Modulární přístup k návrhu moderních analogových prvků v technologii CMOS / Modular approach to desing of modern analog devices in CMOS technology

Prokop, Roman

January 2009

The presented dissertation thesis deals with modular design of analog circuits in CMOS technology. The goal of the work is to design a set of modular microelectronic building blocks and realize the selected modern active circuits, working primarily in current mode. Nevertheless, the modular approach can be used for design of generally known classical elements, e.g. opamps, as well. As a part of the work, the development of the totally new highly versatile active circuit CCTA has been done, including detailed analysis of utilization and introduction of the most interesting applications. This circuit CCTA, together with relative, already theoretically treated circuit CDTA, has been realized here for the first time, in two different topologies. Final circuits were tested. On the basis of measurement results the library of behavioral models for PSpice was created, including exemplary simulations of the selected applications. Based on the obtained knowledge the brief comparison of voltage mode circuits and current mode circuits was done.

Assembly of metal–organic polyhedra into highly porous frameworks for ethene delivery

Stoeck, Ulrich, Senkoska, Irena, Bon, Volodymyr, Krause, Simon, Kaskel, Stefan

19 December 2019

Two new mesoporous metal–organic frameworks (DUT-75 and DUT-76) with exceptional ethene uptake were obtained using carbazole dicarboxylate based metal–organic polyhedra as supermolecular building blocks. The compounds have a total pore volume of 1.84 and 3.25 cm³ gˉ¹ and a specific BET surface area of 4081 and 6344 m² gˉ¹, respectively, and high gas uptake at room temperature and high pressure.

info:eu-repo/classification/ddc/540

ddc:540

Towards Health System Strengthening: Analyzing the adoption of the WHO Health Systems Thinking Framework in the Nigerian and Botswana National Health Policies

Adekunle, Toluwani E.

17 September 2015

No description available.

Health

African Studies

Health systems

WHO Six building blocks of health

health systems thinking framework

2004 NHP Nigeria

2011 NHP Botswana

NSHDP

Learning Ecosystem : A framework for large manufacturing firms based on practical and theoretical insights / Ekosystem för lärande : Ett ramverk för stora tillverkningsföretag baserat på praktisk och teoretisk insikt

Ingvaldsdóttir, Embla, Sundin, Mikaela

January 2021

The purpose of the study has been to investigate and shed light on practical measures companies take to create a culture that promotes learning, as well as the role of technology. It is an important topic for organizations to face major challenges regarding reskilling and upskilling of employees, to ensure that the company has the right skills for the future. We have examined 11 companies where we took a closer look at their organizational structure, how they use leadership around learning, their vision, mission and strategy for learning, what technology is used for learning (and how and why exactly these technologies), how they create and buy digital content / courses, what can be measured and used as guidelines for driving learning and finally we have looked at the challenges production companies are especially faced with. Our analysis shows that there are some common denominators in which competencies and tasks must exist and take place internally to be able to facilitate work towards a learning culture, that learning is designed after having a high business relevance, that the top management's attitude to learning is essential, that learning technologies are used frequently, there is data on learning activities that can be used as guidelines and that production companies need to take special measures to be able to include their entire workforce in their learning initiatives. Our analysis also shows that the quality and usefulness of learning technologies has accelerated in recent years and has been given a leading role in organizations' investments to improve the learning culture. In the report, we propose that companies realize the power they have to influence how learning is done by setting up and working with the essential building blocks of the learning ecosystem we have identified. / Syftet med studien har varit att undersöka och belysa praktiska åtgärder företag tar sig an för att skapa en kultur som främjar lärande, samt vilken roll teknologi har. Det är ett viktigt ämne för att organisationer står inför stora utmaningar gällande upplärning och omskolning av anställda, för att säkerställa att företaget har rätt kompetenser. Vi har undersökt 11 företag där vi har tittat närmare på deras organisationsstruktur, hur de använder sig av ledarskap kring lärande, deras vision, mission och strategi för lärande, vilka teknologier som används för lärande (samt hur och varför just dessa teknologier), hur de skapar och köper in digitalt innehåll/kurser, vad som kan mätas och användas som riktlinjer för att driva lärande och till sist har vi tittat på utmaningar produktionsföretag speciellt ställs inför. Vår analys visar att det finns några gemensamma nämnare i vilka kompetenser och arbetsuppgifter som ska finnas internt för att lättare kunna arbeta mot en lärande kultur, att lärande designas efter att ha hög affärsrelevans, att högsta ledningens inställning till lärande är essentiell, att lärande teknologier används flitigt, det finns data kring lärande aktiviteter som kan användas som riktlinjer samt att produktionsbolag behöver vidta särskilda åtgärder för att kunna inkludera hela sin arbetsstyrka i sina lärande initiativ. Vår analys visar även att kvaliteten på och nyttan av lärande teknologier har accelererat de senaste åren och har fått en huvudroll i organisationers investeringar för att förbättra lärande kulturen. I rapporten föreslår vi att företag inser makten de har att påverka hur lärande går till genom att sätta upp och arbeta med de olika delarna vi belyser är essentiella i ett lärande ekosystem.

Learning Organization

Learning Ecosystem

Organizational Learning

Learning building blocks

Learning framework

Learning culture

Lärande Organisation

Lärande Ekosystem

Organisatoriskt lärande

Lärande byggstenar

Lärande ramverk

Lärandekultur

Engineering and Technology

Teknik och teknologier

Affärsmodeller och det nya paradigmet Internet of Things : En fallstudie om Veolia Nordic med Canvas-modellen som analysverktyg

Jansson, Hanna

January 2016

Idag talar forskare om en utveckling av digitaliseringen där allt är uppkopplat via ”Internet of Things” (IoT), eller på svenska ”Sakernas Internet”, som innebär att produkter förses med sensorer och inbyggda system. Dessa kan sedan kopplas upp mot Internet så att de olika produkterna kan kommunicera med sin omgivning. Även om forskare är oense om när detta nya paradigm kommer bryta ut, är de överens om att ett användande av IoT på rätt sätt medför fördelar då IoT optimerar och effektiviserar arbetsprocesser i företags värdekedjor. Vidare menar forskare att framgång inte längre är en fråga om teknologi, utan istället en fråga om transformationen hos företag samt vilka affärsmodeller som kan ta till vara på och skapa lönsamhet av denna utveckling. Tidigare forskning om affärsmodeller har fokuserat på innehållsmässiga aspekter i affärsmodellen och kommit fram med konceptuella modeller. En väletablerad sådan är canvas-modellen. Hur canvas-modellen kan användas i praktiken är däremot mindre utforskat. Syftet med denna uppsats har således varit att undersöka hur canvas-modellen fungerar i praktiken genom att utföra en fallstudie på Veolia Nordics nutida affärsmodell samt framtida visioner med hänsyn till Internet of Things (IoT). Uppsatsens undersökning visar att implementeringen av canvas-modellen på Veolias affärsmodell har begränsningar. I dagens ständigt föränderliga och konkurrensutsatta affärsmiljö krävs det att företag söker nya möjligheter samt utvärderar dessa mot affärssammanhang för att hitta en optimal passform. Detta innebär att företag, såsom Veolia, bör se affärsmodellen som en process som kräver progressiva förbättringar, snarare än en statisk bild över nutida data. Vidare anses canvas- modellen vara lämpligare att använda av företag som arbetar med produkter, snarare än tjänster. För att använda modellen som ett verktyg för strategiska beslut i ett företag som Veolia, är det lämpligt att den utvidgas till att karaktärisera fler byggstenar ur ett transformativt perspektiv. I utvecklingen av IoT skulle modellen exempelvis kunna anpassas utefter de särdrag inom paradigmet som forskare nämner i form av säkerhetsåtgärder och ansvarsfrågor då dessa är väsentliga att reflektera över vid beslutsfattande av strategiska initiativ. Sammanfattningsvis har studien visat vikten och nyttan av affärsmodeller samt behovet av att anpassa dessa till externa händelser såsom det nya paradigmet IoT. / Many researchers are currently discussing a development of the digitalization, where everything is connected via Internet of Things (IoT), implying that products are equipped with sensors and embedded systems. These sensors can be connected to Internet in order to communicate with their environment. Although researchers disagree on when this new paradigm will happen, they agree that the usage of IoT entails advantages for companies’ value chains, as it optimizes work processes. Furthermore, researchers argues that success not longer is a question of technology, but rather a question of the transformation of companies, and which business models that could take advantage and generate profit from this development. Previous studies regarding business models are focused on substance of the business model, which have resulted in conceptual models. One well-established model is the canvas-model. The usage of the canvas-model in practice is however less explored. The purpose of this study was thus to examine how the canvas-model works in practice by conducting a case study on the contemporary business model of Veolia Nordic. Future visions with respect to IoT have also been examined. The result of the study implies that the canvas-model is inadequate when implementing it on the business model of Veolia. The business environment is constantly changing and competitive, and businesses need to find innovative possibilities and evaluate them against the business context in order to find optimal solutions. This entails that companies, such as Veolia, should look at the business model as a process that requires progressive improvement, rather than a static image of contemporary data. Furthermore, the canvas- model is considered to be better suited for companies focusing on products, rather than services. To use the model as a tool for strategic decisions in a company like Veolia, it is appropriate that the canvas-model is extended to characterize more building blocks from a transformative perspective. When looking at the development of IoT, the model could be further adapted along the specificities within the paradigm, for example along the terms of security and liability issues, as these are important to consider when making decisions about strategic initiatives. This study has shown the importance of business models and the need to adapt these to external occurrences, such as the new paradigm IoT.

Business models

conceptual business models

business model development

business model innovation

building blocks

Business Model Canvas

Internet of Things

IoT

industry 4.0.

Affärsmodeller

konceptuella affärsmodeller

affärsmodellutveckling

affärsmodellinnovation

byggstenar

sakernas internet

industri 4.0

canvas-modellen.

Chemistry of polynuclear transition-metal complexes in ionic liquids

Ahmed, Ejaz, Ruck, Michael

02 April 2014

Transition-metal chemistry in ionic liquids (IL) has achieved intrinsic fascination in the last few years. The use of an IL as environmental friendly solvent, offers many advantages over traditional materials synthesis methods. The change from molecular to ionic reaction media leads to new types of materials being accessible. Room-temperature IL have been found to be excellent media for stabilising transition-metal clusters in solution and to crystallise homo- and heteronuclear transition-metal complexes and clusters. Furthermore, the use of IL as solvent provides the option to replace high-temperature routes, such as crystallisation from the melt or gas-phase deposition, by convenient room- or low-temperature syntheses. Inorganic IL composed of alkali metal cations and polynuclear transition-metal cluster anions are also known. Each of these areas will be discussed briefly in this contribution. / Dieser Beitrag ist mit Zustimmung des Rechteinhabers aufgrund einer (DFG-geförderten) Allianz- bzw. Nationallizenz frei zugänglich.

Chlorid

Zirkonium

Halide

Salzschmelze

Kristallstruktur

spektroskopische Charakterisierung

anorganische Stoffe

biphasische Katalyse

chloride molten-salt

zirconium halide clusters

crystal-structures

spectroscopic characterization

ionothermal synthesis

inorganic materials

biphasic catalysis

optical-properties

building-blocks

coordination

ddc:540

rvk:VA 1120

Grafické kódování třetí dimenze u čtyř až pětiletých dětí. / Graphical encoding the third dimension for four to five children.

Škopková, Jana

January 2011

RESUME My dissertation follows the subject of coding procedure. It focuses on the graphical coding, which naturally reveals within the child's artwork development. The dissertation aims at the transformation of 2D to 3D, vice versa. The four to five years old children are observed how they decode the three dimensional (3D) structure consisted of cubes into a two dimensional (2D) squared network. Observed children are offered various activities to prove whether they are able to accept the code, using the code to decode their own structure and finally build the structure using this code. My dissertation does not only represent an overview of commonly used symbols and methods and their records, but in particular brings interesting results and analyses of tests and comparations between individual children and kindergartens.

Ein Baukastensystem zum universellen Aufbau kleiner rigidifizierter Peptidomimetika und spirocyclopropanierter Wirkstoffanaloga / A toolbox-system for the formation of small rigid peptidomimetics and spirocyclopropanated drug-analogues

Limbach, Michael

02 November 2004

No description available.

540 Chemie

Mathematics and Computer Science

Bausteine

molekulare Diversität

Kleinringsysteme

Synthesemethoden

Titan

Peptidomimetika

Building blocks

molecular diversity

small ring systems

synthetic methods

titanium

peptidomimetics

35.50

35.62

SUK 350: Amine -NH2-

Amide

Enamine

Imine {Organische Chemie}

Ionic liquids as crystallisation media for inorganic materials

Ahmed, Ejaz, Breternitz, Joachim, Groh, Matthias Friedrich, Ruck, Michael

09 April 2014

Ionic liquids (ILs) have made a great impact on materials science and are being explored for potential applications in several disciplines. In this article, we briefly highlight the current state-of-the-art techniques employing ILs as new crystallisation media, working as neutral solvent, template or charge compensating species. The use of an IL as environmental friendly solvent offers many advantages over traditional crystallisation methods. The change from molecular to ionic reaction media leads to new types of materials being accessible. Room temperature ILs have been found to be excellent solvent systems for the crystallisation of a wide range of substances and morphologies ranging from nanoscopic crystals to micro- and even to macroscopic crystals. Moreover, high temperature routes, such as crystallisation from melts or gas phase deposition, have been replaced by convenient room or low temperature syntheses, employing ILs as reaction media. / Dieser Beitrag ist mit Zustimmung des Rechteinhabers aufgrund einer (DFG-geförderten) Allianz- bzw. Nationallizenz frei zugänglich.

Synthese

anorganische Stoffe

Ionische Flüssigkeit

Polymer

optische Eigenschaften

Kristallstruktur

Lösungsmittel

Salze

Chloride

Cluster

Wachstum

ionothermal synthesis

building-blocks

coordination polymer

optical-properties

crystal-structures

solvents

salts

chloride

cluster

growth

ddc:540

rvk:VA 1120

Computational Studies on Structures and Functions of Single and Multi-domain Proteins

Mehrotra, Prachi

January 2017

Proteins are essential for the growth, survival and maintenance of the cell. Understanding the functional roles of proteins helps to decipher the working of macromolecular assemblies and cellular machinery of living organisms. A thorough investigation of the link between sequence, structure and function of proteins, helps in building a comprehensive understanding of the complex biological systems. Proteins have been observed to be composed of single and multiple domains. Analysis of proteins encoded in diverse genomes shows the ubiquitous nature of multi-domain proteins. Though the majority of eukaryotic proteins are multi-domain in nature, 3-D structures of only a small proportion of multi-domain proteins are known due to difficulties in crystallizing such proteins. While functions of individual domains are generally extensively studied, the complex interplay of functions of domains is not well understood for most multi-domain proteins. Paucity of structural and functional data, affects our understanding of the evolution of structure and function of multi-domain proteins. The broad objective of this thesis is to achieve an enhanced understanding of structure and function of protein domains by computational analysis of sequence and structural data. Special attention is paid in the first few chapters of this thesis on the multi-domain proteins. Classification of multi-domain proteins by implementation of an alignment-free sequence comparison method has been achieved in Chapters 2 and 3. Studies on organization, interactions and interdependence of domain-domain interactions in multi-domain proteins with respect to sequential separation between domains and N to C-terminal domain order have been described in Chapters 4 and 5. The functional and structural repertoire of organisms can be comprehensively studied and compared using functional and structural domain annotations. Chapter 6, 7 and 8 represent the proteome-wide structure and function comparisons of various pathogenic and non-pathogenic microorganisms. These comparisons help in identifying proteins implicated in virulence of the pathogen and thus predict putative targets for disease treatment and prevention. Chapter 1 forms an introduction to the main subject area of this thesis. Starting with describing protein structure and function, details of the four levels of hierarchical organization of protein structure have been provided, along with the databases that document protein sequences and structures. Classification of protein domains considered as the realm of function, structure and evolution has been described. The usefulness of classification of proteins at the domain level has been highlighted in terms of providing an enhanced understanding of protein structure and function and also their evolutionary relatedness. The details of structure, function and evolution of multi-domain proteins have also been outlined in chapter 1. ! Chapter 2 aims to achieve a biologically meaningful classification scheme for multi-domain protein sequences. The overall function of a multi-domain protein is determined by the functional and structural interplay of its constituent domains. Traditional sequence-based methods utilize only the domain-level information to classify proteins. This does not take into account the contributions of accessory domains and linker regions towards the overall function of a multi-domain protein. An alignment-free protein sequence comparison tool, CLAP (CLAssification of Proteins) previously developed in this laboratory, was assessed and improved when the author joined the group. CLAP was developed especially to handle multi-domain protein sequences without a requirement of defining domain boundaries and sequential order of domains (domain architecture). ! The working principle of CLAP involves comparison of all against all windows of 5-residue sequence patterns between two protein sequences. The sequences compared could be full-length comprising of all the domains in the two proteins. This compilation of comparison is represented as the Local Matching Scores (LMS) between protein sequences (nslab.iisc.ernet.in/clap/). It has been previously shown that the execution time of CLAP is ~7 times faster than other protein sequence comparison methods that employ alignment of sequences. In Chapter 2, CLAP-based classification has been carried out on two test datasets of proteins containing (i) Tyrosine phosphatase domain family and (ii) SH3-domain family. The former dataset comprises both single and multi-domain proteins that sometimes consist of domain repeats of the tyrosine phosphatase domain. The latter dataset consists only of multi-domain proteins with one copy of the SH3-domain. At the domain-level CLAP-based classification scheme resulted in a clustering similar to that obtained from an alignment-based method, ClustalW. CLAP-based clusters obtained for full-length datasets were shown to comprise of proteins with similar functions and domain architectures. Hence, a protein classification scheme is shown to work efficiently that is independent of domain definitions and requires only the full-length amino acid sequences as input.! Chapter 3 explores the limitations of CLAP in large-scale protein sequence comparisons. The potential advantages of full-length protein sequence classification, combined with the availability of the alignment-free sequence comparison tool, CLAP, motivated the conceptualization of full-length sequence classification of the entire protein repertoire. Before undertaking this mammoth task, working of CLAP was tested for a large dataset of 239,461 protein sequences. Chapter 3 discusses the technical details of computation, storage and retrieval of CLAP scores for a large dataset in a feasible timeframe. CLAP scores were examined for protein pairs of same domain architecture and ~22% of these showed 0 CLAP similarity scores. This led to investigation of the sensitivity of CLAP with respect to sequence divergence. Several test datasets of proteins belonging to the same SCOP fold were constructed and CLAP-based classification of these proteins was examined at inter and intra-SCOP family level. CLAP was successful in efficiently clustering evolutionary related proteins (defined as proteins within the same SCOP superfamily) if their sequence identity >35%. At lower sequence identities, CLAP fails to recognize any evolutionary relatedness. Another test dataset consisting of two-domain proteins with domain order swapped was constructed. Domain order swap refers to domain architectures of type AB and BA, consisting of domains A and B. A condition that the sequence identities of homologous domains were greater than 35% was imposed. CLAP could effectively cluster together proteins of the same domain architectures in this case. Thus, the sequence identity threshold of 35% at the domain-level improves the accuracy of CLAP. The analysis also showed that for highly divergent sequences, the expectation of 5-residue pattern match was likely a stringent criterion. Thus, a modification in the 5-residue identical pattern match criterion, by considering even similar residue and gaps within matched patterns may be required to effectuate CLAP-based clustering of remotely related protein sequences. Thus, this study highlights the limitations of CLAP with respect to large-scale analysis and its sensitivity to sequence divergence. ! Chapters 4 and 5 discuss the computational analysis of inter-domain interactions with respect to sequential distance and domain order. Knowledge of domain composition and 3-D structures of individual domains in a multi-domain protein may not be sufficient to predict the tertiary structure of the multi-domain protein. Substantial information about the nature of domain-domain interfaces helps in prediction of the tertiary as well as the quaternary structure of a protein. Therefore, chapter 4 explores the possible relationship between the sequential distance separating two domains in a multi-domain protein and the extent of their interaction. With increasing sequential separation between any two domains, the extent of inter-domain interactions showed a gradual decrease. The trend was more apparent when sequential separation between domains is measured in terms of number of intervening domains. Irrespective of the linker length, extensive interactions were seen more often between contiguous domains than between non-contiguous domains. Contiguous domains show a broader interface area and lower proportion of non-interacting domains (interface area: 0 Å2 to - 4400 Å2, 2.3% non-interacting domains) than non-contiguous domains (interface area: 0 Å2 to - 2000 Å2, 34.7% non-interacting domains). Additionally, as inter-protein interactions are mediated through constituent domains, rules of protein-protein interactions were applied to domain-domain interactions. Tight binding between domains is denoted as putative permanent domain-domain interactions and domains that may dissociate and associate with relatively weak interactions to regulate functional activity are denoted as putative transient domain-domain interactions. An interface area threshold of 600 Å2 was utilized as a binary classifier to distinguish between putative permanent and putative transient domain-domain interactions. Therefore, the state of interaction of a domain pair is defined as either putative permanent or putative transient interaction. Contiguous domains showed a predominance of putative permanent nature of inter-domain interface, whereas non-contiguous domains showed a prevalence of putative transient interfaces. The state of interaction of various SCOP superfamily pairs was studied across different proteins in the dataset. SCOP superfamily pairs mostly showed a conserved state of interaction, i.e. either putative permanent or putative transient in all their occurrences across different proteins. Thus, it is noted that contiguous domains interact extensively more often than non-contiguous domains and specific superfamily pairs tend to interact in a conserved manner. In conclusion, a combination of interface area and other inter-domain properties along with experimental validation will help strengthen the binary classification scheme of putative permanent and transient domain-domain interactions.! Chapter 5 provides structural analysis of domain pairs occurring in different sequential domain orders in mutli-domain proteins. The function and regulation of a multi-domain protein is predominantly determined by the domain-domain interactions. These in turn are influenced by the sequential order of domains in a protein. With domains defined using evolutionary and structural relatedness (SCOP superfamily), their conservation of structure and function was studied across domain order reversal. A domain order reversal indicates different sequential orders of the concerned domains, which may be identified in proteins of same or different domain compositions. Domain order reversals of domains A and B can be indicated in protein pair consisting of the domain architectures xAxBx and xBxAx, where x indicates 0 or more domains. A total of 161 pairs of domain order reversals were identified in 77 pairs of PDB entries. For most of the comparisons between proteins with different domain composition and architecture, large differences in the relative spatial orientation of domains were observed. Although preservation of state of interaction was observed for ~75% of the comparisons, none of the inter-domain interfaces of domains in different order displayed high interface similarity. These domain order reversals in multi-domain proteins are contributed by a limited number of 15 SCOP superfamilies. Majority of the superfamilies undergoing order reversal either function as transporters or regulatory domains and very few are enzymes. A higher proportion of domain order reversals were observed in domains separated by 0 or 1 domains than those separated by more than 1 domain. A thorough analysis of various structural features of domains undergoing order reversal indicates that only one order of domains is strongly preferred over all possible orders. This may be due to either evolutionary selection of one of the orders and its conservation throughout generations, or the fact that domain order reversals rarely conserve the interface between the domains. Further studies (Chapters 6 to 8) utilize the available computational techniques for structural and functional annotation of proteins encoded in a few bacterial genomes. Based on these annotations, proteome-wide structure and function comparisons were performed between two sets of pathogenic and non-pathogenic bacteria. The first study compares the pathogenic Mycobacterium tuberculosis to the closely related organism Mycobacterium smegmatis which is non-pathogenic. The second study primarily identified biologically feasible host-pathogen interactions between the human host and the pathogen Leptospira interrogans and also compared leptospiral-host interactions of the pathogenic Leptospira interrogans and of the saprophytic Leptospira biflexa with the human host. Chapter 6 describes the function and structure annotation of proteins encoded in the genome of M. smegmatis MC2-155. M. smegmatis is a widely used model organism for understanding the pathophysiology of M. tuberculosis, the primary causative agent of tuberculosis in humans. M. smegmatis and M. tuberculosis species of the mycobacterial genus share several features like a similar cell-wall architecture, the ability to oxidise carbon monoxide aerobically and share a huge number of homologues. These features render M. smegmatis particularly useful in identifying critical cellular pathways of M. tuberculosis to inhibit its growth in the human host. In spite of the similarities between M. smegmatis and M. tuberculosis, there are stark differences between the two due to their diverse niche and lifestyle. While there are innumerable studies reporting the structure, function and interaction properties of M. tuberculosis proteins, there is a lack of high quality annotation of M. smegmatis proteins. This makes the understanding of the biology of M. smegmatis extremely important for investigating its competence as a good model organism for M. tuberculosis. With the implementation of available sequence and structural profile-based search procedures, functional and structural characterization could be achieved for ~92% of the M. smegmatis proteome. Structural and functional domain definitions were obtained for a total of 5695 of 6717 proteins in M. smegmatis. Residue coverage >70% was achieved for 4567 proteins, which constitute ~68% of the proteome. Domain unassigned regions more than 30 residues were assessed for their potential to be associated to a domain. For 1022 proteins with no recognizable domains, putative structural and functional information was inferred for 328 proteins by the use of distance relationship detection and fold recognition methods. Although 916 sequences of 1022 proteins with no recognizable domains were found to be specific to M. smegmatis species, 98 of these are specific to its MC2-155 strain. Of the 1828 M. smegmatis proteins classified as conserved hypothetical proteins, 1038 proteins were successfully characterized. A total of 33 Domains of Unknown Function (DUFs) occurring in M. smegmatis could be associated to structural domains. A high representation of the tetR and GntR family of transcription regulators was noted in the functional repertoire of M. smegmatis proteome. As M. smegmatis is a soil-dwelling bacterium, transcriptional regulators are crucial for helping it to adapt and survive the environmental stress. Similarly, the ABC transporter and MFS domain families are highly represented in the M. smegmatis proteome. These are important in enabling the bacteria to uptake carbohydrate from diverse environmental sources. A lower number of virulent proteins were identified in M. smegmatis, which justifies its non-pathogenicity. Thus, a detailed functional and structural annotation of the M. smegmatis proteome was achieved in Chapter 6. Chapter 7 delineates the similarities and difference in the structure and function of proteins encoded in the genomes of the pathogenic M. tuberculosis and the non-pathogenic M. smegmatis. The protocol employed in Chapter 6 to achieve the proteome-wide structure and function annotation of M. smegmatis was also applied to M. tuberculosis proteome in Chapter 7. The number of proteins encoded by the genome of M. smegmatis strain MC2-155 (6717 proteins) is comparatively higher than that in M. tuberculosis strain H37Rv (4018 proteins). A total of 2720 high confidence orthologues sharing ≥30% sequence identity were identified in M. tuberculosis with respect to M. smegmatis. Based on the orthologue information, specific functional clusters, essential proteins, metabolic pathways, transporters and toxin-antitoxin systems of M. tuberculosis were inspected for conservation in M. smegmatis. Among the several categories analysed, 53 metabolic pathways, 44 membrane transporter proteins belonging to secondary transporters and ATP-dependent transporter classes, 73 toxin-antitoxin systems, 23 M. tuberculosis-specific targets, 10 broad-spectrum targets and 34 targets implicated in persistence of M. tuberculosis could not detect any orthologues in M. smegmatis. Several of the MFS superfamily transporters act as drug efflux pumps and are hence associated with drug resistance in M. tuberculosis. The relative abundances of MFS and ABC superfamily transporters are higher in M. smegmatis than in M. tuberculosis. As these transporters are involved in carbohydrate uptake, their higher representation in M. smegmatis than in M. tuberculosis highlights the lack of proficiency of M. tuberculosis to assimilate diverse carbon sources. In the case of porins, MspA-like and OmpA-like porins are selectively present in either M. smegmatis or M. tuberculosis. These differences help to elucidate protein clusters for which M. smegmatis may not be the best model organism to study M. tuberculosis proteins.! At the domain-level, ATP-binding domain of ABC transporters, tetracycline transcriptional regulator (tetR) domain family, major facilitator superfamily (MFS) domain family, AMP-binding domain family and enoyl-CoA hydrolase domain family are highly represented in both M. smegmatis and M. tuberculosis proteomes. These domains play an essential role in the carbohydrate uptake systems and drug-efflux pumps among other diverse functions in mycobacteria. There are several differentially represented domain families in M. tuberculosis and M. smegmatis. For example, the pentapeptide-repeat domain, PE, PPE and PIN domains although abundantly present in M. tuberculosis, are very rare in M. smegmatis. Therefore, such uniquely or differentially represented functional and structural domains in M. tuberculosis as compared to M. smegmatis may be linked to pathogenicity or adaptation of M. tuberculosis in the host. Hence, major differences between M. tuberculosis and M. smegmatis were identified, not only in terms of domain populations but also in terms of domain combinations. Thus, Chapter 7 highlights the similarities and differences between M. smegmatis and M. tuberculosis proteomes in terms of structure and function. These differences provide an understanding of selective utilization of M. smegmatis as a model organism to study M. tuberculosis. ! In Chapter 8, computational tools have been employed to predict biologically feasible host-pathogen interactions between the human host and the pathogenic, Leptospira interrogans. Sensitive profile-based search procedures were used to specifically identify practical drug targets in the genome of Leptospira interrogans, the causative agent of the globally widespread zoonotic disease, Leptospirosis. Traditionally, the genus Leptospira is classified into two species complex- the pathogenic L. interrogans and the non-pathogenic saprophyte L. biflexa. The pathogen gains entry into the human host through direct or indirect contact with fluids of infected animals. Several ambiguities exist in the understanding of L. interrogans pathogenesis. An integration of multiple computational approaches guided by experimentally derived protein-protein interactions, was utilized for recognition of host-pathogen protein-protein interactions. The initial step involved the identification of similarities of host and L. interrogans proteins with crystal structures of experimentally known transient protein-protein complexes. Further, conservation of interfacial nature was used to obtain high confidence predictions for putative host-pathogen protein-protein interactions. These predictions were subjected to further selection based on subcellular localization of proteins of the human host and L. interrogans, and tissue-specific expression profiles of the host proteins. A total of 49 protein-protein interactions mediated by 24 L. interrogans proteins and 17 host proteins were identified and these may be subjected to further experimental investigations to assess their in vivo relevance. The functional relevance of similarities and differences between the pathogenic and non-pathogenic leptospires in terms of interactions with the host has also been explored. For this, protein-protein interactions across human host and the non-pathogenic saprophyte L. biflexa were also predicted. Nearly 39 leptospiral-host interactions were recognized to be similar across both the pathogen and saprophyte in the context of processes that influence the host. The overlapping leptospiral-host interactions of L. interrogans and L. biflexa proteins with the human host proteins are primarily associated with establishment of its entry into the human host. These include adhesion of the leptospiral proteins to host cells, survival in host environment such as iron acquisition and binding to components of extracellular matrix and plasma. The disjoint sets of leptospiral-host interactions are species-specific interactions, more importantly indicative of the establishment of infection by L. interrogans in the human host and immune clearance of L. biflexa by the human host. With respect to L. interrogans, these specific interactions include interference with blood coagulation cascade and dissemination to target organs by means of disruption of cell junction assembly. On the other hand, species-specific interactions of L. biflexa proteins include those with components of host immune system. ! In spite of the limited availability of experimental evidence, these help in identifying functionally relevant interactions between host and pathogen by integrating multiple lines of evidence. Thus, inferences from computational prediction of host-pathogen interactions act as guidelines for experimental studies investigating the in vivo relevance of these predicted protein-protein interactions. This will further help in developing effective measures for treatment and disease prevention. In summary, Chapters 2 and 3 describe the implementation, advantages and limitations of the alignment-free full-length sequence comparison method, CLAP. Chapter 4 and 5 are dedicated to understand the domain-domain interactions in multi-domain protein sequences and structures. In Chapters 6, 7 and 8 the computational analyses of the mycobacterial species and leptospiral species helped in an enhanced understanding of the functional repertoire of these bacteria. These studies were undertaken by utilizing the biological sequence data available in public databases and implementation of powerful homology-detection techniques. The supplemental data associated with the chapters is provided in a compact disc attached with this thesis.!

Proteins - Building Blocks

Protein Sequences

Protein Domain

Hidden Markov Models (HMM)

Multi-domain Proteins

Mycobacterium smegmatis MC2-155

Mycobacterium tuberculosis

Proteomes

Leptospira Interrogans

Leptospira Biflexa Proteomes

Leptospira Biflexa Genomes

Mycobacterium tuberculosis H37Rv

Mathematics