine Endopeptidases chemistry, Cysteine Endopeptidases metabolism, Enzyme Precursors chemistry, Enzyme Precursors metabolism, Trypanosoma brucei rhodesiense enzymology

Abstract

Rhodesain is the lysosomal cathepsin L-like cysteine protease of Trypanosoma brucei rhodesiense, the causative agent of Human African Trypanosomiasis. The enzyme is essential for the proliferation and pathogenicity of the parasite as well as its ability to overcome the blood-brain barrier of the host. Lysosomal cathepsins are expressed as zymogens with an inactivating prodomain that is cleaved under acidic conditions. A structure of the uncleaved maturation intermediate from a trypanosomal cathepsin L-like protease is currently not available. We thus established the heterologous expression of T. brucei rhodesiense pro-rhodesain in Escherichia coli and determined its crystal structure. The trypanosomal prodomain differs from nonparasitic pro-cathepsins by a unique, extended α-helix that blocks the active site and whose side-chain interactions resemble those of the antiprotozoal inhibitor K11777. Interdomain dynamics between pro- and core protease domain as observed by photoinduced electron transfer fluorescence correlation spectroscopy increase at low pH, where pro-rhodesain also undergoes autocleavage. Using the crystal structure, molecular dynamics simulations, and mutagenesis, we identify a conserved interdomain salt bridge that prevents premature intramolecular cleavage at higher pH values and may thus present a control switch for the observed pH sensitivity of proenzyme cleavage in (trypanosomal) CathL-like proteases., Competing Interests: Conflict of interest The authors declare that they have no conflicts of interest with the contents of this article., (Copyright © 2021 The Authors. Published by Elsevier Inc. All rights reserved.)

Published

2021

18. Propeptide of the metalloprotease ofBrevibacillus brevis7882 is a strong inhibitor of the mature enzyme

Author

A. B. Shevelev, Tatiana F. Gorozhankina, Galina G. Chestukhina, and A. V. Serkina

Subjects

Molecular Sequence Data, Biophysics, Heterologous, Tight-binding inhibition, medicine.disease_cause, Biochemistry, Structural Biology, Escherichia coli, Genetics, medicine, Brevibacterium, Brevibacillus brevis, Amino Acid Sequence, Enzyme Inhibitors, Protein Precursors, Protein precursor, Molecular Biology, chemistry.chemical_classification, Metalloproteinase, Brevibacillus, biology, Metalloendopeptidases, Cell Biology, biology.organism_classification, Molecular biology, Recombinant Proteins, Enzyme, chemistry, Proenzyme, Covalent bond

Abstract

A metalloprotease gene of Brevibacillus brevis (npr) was expressed in Escherichia coli in a soluble form as native Npr precursor. A significant fraction of the precursor was spontaneously processed, producing the N-terminal propeptide and the mature enzyme. A strong inhibition of the mature Npr by its own propeptide in the crude lysate was observed even in the absence of the covalent linkage between them. Pure precursor, propeptide and the mature Npr were isolated and kinetic parameters of the mature enzyme inhibition by the propeptide were determined. The inhibition is of the tight-binding competitive type with Ki 0.17 nM. Inhibition of metalloproteases from Brevibacillus megaterium and thermolysine by the heterologous propeptide of the Npr from B. brevis was much weaker or none.

Published

1999

19. Role of the proregion in the production and secretion of the Yarrowia lipolytica alkaline extracellular protease

Author

Emmanuelle Fabre, M C Lopez, Jean-Marc Nicaud, Claude Gaillardin, Institut francilien recherche, innovation et société (IFRIS), and Ministère de l'Education nationale, de l’Enseignement supérieur et de la Recherche (M.E.N.E.S.R.)-Institut National de la Recherche Agronomique (INRA)-École des hautes études en sciences sociales (EHESS)-OST-Université Paris-Est Marne-la-Vallée (UPEM)-ESIEE Paris-Centre National de la Recherche Scientifique (CNRS)

Subjects

Signal peptide, Glycosylation, glycosylation, medicine.medical_treatment, Blotting, Western, Molecular Sequence Data, Restriction Mapping, Biology, Biochemistry, chemistry.chemical_compound, Yeasts, Zymogen, medicine, délétion, Secretion, Amino Acid Sequence, proenzyme, [SDV.BBM.BC]Life Sciences [q-bio]/Biochemistry, Molecular Biology/Biochemistry [q-bio.BM], Site-directed mutagenesis, levure, Molecular Biology, ComputingMilieux_MISCELLANEOUS, Protease, maturation, Serine Endopeptidases, activité enzymatique, Structural gene, Temperature, protéase, Yarrowia, Cell Biology, biology.organism_classification, [SDV.BBM.BC]Life Sciences [q-bio]/Biochemistry, Molecular Biology/Biomolecules [q-bio.BM], chemistry, protéine, génie génétique, Electrophoresis, Polyacrylamide Gel, mutation, Oligonucleotide Probes, yarrowia lipolytica, Plasmids, gène de structure

Abstract

The yeast Yarrowia lipolytica secretes an alkaline extracellular protease (AEP). It is first synthesized as a precursor comprising a putative signal peptide, a stretch of 10 X-Ala or X-Pro sequences that are substrates for a dipeptidyl aminopeptidase, a large pro-region that contains a glycosylation site and two Lys-Arg sites that can be cleaved by a KEX2-like endoprotease and finally the mature protease itself. A defect in the XPR6 (KEX2-like) gene results in the secretion of an inactive proenzyme (Matoba, S., and Ogrydziak, D. M. (1989) J. Biol. Chem. 264, 6037-6043), showing that the proregion inhibits protease activity. To determine whether the proregion plays an additional role in protease secretion, we have generated deletions and point mutations in the corresponding region of the structural gene. In this paper we examine the effects of these mutations on AEP secretion and maturation and show that the proregion is essential for its secretion. All deletions affecting the proregion resulted in the intracellular accumulation of unprocessed precursors. Deletion of the glycosylation site in the proregion resulted in the production of an unglycosylated precursor that was secreted and matured correctly at 18 degrees C but accumulated in the cells at 28 degrees C. From these results, we propose that the AEP prosequence plays an additional essential role in guiding the proper folding of the protein into a conformation compatible with secretion.

Published

1991

20. THE PROENZYME THERAPY OF SARCOMA S-180

Author

KAISEROVÁ, Pavlína

Subjects

terapie, proenzym, cancer, proenzyme, sarkom, rakovina, therapy, sarcoma

Abstract

Aim of this study was to find out the influence of proenzyme therapy on the growth of sarcoma S-180 and survival time, her optimization and finding the mechanism.

Published

2008

21. Preprosubtilisin Carlsberg processing and secretion is blocked after deletion of amino acids 97-101 in the mature part of the enzyme

Author

Schülein, Ralf, Kreft, Jürgen, Gonski, Sigrid, and Goebel, Werner

Published

1991

22. Structural Studies of the Serine-Carboxyl Proteinase Kumamolisin and the Metallopeptidase Peptidyl-Dipeptidase Dcp

Author

Comellas Bigler, Mireia, Huber, Robert (Prof. Dr. Dr. h.c.), and Hiller, Wolfgang (Prof. Dr.)

Subjects

Kumamolisin, Subtilase, Proenzyme, Peptidyl-Dipeptidase Dcp, Dipeptidase, Metallopeptidase, Krystallstruktur, subtilase, proenzyme, peptidyl-dipeptidase Dcp, dipeptidase, metallopeptidase, crystal structure, ddc:540, Chemie

Abstract

The crystal structure of the serine-carboxyl proteinase kumamolisin was solved in native form and in complex with two aldehyde inhibitors. The structures show a subtilisin-like fold with a modified catalytic triad (Ser-Glu-Asp), which allows proteolytic activity at acidic pH. The crystal structure analysis of the full-length prokumamolisin S278A exhibits an uncleaved linker segment that extends along the active-site cleft in a substrate-like manner. This evidence points to an autocatalytic cleavage as the first activation mechanism step for the subtilase superfamily. Peptidyl-dipeptidase Dcp was overexpressed, purified and crystallized and the structure of the enzyme was solved in complex with the octapeptide-inhibitor N-1450 with MAD techniques. The crystal structure allows the detailed description of the active-site pockets and the explanation of the substrate specificity. Moreover, the comparison of the ligand-bound structure of Dcp with the structures of the human agiotensin-I-coverting enzyme and neurolysin suggests a ligand-induced hinge-bending mechanism for the whole family. Die Kristallstrukturen von Kumamolisin, einer Serin-Carboxyl Proteinase, wurden in nativer Form und in Komplex mit zwei Inhibitoren gelöst. Die Strukturen zeigen eine Subtilisin-artige Faltung mit modifizierter katalytischer Triade (Ser-Glu-Asp), die eine Proteinaseaktivität bei saurem pH ermöglicht. Die strukturelle Analyse des Volllängen Prokumamolisin S278A weist ein ungespaltenes Linkersegment auf, das durch das aktive Zentrum verläuft und einen autokatalytischen Aktivierungsmechanismus für die Subtilase Superfamilie vermuten lässt. Im Rahmen dieser Arbeit wurde darüber hinaus die Peptidyl-Dipeptidase Dcp überexprimiert, gereinigt und kristallisiert und die Struktur in Komplex mit dem Oktapeptid-inhibitor N-1450 mittels MAD gelöst. Die Struktur erlaubt neben der Beschreibung der Substratbindetaschen und der Spezifität, im Vergleich mit den verwandten Strukturen von Angiotensin-I-Converting Enzyme und Neurolysin auch Rückschlüsse auf einen Ligandeninduzierten Schließmechanismus.

Published

2007

23. The binding of tissue prokallikrein to isolated human neutrophils

Author

Jonas Anders and Michael Kemme

Subjects

Neutrophils, Molecular Sequence Data, Tissue kallikrein, Biophysics, Surface binding, In Vitro Techniques, Endocytosis, Biochemistry, Neutrophil cell binding, immune system diseases, Structural Biology, Genetics, Humans, Amino Acid Sequence, Lymphocytes, cardiovascular diseases, Molecular Biology, Enzyme Precursors, urogenital system, Chemistry, Neutrophil, Tissue prokallikrein, Kallikrein, Cell Biology, Recombinant Proteins, biological factors, In vitro binding, Kinetics, Proenzyme, Kallikreins, Protein Binding, circulatory and respiratory physiology

Abstract

We have investigated the binding of human tissue kallikrein and the corresponding proenzyme to isolated human lymphocytes and neutrophils, respectively, by the means of steady-state binding assays. It was demonstrated that only prokallikrein bound to washed neutrophils in a time-dependent, specific and saturable manner, whereas in vitro binding of activated kallikrein to neutrophils or lymphocytes could be excluded. Our data provide strong evidence for the specific interaction of prokallikrein with intact human neutrophils and indicate a neutrophil surface binding site for the tissue kallikrein precursor which could be involved in kallikrein endocytosis and selective prokallikrein-to-kallikrein conversion.

Published

1994

24. Characterisation and preliminary X-ray diffraction analysis of human pancreatic procarboxypeptidase A2

Author

Francesc X. Avilés, Josep Vendrell, Lluis Catasus, David Reverter, Isabel Garcia-Saez, and Miquel Coll

Subjects

Carboxypeptidases A, Stereochemistry, Biophysics, Peptide, Carboxypeptidases, Crystallography, X-Ray, Biochemistry, Pichia, Pichia pastoris, Substrate Specificity, Hydrophobic effect, chemistry.chemical_compound, Structural Biology, Genetics, Aromatic amino acids, Animals, Humans, Molecular Biology, Carboxypeptidase A1, Carboxypeptidase A2, chemistry.chemical_classification, Enzyme Precursors, Crystallography, biology, Tryptophan, Cell Biology, biology.organism_classification, Chromatography, Ion Exchange, Carboxypeptidase, Recombinant Proteins, Kinetics, chemistry, Proenzyme, biology.protein, Cattle, Crystallization, Oligopeptides, Monoclinic crystal system

Abstract

Human procarboxypeptidase A2 has been expressed in a Pichia pastoris heterologous system and purified by hydrophobic interaction and anion exchange chromatographies. The hydrolytic action of carboxypeptidase A2 on peptide substrates with different lengths and residues at the C-terminus was analysed, and a preference towards long substrates with aromatic amino acids in their C-terminal end, particularly tryptophan, was found; with such substrates its activity is similar or higher than that of bovine carboxypeptidase A1. Procarboxypeptidase A2 has been crystallised using a vapour diffusion approach; the crystals obtained belong to the monoclinic system, spacegroup P21, and present one procarboxypeptidase A2 molecule per asymmetric unit. The crystals diffract beyond 1.8 Å resolution and are suitable for detailed X-ray analysis.

Published

1998

25. Crystal structures of human procathepsin B at 3.2 and 3.3 Angstroms resolution reveal an interaction motif between a papain-like cysteine protease and its propeptide

Author

Vito Turk, M. Podobnik, Dušan Turk, Marko Dolinar, and Robert Kuhelj

Subjects

Models, Molecular, Stereochemistry, Protein Conformation, Biophysics, Crystal structure, Crystallography, X-Ray, Biochemistry, Cathepsin B, chemistry.chemical_compound, Structure-Activity Relationship, Cathepsin O, Structural Biology, Papain, Genetics, Humans, Protein precursor, Molecular Biology, chemistry.chemical_classification, Enzyme Precursors, Binding Sites, biology, Chemistry, Active site, Cell Biology, Cysteine protease, Peptide Fragments, Crystallography, Cysteine Endopeptidases, Enzyme, Proenzyme, biology.protein

Abstract

A wild-type human procathepsin B was expressed, crystallized in two crystal forms and its crystal structure determined at 3.2 and 3.3 A resolution. The structure reveals that the propeptide folds on the cathepsin B surface, shielding the enzyme active site from exposure to solvent. The structure of the enzymatically active domains is virtually identical to that of the native enzyme [Musil et al. (1991) EMBO J. 10, 2321–2330]: the main difference is that the occluding loop residues are lifted above the body of the mature enzyme, supporting the propeptide structure.

Published

1996

26. Secretion of Mucor rennin, a fungal aspartic protease of Mucor pusillus, by recombinant yeast cells

Author

Yamashita, Takashi, Tonouchi, Naoto, Uozumi, Takeshi, and Beppu, Teruhiko

Published

1987

27. Pyruvoyl-Dependent Arginine Decarboxylase from Methanococcus jannaschii Crystal Structures of the Self-Cleaved and S53A Proenzyme Forms

Author

Tolbert, W.David, Graham, David E., White, Robert H., and Ealick, Steven E.

Subjects

pyruvoyl-dependent enzymes, self-cleavage, decarboxylase, polyamine biosynthesis, proenzyme, agmatine

Abstract

The three-dimensional structure of pyruvoyl-dependent arginine decarboxylase from Methanococcus jannaschii was determined at 1.4 Å resolution. The pyruvoyl group of arginine decarboxylase is generated by an autocatalytic internal serinolysis reaction at Ser53 in the proenzyme resulting in two polypeptide chains. The structure of the nonprocessing S53A mutant was also determined. The active site of the processed enzyme unexpectedly contained the reaction product agmatine. The crystal structure confirms that arginine decarboxylase is a homotrimer. The protomer fold is a four-layer αββα sandwich with topology similar to pyruvoyl-dependent histidine decarboxylase. Highly conserved residues Asn47, Ser52, Ser53, Ile54, and Glu109 are proposed to play roles in the self-processing reaction. Agmatine binding residues include the C terminus of the β chain (Ser52) from one protomer and the Asp35 side chain and the Gly44 and Val46 carbonyl oxygen atoms from an adjacent protomer. Glu109 is proposed to play a catalytic role in the decarboxylation reaction.

28. Proenzyme to urokinase-type plasminogen activator in the mouse in vivo

Author

J Grøndahl-Hansen, V. Kielberg, L. Skriver, L.S. Nielsen, Keld Danø, and Peter A. Andreasen

Subjects

Male, Placenta, Immunoblotting, Biophysics, Plasminogen activator, Kidney, Biochemistry, Immunoenzyme Techniques, Mice, Vas Deferens, Structural Biology, In vivo, Pregnancy, Extracellular fluid, Genetics, medicine, Animals, Molecular Biology, Lung, Urokinase, Gel electrophoresis, Enzyme Precursors, Mice, Inbred BALB C, Chemistry, Urokinase-type, Lewis lung carcinoma, Cell Biology, Molecular biology, Urokinase-Type Plasminogen Activator, Electrophoresis, Proenzyme, Gastric Mucosa, Electrophoresis, Polyacrylamide Gel, Female, Intracellular, medicine.drug

Abstract

We have investigated whether urokinase-type plasminogen activator (u-PA) is present in the mouse in vivo as the proenzyme or as the active enzyme. u-PA in extracts of various murine tissues was of a one-polypeptide chain form with an electrophoretic mobility indistinguishable from purified proenzyme (pro-u-PA), as demonstrated by SDS-polyacrylamide gel electrophoresis under recucing conditions followed by immunoblotting. No 2-chain u-PA was detected in any of the extracts (detection limit 10% of that of one-chain u-PA). In bladder urine more than half of the u-PA was of the one-chain form. Together with previous immunocytochemical studies of the normal murine tissues and studies of the Lewis lung carcinoma, the present results indicate that in these tissues the one-chain proenzyme is the predominant form of u-PA in intracellular stores and for the first time demonstrates that at least in some cases the one-chain form constitutes a sizeable fraction of the u-AP in extracellular fluids in the intact organism.

Published

1985

29. Identification of an Enzyme in Human Kidney that Correctly Processes Prorenin

Author

Shinagawa, Tatsuo, Do, Yung S., Baxter, John D., Carilli, Cynthia, Schilling, James, and Hsueh, Willa A.

Published

1990

30. Lipases of the Euphorbiaceae Family: Purification of a Lipase From Euphorbia characias Latex and Structure-Function Relationships with the B Chain of Ricin

Published

1994

31. Mutant Defective in Processing of an Enzyme Located in the Lysosome-Like Vacuole of Saccharomyces cerevisiae

Author

Hemmings, Brian A., Zubenko, George S., Hasilik, Andrej, and Jones, Elizabeth W.

Published

1981