Transcription Pattern Comparison Of Two Ubiquitin Specific Proteases (usp6 And Usp32)

Akhavan Tabasi, Shiva

01 August 2007

ABSTRACT TRANSCRIPTION PATTERN COMPARISON OF TWO UBIQUITIN SPECIFIC PROTEASES (USP6 AND USP32) Akhavan Tabasi, Shiva M.Sc., Department of Biology Supervisor: Assist. Prof. Dr. A. Elif Erson August 2007, 93 pages Breast cancer is the most common type of cancer among women worldwide. The incidence of breast cancer is 1 in 8 among women. Usually loss of tumor suppressor genes and overexpression of proto-oncogenes are known to be involved during mammary tumorigenesis. USP32 (Ubiquitin Specific Protease 32) gene is located on chromosomal band 17q23, a region of amplification in breast cancer. Gene amplification is known to be a common mechanism in breast cancer cells, through which proto-oncogenes are overexpressed and contribute to tumor progression. Presence of multiple oncogene candidates on 17q23 requires individual characterization of these genes. USPs (Ubiquitin Specific Protease), have various roles in protein degradation pathways (e.g / by editing the ubiquitin chains, recycling of ubiquitin, v deubiquitinating the target proteins and inhibiting their degradation by the proteasome). Deregulated expression of USPs is likely to interfere with the degradation of many key regulatory proteins in the cell. Therefore, USP32 becomes an interesting oncogene candidate that may have roles in protein degradation pathways based on the fact that it is located on an amplicon region and that it is overexpressed in breast tumors. On the other hand, USP6 (Ubiquitin Specific Protease 6), a known oncogene on 17p13, is also a deubiquitinating enzyme, with conserved histidine and cysteine domains, which are also shared by USP32. Interestingly there is a 97% sequence similarity between bases 3,197 to 7,831 of USP6 and 2,390 to 7,024 of USP32 gene. In this study, we aimed to investigate the expression patterns of USP32 and USP6 (including alternative transcripts) in breast tissue to avoid any possibility of overlapping functions of two enzymes due to their high sequence similarity. In addition, we sub-cloned USP32 gene into TOPO-TA vector, so that further functional studies (e.g / localization and overexpression) can be performed. Further characterizations of Ubiquitin Specific Protease 32, may help us understand its importance in the protein degradation pathway during breast tumorigenesis.

QH Genetics 426-470

Effects Of Ph On Human Growth Hormone Production By Pichia Pastoris Considering The Expression Levels Of Regulatory Genes

Bayraktar, Eda

01 August 2009

In this study, the aim was to investigate the effects of pH on therapeutically important protein, recombinant human growth hormone (rhGH), production by Pichia pastoris considering the expression levels of regulatory genes. In this frame, firstly the host microorganism was selected between two different methanol utilization phenotypes of P. pastoris, Mut+ and MutS on media containing glycerol/methanol or sorbitol/methanol. The highest rhGH production, 120 g L-1, and hGH gene expression, 9.84x109 copies mg-1 CDW, were achieved in the medium containing 30 g L-1 sorbitol and 1% (v/v) methanol by P. pastoris hGH-Mut+ strain. Thereafter, effects of pH on rhGH production and stability were investigated in laboratory scale bioreactors. RhGH was more stable at pH 5.0. Throughout the production, it is seen that medium of pH decreased. Thereafter, effects of pH on rhGH were investigated in pH controlled pilot-scale bioreactor. In addition to rhGH concentration, AOX intracellular enzyme activity, extracellular proteases concentrations / expression levels of hGH, AOX, pep4, prb1 and prc1 genes were determined. The highest cell concentration was obtained as 53 g L-1 at pH 6.0 but hGH concentration was found as 24 mg L-1 at t=24 h. The highest rhGH concentration was obtained as 271 g L-1 with 42 g L-1 cell density at pH 5.0 in medium containing sorbitol at t=24 h. At this condition, the overall product and cell yield on total substrate were found as 2.08 mg g-1 and 0.15 g g-1. Furthermore, the highest expression levels of hGH and AOX were attained at pH 5.0. Moreover, by keeping pH at 5.0, expression levels of three types of vacuolar proteases were minimized.

Quantifying Localizations and Dynamics in Single Bacterial Cells

Landgraf, Dirk

06 October 2014

Levels of macromolecules fluctuate both spatially and temporally in individual cells. Such heterogeneity could be exploited for bet hedging in uncertain environments, or be suppressed by negative feedback if perturbations are deleterious. For the master stress-response regulator in Escherichia coli, RpoS, both of these scenarios have been suggested. RpoS levels are also exceedingly low and controlled by the ClpXP protease, which reportedly displays extreme spatial heterogeneity. However, little is known quantitatively about RpoS dynamics. This is partly because no functional protein fusions exist, but also because the quantitative tools for studying fluctuations and localizations are limited, particularly ones that can be independently validated. Here I develop such methods and begin applying them to RpoS. Protein localization measurements increasingly rely on fluorescent protein fusions and are difficult to verify independently. I designed a non-intrusive method for validating localization patterns in live bacterial cells by exploiting post-division heterogeneity in downstream processes. Applying this assay to the ClpXP protease, widely reported to form biologically relevant foci, revealed in fact that the protease molecules are not specifically localized inside cells, as confirmed by four independent methods. I further evaluated 20+ commonly used fluorescent reporters and found that many cause severe mislocalization when fused to homo-oligomers, likely due to avidity effects. Further reinvestigating other foci-forming proteins strongly suggests that the previously reported foci were all caused by the fluorescent proteins used. For mRNAs – which are often present in low numbers per cell and major sources of non-genetic heterogeneity – existing single-cell assays have unknown accuracy: the experimental counting errors could completely over-shadow the natural variation. I therefore optimized and cross-evaluated two single-molecule mRNA detection methods. Several problems were identified and solutions discussed. I succeeded in building a functional RpoS protein fusion, and used bulk methods to show that the RpoS feedback loop is effectively not operating during exponential- phase growth. Mathematical analyses and initial experiments in a microfluidic device further suggest that the RpoS system has several unusual properties contributing towards extremely fast stress response. A stochastic analysis further suggests that the RpoS feedback loop cannot suppress spontaneous fluctuations, and preliminary experiments indicate that large deviations might indeed play important roles.

Clp proteases

RpoS

systematic biology

biophysics

microbiology

fluorescent proteins

microscopy

stress response

protein degradation

Mechanisms of field-evolved Cry1Ac resistance in Helicoverpa zea

Zhang, Min

January 2014

Global large-scale adoption of Bt transgenic crops has provided effective management of key insect pests and have greatly reduced insecticide use. However, some field populations of several insect species have evolved resistance to Bt crops in the field, which threatens the continuing success of Bt crops. The cotton bollworm (Helicoverpa zea) is among the first pest reported to have field-evolved resistance to Cry1Ac and Cry2Ab, but the underlying mechanisms remain largely unknown. To determine the current resistance status of the field populations of H. zea and to elucidate the mechanisms of Bt resistance in this pest, I conducted a series of experiments including bioassays of field populations as well as biochemical and molecular comparisons of midgut proteases and putative Cry1Ac receptors between Cry1Ac-susceptible and -resistant strains. Diet incorporation bioassays of six field populations of H. zea collected from Tifton, Georgia USA in 2008 and 2009 indicated that, comparing to LAB-S, a susceptible laboratory strain, all six field populations were significantly resistant to Cry1Ac toxin and one of three field strains was significantly resistant to Cry2Ab toxin. Across the five populations, survival on leaf-discs producing Cry1Ac was positively correlated to the lethal concentration that kills 50% of the population (LC₅₀) for Cry1Ac from diet bioassays. These results support previous findings of field-evolved resistance to Bt crops in H. zea and suggest an overall increase in resistance to Cry1Ac from 2002 to 2009.One of the six field population, which was designed as GA and had 55-fold resistance to Cry1Ac, was further selected with Cry1Ac in the laboratory to generate a more resistant strain, which was designated as GA-R and had 560-fold resistance to Cry1Ac. Total protease activity of the midgut extracts from GA-R and GA strains is significantly lower than that from the susceptible laboratory strain LAB-S. Among the proteases contributing to the total activity, trypsin-like and chymotrypsin-like activities of GA-R and GA midgut extracts are significantly lower than that from the susceptible strain, while no difference in elastase-like activity is evident. Decreased proteolytic activity was correlated to the decreased Cry1Ac activation rate of midgut extracts of the GA-R and GA strains. Cytotoxicity assays with H. zea midgut cells show that the product of Cry1Ac protoxin digested with GA-R and GA midgut extracts has significantly lower cytotoxicity when compared with that digested with the susceptible strain midgut extracts. Transcriptional analysis of a limited number of protease genes did not identify specific proteases involved in the decline in Cry1Ac activation in GA-R and GA. These results indicate that the decreased Cry1Ac activation rate by midgut proteases is involved in the field originated Cry1Ac resistance in the H. zea GA-R and GA strains. I also compared the cDNA sequences and expression levels of the putative Cry1Ac receptors cadherin, aminopeptidase 1 (APN1), alkaline phosphatase 2 (ALP2) and ATP-binding cassette subfamily C member 2 (ABCC2) in LAB-S and GA-R. No indels (insertions and deletions) were found in the cDNA sequences of the resistant alleles of the four receptors, relative to those of the susceptible alleles. While there were no amino acid point mutations in the resistant alleles of ALP2 and ABCC2, we found 2 and 14 consistent amino acid point mutations in the resistant alleles of cadherin and APN1, respectively. However, neither cadherin nor APN1 point mutations were genetically linked to Cry1Ac resistance in GA-R. Quantitative RT-PCR analysis revealed no differences in the transcripts of the four receptors between the two strains. Taken together, these results indicate that the four receptors are not involved in Cry1Ac resistance in the GA-R strain of H. zea.

Cry1Ac receptor

Field-evolved resistance

Helicoverpa zea

Proteases

Entomology

Bacullus thuringiensis

Synthesis of Caseinolytic Protease Agonists Towards the Synthesis of the Natural Acyldepsipeptides

Cossette, Michele

30 November 2011

Caseinolytic protease (ClpP) is a cylindrical protease forming the core of protein degradation machinery in eubacteria. ClpP is tightly regulated and is non-functional without a member of the Clp-ATPases. A new class of antibiotics, termed ADEPs, bind to ClpP and allow for activation without the Clp-ATPases; leading to cell death. A more efficient synthetic route to the ADEPs utilizing solid-phase peptide synthesis was investigated. A linear peptide was synthesized, however attempts to close the depsipeptidic macrocycle via macrolactonization failed. Further attempts of assembling a branched depsipeptide for ring closure via a macrolactamization resulted in products that were not stable to cleavage conditions. A group of molecules termed Activators of Self-Compartmentalizing Proteases (ACP) were identified through a screen for activity towards ClpP. Compound ACP1 was synthesized along with twelve analogs and their activity towards ClpP evaluated. The project resulted in a compound with a higher activity than its natural product counterpart.

Chemistry

Medicinal chemistry

ClpP

depsipeptide

antibiotic

caseinolytic protease

ACP

0490

Expression Of Recombinant Acid Protease (thermopsin) Gene From Thermoplasma Volcanium

Koyuncu, Bilsev

01 January 2006

Acid proteases, commonly known as aspartic proteases are degredative enzymes which catalyze the cleavage reaction of peptide bonds in proteins with a pH optimum in the acidic range (pH 3-4). Acid proteases have crucial roles in metabolism. Moreover, they are used in different fields of industry. Thermophilic microorganisms, especially archaea, gain special interest because of their thermal stability for both fundamental and industrial researches. Thermopsin is an extracellular acid protease and a member of A5 family of proteases. This thermophilic enzyme has no characteristic active aspartyl residue, is insensitive to pepstatin and no apparent sequence homology to other acid proteases and therefore represents a new class of acid proteases. Thermophilic archaeal strain Thermoplasma volcanium GSS1 (optimum temperature 550C and pH 2.7) in the genome has a putative thermopsin gene encoding 998 amino acid enzyme. In this study thermopsin gene from Thermoplasma volcanium was expressed in E. coli as fusion with 6xHis tag under the control of T5 transcription/translation system. Putative thermopsin gene from Thermoplasma volcanium was amplified by PCR method using two primer sets and cloned. A 3080 bp and a 3070bp PCR products were obtained by using TP1/TP2 primer set (thermopsin gene with the start codon) and TP1&rsquo / /TP2 primer set (thermopsin gene missing start codon) respectively. PCR amplified thermopsin genes pDrive and pUC18 vectors in E. coli TG1 were cloned using and then cloned genes were sub-cloned directionally into pQE triple vector set for expression. In these expression vectors, cloned genes are placed downstream of a 6XHis tag to produce an expression fusion. E.coli strains (M15[pREP4], SG13009[pREP4], and TG1) used as hosts. Recombinant colonies screened by colony blot/hybridization method based on immunological detection of the expressed 6XHis tag fusion by Anti-His HRP conjugates which are specific for 6xHis tag, and DAB chromogenic substrate was used for colony blot procedure. PCR amplified thermopsin gene containing 3080bp could not expressed in pQE30 and 31 vectors in TG1 strains. It is thought that pQE32 open reading frame can be true for thermopsin gene (3080bp). Three expression constructs, pQE31-1, pQE31-4 and pQE31-6 plasmids containing PCR amplified 3070bp thermopsin gene were confirmed as true recombinant plasmids according to both colony blot hybridization result and restriction digestion profile the agarose gel.

QH Genetics 426-470

Metabolisme protéico-muscular a l'obesitat

Yebras Cañellas, Martí

29 March 1995

Resultats anteriors mostraven que rates amb obesitat nutricional ("dieta de cafeteria") tenien un perfil metabòlic d'estalvi de nitrogen, mentre que pel model d'obesitat genètica (Zucker (fa/fa)) es suggeria un malbaratament de nitrogen. Es mostra una reducció en la taxa de recanvi d'alanina per l'animal sencer en el model d'obesitat nutricional, i un increment en el model d'obesitat genètica. La fracció anabòlica de la taxa és la responsable d'aquestes alteracions, suggerint perturbacions en el metabolisme de proteïnes.S'estudiaren músculs individuals, escollits per a assolir un rang ampli de perfils fibril·lars. L'obesitat genètica causa una reducció del contingut en proteïna, principalment en els músculs lents i oxidatius, la qual cosa correlaciona amb un increment en l'activitat µ-calpaïna, congruent amb una taxa de degradació de proteïnes incrementada Per contra, a l'obesitat nutricional, s'observa un increment en el contingut de proteïnes, fonamentalment en els músculs ràpids i glicolítics que no es va poder associar a variacions en l'activitat del sistema calpaïna, congruent amb una taxa de síntesi de proteïnes incrementada.

calmodulin

proteases

Múscul

Dieta de cafeteria

Obesitat

beta-adrenèrgic

Calpaïnes

metabolisme nitrogenat

Biological functions and regulation of serglycin-dependent mast cell proteases /

Lundequist, Anders,

January 2006

Diss. (sammanfattning) Uppsala : Sveriges lantbruksuniversitet, 2006. / Härtill 4 uppsatser.

Extracellular acid proteases of wine microorganisms : gene identification, activity characterization and impact on wine

Reid, Vernita Jennilee

03 1900

Thesis (MSc)--Stellenbosch University, 2012. / ENGLISH ABSTRACT: Non-Saccharomyces yeasts of oenological origin have previously been associated with spoilage or regarded as undesired yeasts in wine. However, these yeasts have recently come under investigation for their positive contribution towards wine aroma especially when used in sequential or co-inoculated fermentations with Saccharomyces cerevisiae. These yeasts are also known to secrete a number of enzymes that could be applicable in wine biotechnology. Amongst these enzymes are aspartic proteases. The secreted proteases from some non-Saccharomyces yeast may play a role in protein haze reduction, as demonstrated by some authors, while simultaneously increasing the assimilable nitrogen content of the wine for the utilization and growth of fermentative microorganisms. Moreover, the proteases may have an indirect effect on wine aroma by liberating amino acids that serve as aroma precursors. Although many screenings have been performed detecting protease activity in non-Saccharomyces yeasts, no attempts have been made to characterize these enzymes. This study set out to isolate and characterize genes encoding extracellular aspartic proteases from non-Saccharomyces yeasts. An enzymatic activity screening of a collection of 308 Saccharomyces and non-Saccharomyces yeasts, isolated from grape must, was performed. The aspartic protease-encoding genes of two non- Saccharomyces yeasts, which showed strong extracellular proteolytic activity on plate assays, were isolated and characterized by in silico analysis. The genes were isolated by employing degenerate and inverse PCR. One gene was isolated from Metschnikowia pulcherrima IWBT Y1123 and named MpAPr1. The other putative gene was isolated from Candida apicola IWBT Y1384 and named CaAPr1. The MpAPr1 gene is 1137 bp long, encoding a 378 amino acid putative protein with a predicted molecular weight of 40.1 kDa. The CaAPr1 putative gene is 1101 bp long and encodes a 367 amino acid putative protein with a predicted molecular weight of 39 kDa. These features are typical of extracellular aspartic proteases. The deduced protein sequences showed less than 40% homology to other yeast extracellular aspartic proteases. By heterologous expression of MpAPr1 in S. cerevisiae, it was confirmed that the gene encodes an extracellular acid protease. The expression of MpAPr1 was shown to be induced in media containing proteins as sole nitrogen source and repressed when a preferred nitrogen source was available. The gene was expressed in the presence of casein, bovine serum albumin (BSA) and grape juice proteins and repressed in the presence of ammonium sulphate. Expression was most induced in the presence of grape juice proteins, which was expected since these proteins are present in the natural habitat of the yeast. A genetic screening confirmed the presence of the MpAPr1 gene in 12 other M. pulcherrima strains isolated from grape juice. The extracellular protease activity of the strains was also visualized on plates. As far as we know, this is the first report on the genetic characterization of secreted aspartic proteases from non-Saccharomyces yeasts isolated from grape must and provides the groundwork for further investigations. / AFRIKAANSE OPSOMMING: Nie-Saccharomyces giste is voorheen met wynbederf geassosieer en hul teenwoordigheid in wyn is ongewens. Hierdie giste is onlangs ondersoek vir hulle positiewe bydrae tot wyn aroma, in veral sekwensiële en ko-inokulerings met Saccharomyces cerevisiae. Sommige van die nie-Saccahromyces giste skei ‘n verskeidenhied ensieme af wat moontlik vir die wynmaker van nut kan wees. Een groep van hierdie ensieme is die aspartiese suurproteases. Soos deur sommige navorsers aangetoon word, kan die proteases die vorming van proteïenwaasverlaging, terwyl dit terselfdertyd die assimilerende stikstofinhoud van die wyn vir die gebruik en groei van fermentasie-mikroörganismes verhoog. Die proteases kan moontlik ook ‘n indirekte uitwerking op die aromaprofiel van die wyn hê deur die vrystelling van aminosure wat as aromavoorlopers dien. Alhoewel baie studies gedoen is wat die ekstrasellulêre teenwoordigheid van proteases bevestig in nie-Saccharomyces giste wat van druiwesap/wyn afkoms is, is daar geen dokumentasie oor die genetiese karakterisering van hierdie ensieme beskikbaar nie. Die doel van hierdie studie was om gene wat aspartiese proteases in nie-Saccharomyces giste enkodeer, te isoleer en gedeeltelik te karakteriseer. ‘n Versameling van 308 Saccharomyces en nie-Saccharomyces giste wat uit druiwe sap geïsoleer is, is gesif vir ensiematiese aktiwiteit deur plaattoetse uit te voer. Twee gene wat aspartiese protease enkodeer, is geïsoleer van twee nie-Saccharomyces giste. Dit hetpositief gedurende die aktiwiteitstoetse getoets en is deur in silico–analise gekarakteriseer. Die gene is deur die uitvoering van gedegenereerde en inverse PKR geïdentifiseer. Een geen is vanaf Metschnikowia pulcherrima IWBT Y1123 geïsoleer en is MpAPr1 genoem, terwyl die ander van Candida apicola IWBT Y1384 geïsoleer en CaAPr1 genoem is. Die MpAPr1-geen is 1137 bp lank en enkodeer ‘n proteïen wat uit 378 aminosure bestaan met ‘n voorspelde molekulêre massa van 40.1 kDa. Daar teenoor is die CaAPr1-geen 1101 bp lank en enkodeer vir ‘n proteïen wat uit 367 aminosure met ‘n molekulêre massa van 39 kDa bestaan. Hierdie eienskappe is kenmerkend van aspartiese protease. Die afgeleide proteïenvolgorde het minder as 40% homologie met ander ekstrasellulêre aspartiese proteases vertoon, wat dui op die nuwigheid van hierdie ensieme. Die MpAPr1-geen is heterologies in S. cerevisiae YHUM272 uitgedruk en dit het bevestig dat die geen inderdaad ‘n ekstrasellulêre aspartiese protease enkodeer. Die MpAPr1-geen is uitgedruk in media wat alleenlik proteïen as stikstofbron bevat het, terwyl dit onderdruk is in gevalle waar ‘n verkose stikstofbron beskikbaar was. Die geen is uitgedruk in die teenwoordigheid van kaseïen, BSA en proteïene afkomstig vanaf druiwesap en in die teenwoordigheid van ammoniumsulfaat onderdruk. Die hoogste uitdrukking was in die teenwoordigheid van druifproteïene. Hierdie proteïene is teenwoordig in die natuurlike habitat van die gis en is dus dalk ‘n bekende stikstofbron vir die gis. ‘n Genetiese sifting het die teenwoordigheid van die MpAPr1-geen in 12 ander M. pulcherrima–rasse, wat ook van wynkundige oorsprong is, bevestig. Die aspartiese protease-aktiwiteit van die 12 rasse is ook op agarplate waargeneem. Na ons wete, is dit die eerste verslag oor die genetiese karakterisering van afgeskeide aspartiese proteases van nie- Saccharomyces giste van wynkundige oorsprong en verskaf die grondslag vir verdere ondersoek.

Non-Saccharomyces yeasts

Extracellular aspartic proteases

Dissertations -- Wine biotechnology

Theses -- Wine biotechnology

Wine and wine making

Wine microbiology

Role FtsH proteas v sinici Synechocystis sp. PCC 6803 / Role of FtsH proteases in the cyanobacterium Synechocystis sp. PCC 6803

KRYNICKÁ, Vendula

January 2015

This thesis focuses on the functional and structural characterization of FtsH proteases in Synechocystis PCC 6803. One of the aims was to determine localization and subunit organization of FtsH homologues in Synechocystis cells using GST and GFP tagged FtsH derivatives. The main result of the thesis is identification of two FtsH hetero-oligomeric complexes and one homo-oligomeric complex in Synechocystis cells. The large part of the thesis is aimed at establishing the role of the first hetero-oligomeric complex, FtsH2/FtsH3, in quality control of Photosystem II and at identification of a mechanism, how its substrate proteins D1 and D2 are recognized. Another part is dedicated to characterization of the second hetero-oligomeric complex, FtsH1/FtsH3, which consists of two essential FtsH homologues and which is here identified as an important regulatory element in maintaining iron homeostasis.