Analyses and Applications of Metalloprotein Complexes

Kirberger, Michael Patrick

04 August 2008

The structural characteristics associated with the binding of beneficial metals (i.e. - Mg2+, Zn2+ and Ca2+) to natural proteins has typically received more attention than competitive binding by toxic metals (e.g. – Pb2+, Hg2+, Cd2+, La3+, etc.). In this thesis, a statistical analysis of Pb2+-binding in crystallized protein structures indicates that Pb2+ does not bind preferentially with nitrogen, as generally assumed, but binds predominantly with oxygen, and to a lesser degree, sulfur. A comparison of Ca2+ and Pb2+ indicates that Pb2+ binds with a wider range of coordination numbers, with less formal change, and with less defined structure than Ca2+. The Pb2+ ion also appears to displace Ca2+ with little conformational stress in calcium binding proteins (CaBP’s). Experimental data from the binding of metals with engineered fluorescent proteins indicate that both Pb2+ and Gd3+ will occupy grafted calcium-binding sites with greater affinity than Ca2+, and strong evidence is presented to support the hypothesis that Pb2+ and Gd3+ will bind non-specifically on the protein surface. These results suggest that toxicity is associated with two binding mechanisms: displacement of the metal cofactor which disrupts protein function, and non-specific binding which maintains higher solubility of the metal.

metalloprotein

metal

calcium binding protein

CaBP

enhanced green fluorescent protein

EGFP

Ca2+

Pb2+

Gd3+

database

sequence analysis

prediction

binding geometry

metal toxicity.

Studies On Embryonic Stem Cells From Enhanced Green Fluorescent Protein Transgenic Mice : Induction Of Cardiomyocyte Differentiation

Singh, Gurbind

06 1900

Genesis of life begins with the fusion of female and male haploid gametes through a process of fertilization leading to the formation of a diploid cell, the zygote. This undergoes successive cleavage divisions forming 2-, 4- and 8- cell embryos and their individual cells (blastomeres) are totipotent. As development proceeds, there is a gradual restriction in their totipotency, resulting in the generation of two distinct cell lineages i.e., the differentiated trophectoderm (TE) cells and the undifferentiated, inner cell mass (ICM) during blastocyst morphogenesis (Rossant and Tam 2009). During the course of development, the ICM cells can give rise to all cell types of an organism and can also provide embryonic stem (ES)-cells when cultured in vitro (Evan and Kaufman 1981). ES-cells are pluripotent cells, having the ability to self-renew indefinitely and differentiate into all the three primary germ layers (ectoderm, mesoderm and endoderm) derived-cell types. ES-cells are an excellent developmental model system to understand basic mechanisms of self-renewal, cell differentiation and function of various genes in vitro and in vivo (Capecchi 2001). Importantly, their cell derivatives could potentially be used for experimental cell-based therapy for a number of diseases. Although, human ES-cell lines have been successfully derived and differentiated to various cell types (Thomson et al., 1998; Odorico et al., 2001), their cell-therapeutic potential is far from being tested, in view of the lack of our understanding of lineage-specific differentiation, homing and structural-functional integration of differentiated cell types in the host environment. To understand these mechanisms, it is desirable to have fluorescently-marked ES-cells and their differentiated cell-types, which could facilitate experimental cell transplantation studies. In this regard, our laboratory has earlier generated enhanced green fluorescent protein (EGFP)-expressing FVB/N transgenic ‘green’ mouse, under the control of ubiquitous chicken -actin promoter (Devgan et al., 2003). This transgenic mouse has been an excellent source of intrinsically green fluorescent cell types. We have been attempting to derive ES-cell line from this transgenic mouse. Because the derivation of ES-cell line is genetic strain-dependent, with some strains being relatively permissible for ES-cell derivation while others are quite resistant (non permissive), it has been extremely difficult to derive ES-cell line from the FVB/N mouse strain. There is a need to evolve experimental strategies to derive ES-cell line from FVB/N mouse, a strain extensively used for transgenesis. Thus, the aims of the study described in the thesis are to: (1) develop an experimental system to derive EGFP-expressing fluorescently-marked ES-cell line from a non-permissive FVB/N mouse strain; (2) characterize the established ES-cell line; (3) achieve differentiation of various cell types from EGFP-expressing ES-cell line and (4) understand role of FGF signaling in cardiac differentiation from the established ES-cell line. In order to have an appropriate and relevant literature background, the 1st chapter in this thesis describes a comprehensive up-to-date review of literature, pertaining to the early mammalian development and differentiation of blastocyst, followed by origin and properties of ES-cells. Various ES-cell derivation strategies from genetically permissive and non-permissive mouse strains are described and also the ES-cell differentiation potential to various progenitors and differentiated cell types. Subsequently, details on molecular basis of cardiac differentiation and the therapeutic potential of ES-cell derived differentiated cell types to treat disease(s) are described. This chapter is followed by three data chapters (II-IV). Chapter-II describes the issues related to non-permissiveness of FVB/N strain for ES-cell derivation and strategies to overcome this hurdle. This is followed by detailed results pertaining to generation of homozygous EGFP-expressing transgenic mice and development of a two-pronged ES-cell derivation approach to successfully establish a permanent ES-cell line (named ‘GS-2’ ES-cell line) from the EGFP-transgenic ‘green’ mouse. This chapter also provides results pertaining to detailed characterization of the ‘GS-2’ ES-cell line which includes colony morphology, expansion efficiency, alkaline phosphatase staining, expression analysis of pluripotent markers by RT-PCR and immunostaining approaches and karyotyping. Following this, the outcome of results and significance in the context of reported information are discussed in detail. Having successfully derived the ‘GS-2’ ES-cell line, it is necessary to thoroughly assess the differentiation competence of the ‘GS-2’ ES-cell line. Therefore, the Chapter-III describes detailed assessment of the in vitro and in vivo differentiation potential of the ‘GS-2’ ES-cell line. For in vitro differentiation, results pertaining to ES-cell derived embryoid body (EB) formation and their differentiation to ectodermal, mesodermal and endodermal cell types, expressing nestin, BMP-4 and α-fetoprotein, respectively, are described. Besides, the robustness of adaptability of ‘GS-2’ ES-cells to various culture conditions for their maintenance and differentiation are described. Also shown in the chapter is the relatively greater propensity of this cell line to cardiac differentiation. For in vivo differentiation, the ‘GS-2’ ES-cell derived teratoma formation in nude mice and its detailed histological analysis showing three germ layer cell types and their derivatives are described. Last part of the data described in this chapter, pertains to generation of chimeric blastocysts by aggregation method. Because the ‘GS-2’ ES-cell line exhibited a robust differentiation potential, including an efficient cardiomyocyte differentiation, it is of interest to enhance the efficiency of cardiomyocyte differentiation by exogenous addition of one of the key growth factors i.e., FGF8b since this has been implicated to be critical for cardiogenesis in non-mammalian verterbrate species. Therefore, Chapter-IV is focused on assessing the ability of ‘GS-2’ ES-cell line for its cardiomyocyte differentiation property with particular emphasis on the FGF-induced cardiac differentiation. Results pertaining to the expressions of various FGF ligands and their receptors during differentiation of ES-cells are described. Besides, increases in the cardiac efficiency, following FGF8b treatment and the associated up-regulation of cardiac-specific markers such as GATA-4, ISL-1 and α-MHC are shown. At the end of data chapters, separate sections are devoted for ‘Summary and Conclusion’ and for ‘Bibliography’.

Experimental Research

Stem Cells

Transgenic Mice

Cardiomyocyte Differentiation

Embryonic Stem Cells

Fibroblast Growth Factor (FGF)

Embryonic Stem Cell Line

ES-cells

Molecular Biology

On bacterial formats in protein library technology

Löfdahl, Per-Åke

January 2009

Millions of years of evolution have resulted in an immense number of different proteins, which participate in virtually every process within cells and thus are of utmost importance for allknown forms of life. In addition, there are several examples of natural proteins which have found use in applications outside their natural environment, such as the use of enzymes infood industry and washing powders or the use of antibodies in diagnostic, bioseparation or therapeutic applications. To improve the performance of proteins in such applications, anumber of techniques, all collectively referred to as ‘protein engineering’, are performed in thelaboratory.Traditionally, methods involving ‘rational design’, where a few alterations are introduced atspecific protein locations to hopefully result in expected improvements have been applied.However, the use of more recent techniques involving a simultaneous construction of a large number of candidate variants (protein libraries) by various diversification principles, fromwhich rare clones showing enhanced properties can be isolated have contributed greatly to thefield of protein engineering.In the present thesis, different protein traits of biotechnological importance have beenaddressed for improvements by the use of such methods, in which there is a crucial need tomaintain a clonal link between the genotype and the phenotype to allow an identification of protein library members isolated by virtue of their functional properties. In all protein library investigations included in this thesis this coupling has been obtained by Escherichia coli bacterialcell-membrane compartmental confinement.In a first study, a combination of error prone PCR and gene-shuffling was applied to the Tobacco Etch Virus (TEV)-protease gene in order to produce collections from which genesencoding variants showing an enhanced soluble expression of the enzyme frequently used inbiotechnology to cleave fusion proteins were identified. Using Green Fluorescence Protein(GFP)-based cell fluorescence analysis, a clone with a five-fold increase in the yield of solubly produced protein was successfully isolated. In a second study, a novel and different GFPbased selection system, in addition also involving targeted in vivo protein degradation principles,was employed for investigations of the substrate sequence space of the same protease. In two additional studies, a selection system denoted Protein Fragment Complementation Assay(PCA), based on the affinity driven structural complementation of a genetically split β-lactamase enzyme was used to identify variants having desired target protein binding abilities,including both specificity and affinity. Using Darwinian principles concerning clonal growth advantages, affibody binding proteins showing sub-nanomolar dissociation constants to thehuman cytokine TNF-α were isolated. Taken together, these studies have shown that the bacterial format is very well suited for use in various aspects of protein library selection. / QC 20100729

Affibody molecule

β-lactamase

combinatorial library

green fluorescent protein (GFP)

protein engineering

selection

TEVprotease

TNF-α

Bioengineering

Bioteknik

Enzyme engineering

Enzymteknik

Transformação de Xylella fastidiosa com GFP, colonização em citros e implementação do sistema de dieta artificial para o inseto vetor = novas abordagens no estudo do patossistema CVC / Xylella fastidiosa GFP transformation, its colonization process in citrus and implementation of artificial diet system for insect vector : new approaches in the study of CVC pathosystem

Niza, Bárbara, 1989-

25 August 2018

Orientador: Alessandra Alves de Souza / Texto em português e inglês / Dissertação (mestrado) - Universidade Estadual de Campinas, Instituto de Biologia / Made available in DSpace on 2018-08-25T17:07:39Z (GMT). No. of bitstreams: 1 Niza_Barbara_M.pdf: 2368175 bytes, checksum: 2c97ffad74e7a3e1c33ae99c78818b99 (MD5) Previous issue date: 2014 / Resumo: A citricultura brasileira é um importante setor para a economia do país, contribuindo com superávits comerciais e geração de empregos, entretanto, o setor passa por uma grave crise econômica em decorrência do alto custo de produção e do baixo valor pago pela caixa de laranja no Brasil. O principal motivo do alto custo de produção é a alta incidência de pragas e doenças que atingem essa cultura. Dentre as doenças, a Clorose Variegada do Citros (CVC) causada pela bactéria Xylella fastidiosa e transmitida a seus hospedeiros por cigarrinhas vetoras, é a que até hoje causou mais danos à citricultura brasileira. O mecanismo de patogenicidade da X. fastidiosa permanece não conclusivo porém a hipótese mais aceita está relacionada à facilidade da bactéria em colonizar o hospedeiro, ou seja, em se movimentar e multiplicar dentro dos vasos do xilema da planta infectada, seguido da formação do biofilme. O conhecimento da doença bem como das interações planta-patógeno e vetor-patógeno estão muito avançados para a doença de Pierce (PD), doença causada pela X. fastidiosa em videiras nos Estados Unidos. Esse avanço no conhecimento para PD ocorreu principalmente devido à obtenção de estirpes geneticamente modificadas da bactéria, permitindo a execução de estudos funcionais e de colonização. A implementação da aquisição de X. fastidiosa em sistema de dieta artificial para estudos com o vetor também foi de grande contribuição para esse avanço, uma vez que esse sistema elimina a utilização de plantas fonte para aquisição da bactéria. Em citros, sabe-se que existem fontes de resistência natural à CVC como tangerinas, tangors, limas e limões, entretanto, todas as variedades de laranja doce plantadas no Brasil são suscetíveis a essa doença. Sabe-se também que há uma resposta genética diferente entre um genótipo resistente e o suscetível quando inoculados com X. fastidiosa, porém, não se conhece como se dá a colonização in planta, e se existe uma correlação entre a resposta genética da planta e o comportamento da bactéria. Buscando melhorar o entendimento dos fatores envolvidos no patossistema CVC este trabalho teve como objetivo a obtenção de uma estirpe patogênica de X. fastidiosa de citros transformada com a proteína verde fluorescente (GFP) afim de avaliar sua colonização in planta em genótipos parentais e híbridos de citros, resistentes e suscetíveis, além da implementação da aquisição de X. fastidiosa por cigarrinhas vetores por meio do sistema de dieta artificial. A obtenção do transformante de X. fastidiosa expressando GFP permitiu o acompanhamento da colonização da bactéria nos vasos do xilema de plantas suscetíveis e resistentes e a avaliação mostrou uma colonização diferenciada entre caule e pecíolo. Também foi verificado um padrão diferencial de colonização dos caules de genótipos suscetíveis em relação aos resistentes, no qual a bactéria parece não capaz de se mover em genótipos resistentes, permanecendo aprisionada no xilema primário dessas plantas, sugerindo um possível mecanismo de resistência. A implementação da aquisição de células bacterianas em sistema de dieta artificial foi estabelecida com sucesso para vetor e estirpe de X. fastidiosa em citros, abrindo perspectivas para vários estudos na área de interação vetor-patógeno e transmissão da CVC / Abstract: The citrus agribusiness is an important segment for the country economy, contributing to employment and trade surpluses, however, it is passing through an economic crisis on behalf of the high cost of production and the low price paid by the orange box in Brazil. The main reason for the high cost of production is the high incidence of pests and diseases affecting this crop. Among the diseases, the Citrus Variegated Chlorosis (CVC) is caused by the bacterium Xylella fastidiosa and transmitted to its hosts by sharpshooters, and it is the disease that more damage have been causing to the citrus agribusiness in Brazil. The X. fastidiosa pathogenicity mechanism still not clear but the currently accept hypothesis is related to its facility to colonize the host, in other words, on move and multiply within the xylem vessels of an infected host, followed by the biofilm formation. The knowledge about the disease and the interactions between plant-pathogen and vector-pathogen are advanced for the Pierce disease, which is caused by X. fastidiosa on grapes in the United States. This occurs mainly on behalf of bacterial mutant¿s obtainment, allowing functional and colonization studies, besides the artificial diet system establishment for insect vectors studies, once this system eliminates the use of source plant acquisition, a limiting factor for X. fastidiosa acquisition since its colonization in host plants is random. In citrus, is known that natural resistant sources against CVC exists like tangerine, tangors, limes and lemons, while all the sweet orange varieties grown in Brazil are susceptible. Also, was verified a different genetic response between a resistant and a susceptible genotype when inoculated with X. fastidiosa, although, the colonization process in planta still unkown as well as if there is a correlation between the plant genetic response and the bacterial behavior. In order to better understand the factors involved in the CVC pathosystem, this work had the goal of obtain a pathogenic X. fastidiosa strain from citrus transformed with the green fluorescent protein (GFP) to evaluate its colonization in planta on parent and hybrid citrus genotypes, resistant and susceptible, besides de X. fastidiosa artificial acquisition by the insect vector using the artificial diet system. Was obtained a X. fastidiosa strain transformed with the GFP which allowed the bacterial colonization monitoring within the xylem vessels of resistant and susceptible plants and this evaluation showed a differential colonization of stems and petioles. Was also verified a different stem colonization pattern between resistant and susceptible genotypes on which the bacteria seems to be not able to move in resistant ones, staying contained into the primary xylem of these plants, suggesting a possible mechanism of resistance. The bacterial cells acquisition on artificial diet system was successfully established using a citrus insect vector and bacterial strain, opening perspectives for various studies on vector-pathogen interaction and transmission of CVC / Mestrado / Genetica de Microorganismos / Mestra em Genética e Biologia Molecular

Xylella fastidiosa

Clorose variegada dos citros

Cítricos

Insetos vetores

Proteína verde fluorescente

Xylella fastidiosa

Citrus variegated chlorosis

Citrus

Insect vectors

Green fluorescent protein

Dynamika a variabilita indukovaného umlčování transgenů v tabákové buněčné linii BY-2 / Dynamics and variability of induced transgene silencing in tobacco cell line BY-2

Čermák, Vojtěch

January 2021

RNA interference (RNAi) is an important mechanism regulating gene expression. In plants, RNAi is triggered by double-stranded RNA (dsRNA) which is processed into small RNAs (sRNAs), usually 21-24 nt long. The sRNAs are loaded into Argonaut (AGO) protein and recognize the target based on sequence complementarity. When the target is mRNA, they can slice it or block translation leading to posttranscriptional gene silencing (PTGS). When the target is DNA, they can induce DNA methylation and chromatin changes, which when present in the promoter can lead to transcriptional gene silencing (TGS). The individual components of RNAi are well described, but less is known about the impact of different types of dsRNA precursors on the dynamics of RNAi. To study these aspects of RNAi, we used tobacco BY-2 cell line expressing GFP reporter and inducible silencers. The silencers used different ways of triggering the dsRNA formation by transcripts from antisense (AS), unterminated sense (UT) and inverted repeat (IR) GFP sequence to initiate PTGS. Additionally, one IR silencer based on the CaMV 35S promoter initiated TGS. This allowed us to study RNAi from the beginning throughout the steady state level and till the recovery phase, all in the highly homogeneous system. Using this system, we described several features...

Transient Expression of BABY BOOM, WUSCHEL, and SHOOT MERISTEMLESS from Virus-Based Vectors in Cotton Explants: Can We Accelerate Somatic Embryogenesis to Improve Transformation Efficiency?

Alejos, Marcos

12 1900

Upland cotton (Gossypium hirsutum L.) is the world's most prominent fiber crop. Cotton transformation is labor intensive and time consuming, taking 12 to 18 months for rooted T0 plants. One rate limiting step is the necessary production of somatic embryos. In other recalcitrant species, ectopic expression of three genes were shown to promote somatic embryogenesis: WUSCHEL (WUS), SHOOT MERISTEMLESS (STM), and BABY BOOM (BBM). WUS is responsible for maintaining stem-cell fate in shoot and floral meristems. STM is needed to establish and maintain shoot meristems. STM and WUS have similar functions but work in different pathways; overexpression of both together converts somatic cells to meristematic and embryogenic fate. BBM encodes an AP2/ERF transcription factor that is expressed during embryogenesis and ectopic expression of BBM reprograms vegetative tissues to embryonic growth. In prior studies, these genes were constitutively expressed, and cultures did not progress beyond embryogenesis because the embryogenic signal was not turned off. In our study, we set out to use these genes to increase the efficiency of cotton transformation and decrease the time it takes to regenerate a plant. A disarmed cotton leaf crumple virus (dCLCrV) vector delivers WUS, STM, or BBM into cotton tissue cultures through Agrobacterium tumefaciens infection. We propose that virus delivery of embryo-inducing genes is a better approach for transformation because A) inserts more than 800 nucleotides are unstable, and will spontaneously inactivate, B) virus DNA can migrate through plasmodesmata to cells around the infected cell, creating a gradient of embryonic potential, C) the virus DNA does not pass through the germ line and the seed will not contain virus. We propose this method of inducing embryogenesis will facilitate the stable transformation of cotton and will be beneficial to the cotton industry. Ectopic expression of AtBBM, AtSTM, and AtWUS GrWUS:meGFP from a constitutive CaMV 35S promoter produced plants with phenotypes similar to those described in previous studies overexpressing AtBBM, indicating that the AtBBM gene was functional. The cotton cotyledon infiltration of the pART27 constructs showed transformed cells in Coker 312 by GFP localization in the nucleus. Although GFP was detected, no visible embryos appeared from the cotyledon. Cotyledons infiltrated with Agrobacterium harboring overexpression vectors withered and aborted after ~2 weeks. The virus-based vector in tissue culture failed to increase transformation efficiency, resulting in no embryos. The combination of hormone concentration showed no contribution to increasing the transformation efficiency.

Wild type

BABY BOOM

SHOOT MERISTEMLESS

WUSCHEL

PCR

pJRT.Agro.CLCrV

Virus binary vector

Somatic Embryogenesis

days post inoculation

Studium vlastností membránového napěťového senzoru ASAP1 exprimovaného v buněčné linii HEK 293 / Study of properties of voltage membrane sensor ASAP1 expressed in HEK293 cell line

Sanetrníková, Dominika

January 2016

In the beginning of this thesis is a short introduction into plasmid DNA which is in the form of a vector used in molecular biology. Plasmids can be used in the form of fluorescent probes to measure changes in membrane potential. Into their structure is added a dye called fluorophore. As an important representative of this thesis is a fluorescent probe ASAP1 which contains green fluorescent protein whose response to the membrane potential change is the decrease in the intensity of emitted light. The aim of this thesis was to make chemical transfection of this plasmid into the HEK293 cell line and carry out its characterization. In the work is also described the design of a method for the analysis of the time course of changes in fluorescence depending on the cell membrane depolarisation. In the end of this thesis is also desribed realized experiment including the discussion of aquired results.

Studium vlastností membránového napěťového senzoru ASAP1 exprimovaného v buněčné linii HEK 293 / Study of properties of voltage membrane sensor ASAP1 expressed in HEK293 cell line

Jablonská, Dominika

January 2017

This thesis deals with the problematice of measuring membrane potential and monitoring the propagation of electrical activity of cells. For this purpose, fluorescence membrane voltage sensors have been developed to detect changes in the membrane potential by changing their fluorescence intensity. The practical part is focused on the study of the properties of the ASAP1 fluorescence probe, which was transfected into the HEK293 cell line, which are kidney cells from the human embryo. Cell membrane potential was changed using the patch-clamp technique.

Studium exprese jaderného receptoru nhr-97 v Caenorhabditis elegans / Study of expression of the nuclear receptor nhr-97 in Caenorhabditis elegans

Boušová, Kristýna

January 2012

Nuclear hormone receptors (NHR) are important transcription factors that regulate development and metabolism in the large group of animals. Caenorhabditis elegans contains 284 nuclear receptors, which is unusually large amount compared to receptors of Drosophila melanogaster (18) and humans (48). 15 receptors of the C. elegans have homologous receptor structure with receptors of D. melanogaster and mammals. The remaining 269 NHR are specific to nematodes and belong to the group of supplementary nuclear receptors (SupNRs), the evolutionary precursor of the HNF4 - an important transcription factor in humans. In this work we describe the nuclear hormone receptor nhr-97 C. elegans, whose expression and function have not yet been studied. The gene is encoded in the genome of C. elegans and is among SupNRs. Nhr-97 consists of two isoforms A and B, whose expression in C. elegans tissues is different. Localization of gene expression in vivo was determined using lines expressing nhr-97:: GFP. For the A isoform expression of nhr-97::GFP was localized in neurons in the pharynx and the tail, in the intestine and hypodermis, in isoform B in the pharynx, in neurons around the corpus of pharynx, the head mesodermal cell and in anal sphincter. Nhr-97 expression during development of C. elegans was determined by...

A fluorescence-based approach to elucidate the subunit arrangement of the essential tRNA deaminase from <i>Trypanosoma brucei</i>

Winner, Katherine M.

January 2019

No description available.

Biochemistry

Molecular Biology

Microbiology

Parasitology

Trypanosoma brucei

African Sleeping Sickness

Trypanosomiasis, African

Transfer RNA

tRNA editing

ADAT2

ADAT3

GFP

fluorescence