Substrate Specificity and Kinetic Properties of Flavonol-3-O-Glucosyltransferase From Citrus Paradisi

Devaiah, Shivakumar P., McIntosh, Cecelia A.

04 August 2013

Glucosyltransferases (GTs) are enzymes that expedite the incorporation of UDP-activated glucose to a corresponding acceptor molecule. This enzymatic reaction stabilizes structures and affects solubility, transport, and bioavailability of flavonoids for other metabolic processes. Flavonoid glycosides affect taste characteristics in citrus making the associated glucosyltransferases particularly interesting targets for biotechnology applications. Custom design of enzymes requires understanding of structure/function of the protein. The present study focuses on creating mutant flavonol-3-O-glucosyltransferase (F-3-O-GT) proteins using site directed mutagenesis and testing the effect of each mutation on substrate specificity, regiospecificity and kinetic properties of the enzyme. Mutations were selected on the basis of sequence similarity between grapefruit F-3- O-GT, an uncharacterized GT gene in blood orange (98%), and grape F3GT (82%). Grapefruit F-3-O-GT prefers flavonol as a substrate whereas the blood orange sequence is annotated to be a flavonoid 3GT and the grape GTs could glucosylate both flavonols and anthocyanidins. Mutants of F-3-O-GT were generated by substituting N242K, E296K and N242K+E296K and proteins were expressed in Pichia pastoris using the pPICZA vector. Analysis of these mF-3-O-GTs showed that all of them preferred flavonols over flavanone, flavone, isoflavones, or anthocyanidin substrates and showed decrease in enzyme activity of 16 to 51% relative to the wild type F-3- O-GT.

substrate specificity

kinetic properties

flavonol-3-O-glucosyltransferase

citrus paradisi

enzymes

GTs

glucosyltransferases

UDP-activated glucose

Biological Sciences

School of Graduate Studies

Biochemistry

Molecular Biology

Plant Biology

Determination of the Substrate Specificity of the Mutant D344P of Citrus paradisi Flavonol-Specific 3-O-Glucosyltransferase

Spaulding, Nathan, Devaiah, Shivakumar, McIntosh, Cecelia A.

12 April 2017

Plants produce a vast array of secondary metabolites. The phenolic compounds flavonoids are metabolites ubiquitous among plants and are known to aid in processes such as plant reproduction, UV defense, pigmentation and development. In relation to human health, flavonoids have also been found to possess anti-inflammatory, anti-cancer, and anti-oxidant properties. Flavonoids ability to participate in so many interactions is due in part to their subclass variation and further chemical modification. One such modification is glucosylation, where a glucose molecule is added to the flavonoid substrate. The enzymes that catalyze these reactions are known as glucosyltransferases. Citrus paradisi contains a glucosyltransferase that is specific to the 3-O position of flavonols. To further understand the reactions it catalyzes, Cp3-O-GT structure was modeled against an anthocyanidin/flavonol 3 GT found in Vitis vinifera to identify candidate amino acids for mutations. Mutants were then created using site-directed mutagenesis, and one mutant, D344P, was constructed by an aspartate being replaced with a proline based off of the sequence comparison of the original enzymes. Biochemically characterizing the mutant D344P protein will determine whether the mutation has an effect on the substrate specificity of Cp3-O-GT. An initial quickscreening assay using radioactive UDP-glucose as a sugar donor suggested there may have been expansion of substrate acceptance. Confirming time course assays did not support this. Additionally, results of these assays show that D344P protein has decreased activity with flavonols as compared to wild type Cp3-O-GT. with no expansion of substrate specificity. Models suggest that a change in protein conformation has resulted in decreased activity.

substrate specificity

kinetic properties

flavonol-3-O-glucosyltransferase

citrus paradisi

enzymes

GTs

glucosyltransferases

UDP-activated glucose

Biological Sciences

School of Graduate Studies

Biochemistry

Molecular Biology

Plant Biology

Transcriptional Regulation And The Role Of Galactose Metabolism In The Virulence Of Candida Albicans

Singh, Vijender

03 1900

Candida albicans, a commensal of gastrointestinal and uro-vaginal tract can cause superficial as well as life threatening disseminated infections under conditions of lowered immunity of the host such as HIV infection, drug induced immune suppression [given during organ transplantation to prevent rejection] and radiation therapy [head and neck cancer patients] (Odds, 1988; Fidel and Sobel, 1996). Candida albicans shows a range of morphologies, it can switch from budding yeast morphology to pseudohyphae (chains of elongated cells with visible constrictions at the sites of septa) and hyphae (linear filaments without visible constrictions at the septa) (Mitchell, 1998). The various factors that contribute to its virulence include its ability to undergo yeast to hyphal transition, formation of biofilms, adhesion and secretion of aspartyl proteinases. Hyphae are considered to be involved in invasive growth as they are frequently identified in infected tissues and strains defective in morphological transition (yeast to hyphal) are avirulent (Leberer et al., 1996; Lo et al., 1997; Stoldt et al., 1997). Morphological switching is not only necessary for successful establishment of infection but important for evading components host defense system like macrophages or dendritic cells. A network of signaling pathways that operate in C. albicans continuously assess the nutrient availability, cell density and other environmental conditions. The integrated output of these pathways determine the response of C. albicans under given set of environmental/media conditions and eventually determines the gene expression and morphogenic transition (Liu., 2001). C. albicans utilizes at least two major signaling pathways besides others for regulating the morphological transition. One of these two pathways uses Cph1 as transcription factor and is the homolog of Ste12 in S. cerevisiae which is shown to be involved in Pseudohyphal growth and mating. The other pathway includes Efg1 (homolog of Phd1 in S. cerevisiae) as transcription factor. Biofilm formation by Candida species is an important virulence factor and has gained considerable interest recently as these specialized survival structures are found in implanted devices such as indwelling catheters and prosthetic heart valves (Hawser and Douglas, 1994; Douglas, 2003). These biofilms lead to the failure of implants besides providing multiple drug resistance (Baillie and Douglas, 1999). A better understanding of the C. albicans interaction with the host at the site of infection and with the components of immune system will help in identifying new potential drug targets. (a) Genome wide expression profile of Candida albicans from patient samples and characterization of CaRPB4/7: To get a better insight in C. albicans response at the site of infection we were interested in mapping the expression profile of Candida albicans in active state of human infections. Patients suffering from head and neck cancer undergoing radiation therapy have high risk of C. albicans infection. We identified five such patients with heavy oral thrush infections and C. albicans samples were collected from them. Candida albicans was confirmed in these samples by various microbiological tests following which the samples were used for RNA isolation. The whole genome expression analysis leads to the identification of 188 up regulated and 88 down regulated genes in patient samples. Our data analysis revealed that Protein Kinase A pathway and many downstream genes of the same were differentially expressed. Analysis of saliva (saliva is known for antifungal and antibacterial activity) from these patients showed that unlike healthy individuals, the patient saliva favours yeast to hyphal transition of C. albicans cells. This might be a reason for high risk of infection. A major class of upregulated genes is found to be functionally involved in transcription which includes some RNA polymeraseII and III subunits. CaRPB4, the forth largest subunit of RNA polymeraseII, was found to be upregulated in patient samples. RPB4 has been shown to form sub complex with RPB7, the seventh largest subunit of RNA polymeraseII, and both subunits are known to play a role in a variety of stress conditions and pseudohyphal development in Saccharomyces cerevisiae. We characterized the CaRPB4 and CaRPB7 (homolog in Candida albicans) for their ability to complement their S. cerevisiae counterparts. CaRPB4 and CaRPB7 were able to complement majority of the phenotypes associated with these subunits in S. cerevisiae. Overexpression of CaRPB7 in S. cerevisiae enhances pseudohyphal growth. Considering the high degree of conservation of signaling pathways between S. cerevisiae and C. albicans it can be speculated that CaRPB7 might be involved in pseudohyphal development in C. albicans. We found that over expression of CaRPB4 in Candida albicans shows enhanced agar invasive growth which can be thought analogous to tissue invasion in host and hence might contribute for establishment of infection. This suggests that both the RNA polII subunits have a role to play in the virulence of C. albicans. (b) Characterization of UDP-Galactose 4-Epimerase (GAL10) from Candida albicans and their role in virulence. Enzyme UDP-Galactose-4-Epimerase [GAL10] is responsible for conversion of UDP-galactose to UDP-glucose which then gets metabolized by the cells through glycolysis and TCA cycle. The enzyme catalyzes a reversible reaction and can convert glucose to galactose in the absence of galactose as shown in Trypanosoma brucei and also involved in its virulence. In this study, we have identified the functional homolog of GAL10 in Candida albicans. S. cerevisiae and C. albicans GAL10 homologs are similar in their domainal organization as the proteins have a mutarotase and an epimerase domain. The former is responsible for conversion of ﾟ-D-galactose to a-D-galactose and the latter for epimerization of UDP-galactose to UDP-glucose. The synteny of galactose metabolizing structural genes is conserved among some fungi. To study the importance of CaGAL10 we generated deletion mutant of the gene in C. albicans. Our studies show that CaGAL10 [C. albicans GAL10] is involved in cell wall organization and in oxidative stress response. The mutant strain of GAL10 is hyperfilamentous in Lee’s and spider medium and the biofilm formed is morphologically different from the wild type strain. These set of results suggests that CaGAL10 plays an important role in organization/integrity of cell wall in C. albicans and speculate that it might be involved in virulence. (c) Study of Candida albicans-macrophage interaction and identification of transcriptional regulator of genes encoding proteins of translation machinery: Macrophages serve as the effector cells of cell mediated immunity in the control of infections. They are considered to be important for resistance to muco-cutaneous and systemic candidiasis. Our studies were aimed at understanding the response of Candida albicans cells to the presence of macrophages for extended period of time. The response was monitored using microarrays. Specifically genes involved in galactose, protein and lipid metabolism and stress response undergo concerted changes in their transcript levels. We analyzed the promoters of coregulated genes to identify common DNA elements present in them which might be involved in their transcriptional regulation. Promoter analysis of differentially expressed genes revealed presence of CPH1 and EFG1 transcription factor binding sites. Besides identifying CPH1 and EFG1 Binding sites, we identified two novel DNA elements in promoters of coregulated gene. A conserved motif TGAAAAGGAAG was identified in the promoters of genes involved in energy generation. Another 18 mer consensus palindromic sequence TAGGGCTNTAGCCCTAAT was identified in the promoters of about 48 genes. Majority of these genes encode ribosomal proteins. With the help of techniques like EMSA (Electophoretic Mobility Shift Assay) and south-western we had shown the presence of a protein of ~66 KDa molecular weight binding to the sequence with high specificity.

Candida Albicans (Virulence)

Virology

Gene Expression

Galactose Metabolism

Gene Regulation

Candida Albicans - Morphogenesis

CaRPB4

CaRPB7

UDP-Galactose-4-Epimerase ( GAL10)

Candida albicans-Macrophage

RPB4

RPB7

Biochemical Genetics

Entwicklung des Kommunikationsteilsystems für ein objektorientiertes, verteiltes Betriebssystem

Becher, Mike

09 November 1998

Thema dieser Arbeit ist die Entwicklung eines Kommunikationsteilsystems fuer das Experimentiersystem CHEOPS zur Ermoeglichung einer Interobjektkommunika- tion zwischen Objekten auf dem gleichen bzw. verschiedenen Systemen. Ausgangspunkte stellen dabei eine verfuegbare Implementation eines Ethernet- Treibers der Kartenfamilie WD80x3 fuer MS-DOS, eine geforderte Kommunikations- moeglichkeit mit UNIX-Prozessen sowie die dort benutzbaren Protokoll-Familien dar. Die Arbeit beschaeftigt sich mit der Analyse und Konzipierung des Ethernet- Treibers sowie der Internet-Protokoll-Familie fuer CHEOPS als auch deren Implementation resultierend in einem minimalen Grundsystem. Weiterhin wird ein erster Entwurf fuer ein spaeter weiterzuentwickelndes bzw. zu vervoll- staendigendes Netz-Interface vorgeschlagen und durch eine Beispiel-Implemen- tierung belegt.

ARP;

Address Resolution Protocol;

CHEOPS;

Ethernet Device;

Ethernet Treiber;

Ethernet;

ICMP;

IP-Defragmentier-Algorithmus;

IP-Routing-Algorithmus;

IP;

IPv4;

Internet Control Message Protocol;

Internet Protocol Version 4;

Internet Protocol;

Internet Protokoll;

Interobjektkommunikation;

Loopback Device;

Loopback Treiber;

Loopback;

Massage basiertes Internet Protokoll;

Message basierte Kommunikation;

Message;

Multi-Threaded ARP;

Multi-Threaded Ethernet Treiber;

Multi-Threaded ICMP;

Multi-Threaded IP;

Multi-Threaded Loopback Treiber;

Multi-Threaded UDP;

OOP;

Objektorientierte Programmierung;

Objektorientierter Ethernet Treiber;

Objektorientierter Loopback Treiber;

Objektorientiertes ARP;

Objektorientiertes ICMP;

Objektorientiertes IP;

Objektorientiertes Netzwerk-Interface;

Objektorientiertes UDP;

UDP;

User Datagram Protocol;

multithreaded ARP;

multithreaded ICMP;

multithreaded IP;

multithreaded UDP;

multithreaded ethernet device driver;

multithreaded loopback device driver;

ddc:004

Efeito da superexpressão do gene miox2 de Arabidopsis, na composição de carboidratos de parede celular secundária de plantas transgênicas de tabaco / Effects of overexpression of the miox2 gene from Arabidopsis, in secondary cell-wall carbohydrate composition in transgenic tobacco plants

Gabriela Conti

11 December 2007

As paredes celulares vegetais são estruturas essenciais para o crescimento e desenvolvimento das plantas. Além das suas diversas funções biológicas, os componentes polissacarídicos constituintes das paredes celulares (celulose, hemiceluloses e pectinas) são de vital importância como fonte natural de fibras para a nutrição humana e animal e são considerados os principais recursos renováveis do planeta, utilizados como matéria-prima para diversos processos industriais, por exemplo nos processos de produção de polpa celulósica. Todos esses fatores têm despertado grande interesse no estudo da composição e biossíntese das paredes celulares. A biossíntese dos seus polímeros se inicia no citoplasma das células, onde ocorre a formação dos precursores por uma rota metabólica complexa de biossíntese de açúcares-nucleotídeo. O entendimento da regulação dessa rota metabólica é fundamental para modular a dinâmica de biossíntese desses açúcares e assim tentar manipular as propriedades bioquímicas das paredes celulares. Nesse contexto, o presente projeto de pesquisa teve como objetivo avaliar o efeito da superexpressão do gene miox2 de Arabidopsis thaliana em plantas de Nicotiana tabacum. O produto desse gene é a enzima mio-inositol oxigenase (E.C. 1.13.99.1), cuja função é converter o mio-inositol em ácido D-glucurônico, composto central da rota de biossíntese de açúcares-nucleotídeo. Foram determinadas quatro isoformas tecido-específicas para o gene miox (miox1, miox2, miox4 e miox5) em Arabidopsis, sendo que a isoforma miox2 é a predominante em caules. Esse gene foi clonado em trabalhos anteriores realizados no laboratório e no presente trabalho, o cDNA do gene miox2 foi superexpresso em plantas de tabaco (Nicotiana tabacum) a fim de se avaliar o efeito da superexpressão na composição de carboidratos de parede celular secundária. As linhagens de plantas transgênicas obtidas, não mostraram diferenças visualmente perceptíveis em comparação aos controles, indicando ausência de alterações fisiológicas e morfológicas. Foram quantificados os monossacarídeos de paredes celulares secundárias (arabinose, ramnose, galactose, glicose, xilose, manose), os ácidos urônicos (ácido galacturônico e glucurônico) e as ligninas (solúvel e insolúvel), a partir de tecido xilemático e parênquima medular do caule. A ausência de modificações significativas nas proporções desses metabólitos, indica que as plantas exercem um estrito controle na regulação da biossíntese de paredes celulares secundárias de forma que a superexpressão do gene miox2 não provocou nenhuma alteração altamente significativa. Outros genes candidatos e os mecanismos envolvidos na sua regulação deverão ser testados quanto ao nível de transcrição, modificações pós-trancricionais e pós-traducionais a fim de entender a regulação do fluxo de carbono para a biossíntese de paredes celulares. / Cell-walls are essential structures for plant development and growth. Apart from its biological functions, the polyssacharides that make cell-walls (cellulose, hemicellulose and pectins) are the principal natural fibrous materials used for human and animal nutrition. They are also considered the most important renewable resource on earth and their use as industrial raw material is inevitable. An example is the use of wood in the production of pulp and paper. For all these reasons, the study of molecular composition and biosynthesis of plant cell-walls has been a matter of great interest for researchers over the past few years. Cell-wall polyssacharides biosynthesis begins at the cytoplasm, where a pool of UDP-glucose and other activated sugar nucleotide precursors are generated by multiple and complex interconvertion reactions. Understanding how cells control the metabolic pathways responsible for sugar nucleotide precursors synthesis, would be a primary requirement for manipulating them in an attempt to generate plants with improved properties for human use. In that context, tha aim of this research work was to analyze the effects of Arabidopsis thaliana miox2 gene overexpression in a plant model system (Nicotiana tabacum). The product of miox2 gene is myo-inositol oxygenase enzyme 2 (E.C.1.13.99.1) which converts D-glucuronic acid, an important sugar nucleotide precursor, from its substrate myo-inositol. Four isoforms of miox gene, with apparent tissue specific expression (miox1, miox2, miox4 and miox5) were already determined, but miox2 is the one primarily expressed in stems. Its cDNA was cloned from Arabidopsis thaliana in previous works and overexpressed in tobacco plants. Five normal transgenic lines were obtained, showing no phenotypically differences relative to the control line. This fact implied that miox2 overexpression did not alter any physiological nor morphological aspect of plant development. The cell-wall monossacharides (arabinose, rhamnose, galactose, glucose, xylose and mannose), uronic acids (galacturonic and glucuronic acid) and lignins (soluble and insoluble) from stem xylem and parenchymal tissue were quantified. The absence of major changes in any of the compounds measured for the transgenic lines indicated that they were able to adjust their level of carbohydrate composition. Plants seem to regulate the proportions of sugar nucleotide precursors through highly complex metabolic pathways that establish strong compensatory mechanisms. It will be necessary to study other candidate genes and some aspects of their regulation at transcriptional, postranscriptional and postransaltional level, as an attempt to understand the cell-wall carbohydrate flux.

Biossíntese

DNA

Enzimas

Expressão gênica

Fumo

Parede celular vegetal

Plantas transgênicas.

Myo-inositol oxygenase

Overexpression

Plant cell-wall

Tobacco.

UDP-sugars

IP-telefoni : en teknisk undersökning / IP-telephony : a technical study

Arvidsson, Daniel, Bergqvist, Joakim, Bünger, Robin

January 2011

Projektet har till syfte att undersöka den revolutionerande tekniken bakom IP-telefoni. Eftersom tekniken är relativt ung så finns det fortfarande mycket att lära om hur det fungerar och hur den används. Projektet behandlar fördelar och nackdelar samt vilka hot som finns och hur man kan känna sig säker när man använder IP-telefoni till vardags. Det primära objektivet med projektet är att få en helhetsbild och förstå hur tekniken verkligen fungerar. Vidare behandlas telefonens historia då det är viktigt att se var tekniken har sina rötter och hur den utvecklats sedan dess. Som en röd tråd från telefonens teknologi och det publika telefonnätets rötter görs en jämförelse mellan de två teknologierna för att se skillanderna och förmodade fördelar och nackdelar med de båda systemen. Olika sorters protokoll som har ett nära förhållande till IP-telefoni så som SIP, RTP, UDP och IP behandlas. För att få en sanningsenlig bild över hur vardagliga användare upplever IP-telefoni så har en enkätundersökning angående vanor och möjliga problem gjorts hos de anställda på Region Skåne.

IP-telefoni

teknik

PSTN

VoIP

SIP

RTP

TCP

UDP

QoS

Region Skåne

H.323

PBX

telefoni

IT

Computer and Information Sciences

Data- och informationsvetenskap

Telecommunications

Telekommunikation

Engineering and Technology

Teknik och teknologier

Performance evaluation of routing protocols for Wireless Mesh Networks

Marinis Artelaris, Spyridon

January 2016

Wireless Mesh Networks provide an organisation or a community with the means to extend or create a network independent of infrastructure. However, the network’s dynamic topology along with the fact that devices in the network might be mobile and move randomly, brings tolight various kind of problems on the network, with the most common being the routing. In this report, the problem of routing is examined in terms of throughput, routing overhead, end-to-end delay and packet delivery ratio on two chosen algorithms, namely the Dynamic MANET On-demand (DYMO) and the Better Approach To Mobile Adhoc Networking (B.A.T.M.A.N.). Furthermore, this thesis examines also a Transmission Control Protocol (TCP) connection and compares it against several TCP congestion control mechanisms, two of which, were implemented, namely TCP-Illinois and TCP-FIT, to address the effects that different TCP congestion mechanisms have on an ad-hoc network, when reliable connections are needed. The results show that DYMO is more stable, performs good overall and has the lowest routing overhead, however in a situation with limited mobility or no mobility (as in high mobility they perform poorly) proactive protocols like B.A.T.M.A.N. are worthy protocols, should the extra penalty of routing overhead in the network traffic is not causing any problems. Furthermore, regarding the TCP results, it was observed that TCP congestion algorithms designed specifically for Wireless networks, do offer better performance and should be considered, when designing an ad-hoc network.

Wireless Mesh Networks

ad-hoc

DYMO

BATMAN

TCP

UDP

congestion

OMNET

INET

routing

performance

TCPIllinois

TCP-FIT

Computer Sciences

Datavetenskap (datalogi)

Nové laboratorní úlohy v prostředí NS3 / New simulation scenarios in NS3 environment

Bureš, František

January 2017

Cílem bylo navrhnout dva simulační scénáře v prostředí NS-3. První scénář obsahuje ARQ (Automatic Repeat Request) metody v TCP (Transmission Control Protocol). Je v něm porovnání Stop-and-Wait, Go-Back-N a Selective-Repeat metod. Teoretická část obsahuje TCP a ARQ. Druhý scénář je o způsobech přenosu zpráv. Vytvořený scénář převážně s komutací paketů a buněk a teoretické základy jsou obsaženy v práci. Je v něm porovnání metod komutací s různou velikostí paketu/buňky, počtem uzlů a důsledek zpoždění v každé metodě. Scénáře jsou ve formě laboratorní úlohy s instrukcemi k vypracování.

Návrh laboratorních úloh v prostředí Riverbed Modeler / Laboratory exercises in Riverbed Modeler simulation environment

Lojek, Stanislav

January 2018

This semestral thesis deals with the creation of a laboratory exercise for the course of Communication Technology. This course is designed for Teleinformatics in bachelor's degree program and should provide students with basic knowledge of network protocols and technologies. For this reason, the thesis deals with basic transport protocols, protocols for transmission via backbone networks and network layer protocols. The introductory part introduces the OPNET design environment, more precisely its free version of Riverbed Modeler Academic Edition 17.5, where the design of the laboratory exercises is done. The second part is a necessary theory to the exercises. The lab exercise is focused on differences in TCP (Transmission Control Protocol) and UDP (User Datagram Protocol) protocols. The second laboratory exercises is focused on technologies for transmission mainly on WAN (Wide Area Network) namely ATM (Asynchronous Transfer Mode) and Frame Relay. The last proposed exercises deals with the two most prominent Internet protocols that are used for communications IPv4 (Internet Protocol version 4) and IPv6 (Internet Protocol version 6) protocols. Guides for students have been created for this task, and at the end of each part, the complementary tasks and questions are given to students in oder to test the gained knowledge of the discussed issues.

Zabezpečený peer to peer komunikační systém / Secure peer-to-peer communication system

Eliáš, Luboš

January 2008

The main aim of this master's thesis is to implement a common, secure and peer-to-peer communication system. The system has ability to automatically establish and run a secure end-to-end connection. It has this ability even if a network address translator is in the way to the destination system, without need of any explicit configuration of this translator. The security procedures of this system are in a transparent manner masked from individual applications, which had to solve this challenge in their own way. A responsibility for a security is delegate to an application-independent subsystem working within the core of an operating system. The security of this subsystem is based on capturing the outbound and inbound IP packets and their authentication and encryption. The system was successfully implemented in MS Windows XP operating system, in programming language C++. Transfer rate of communication tunnel in different network bandwidth speeds was measured. Result shows, that in the case of use the system on standard PC sold nowadays is practically no decrease of the transfer rate in comparison to a common channel.